diff --git a/src/envo/envo-edit.owl b/src/envo/envo-edit.owl index ae84f031..d05310f5 100644 --- a/src/envo/envo-edit.owl +++ b/src/envo/envo-edit.owl @@ -4765,7 +4765,7 @@ AnnotationAssertion(rdfs:label "has AnnotationAssertion( "An astrononmical body part which delimited by physical discontinuities with its surroundings."@en) AnnotationAssertion( "https://en.wikipedia.org/wiki/Geographic_feature") AnnotationAssertion( "macroscopic spatial feature") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is being depopulated and will be filled only with inferred subclasses. Please do not use this for direct annotation, favouring instead a more descriptive subclass.") AnnotationAssertion(rdfs:label "geographic feature") SubClassOf( ) @@ -4970,7 +4970,7 @@ AnnotationAssertion( "FTT:829") AnnotationAssertion( "Geonames:H.OVF") AnnotationAssertion(Annotation( "ADL:FTT") "fluvial feature") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hydrographic feature") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5015,8 +5015,8 @@ AnnotationAssertion( "TGN:21102") AnnotationAssertion( "https://en.wikipedia.org/wiki/Ocean") AnnotationAssertion(Annotation( "ADL:FTT") "ocean region") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ocean") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5036,8 +5036,8 @@ AnnotationAssertion(Annotation( "USGS:SDTS") "open sea") AnnotationAssertion(Annotation( "USGS:SDTS") "open sound") AnnotationAssertion(Annotation( "USGS:SDTS") "open water") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5103,7 +5103,7 @@ AnnotationAssertion( "mere") AnnotationAssertion(Annotation( "USGS:SDTS") "mortlake") AnnotationAssertion(Annotation( "USGS:SDTS") "pasteuer lake") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lake") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5115,7 +5115,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Freshwater") "A lake of whose water contains low concentrations of salts.") AnnotationAssertion( "SWEETRealm:FreshwaterLake") AnnotationAssertion(Annotation( "NASA:earthrealm") "FreshwaterLake") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "freshwater lake") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5534,7 +5534,7 @@ AnnotationAssertion( "SWEETRealm:Fjord") AnnotationAssertion( "TGN:21122") AnnotationAssertion( "https://en.wikipedia.org/wiki/Fjord") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fjord") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5626,7 +5626,7 @@ AnnotationAssertion( "USGS:SDTS") "morass") AnnotationAssertion(Annotation( "USGS:SDTS") "muskeg") AnnotationAssertion(Annotation( "USGS:SDTS") "peat bog") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "peatland") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -5826,7 +5826,7 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Underground_lake") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000058") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "underground lake") SubClassOf( ) SubClassOf( ) @@ -6259,7 +6259,7 @@ AnnotationAssertion(Annotation( "mountain chain") AnnotationAssertion( "mountain group") AnnotationAssertion(Annotation( "ADL:FTT") "sierra") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mountain range") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -6284,7 +6284,7 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Mountain") AnnotationAssertion(Annotation( "NASA:earthrealm") "Mountain") AnnotationAssertion(Annotation( "Geonames:feature") "mountains") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "A mountain is generally steeper than a hill, but there is no universally accepted standard definition for the height of a mountain or a hill although a mountain usually has an identifiable summit. The USGS had previously defined mountains as localised elevations of more than 300 meters; however, the organisation has accepted there are no technical definitions in the US. In ENVO, we primarily use the UNEP-WCMC classification to be compliant with SDG monitoring, but we can host other classifications on request: http://www.fao.org/sustainable-development-goals/indicators/1542/en/") AnnotationAssertion(rdfs:label "mountain") SubClassOf( ) @@ -6356,7 +6356,7 @@ AnnotationAssertion(Annotation( "USGS:SDTS") "saddle") AnnotationAssertion(Annotation( "ADL:FTT") "saddle (physiographic)") AnnotationAssertion(Annotation( "ADL:FTT") "sill (physiographic)") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mountain pass") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -6368,7 +6368,7 @@ AnnotationAssertion(Annotation( "We need to added classes such as \"valley site\" in order to fully axiomatize this class") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "alpine glacier") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -6424,7 +6424,7 @@ AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_cliff") AnnotationAssertion( "coastal cliff") AnnotationAssertion(Annotation( "USGS:SDTS") "marine cliff") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea cliff") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -6556,7 +6556,7 @@ AnnotationAssertion( "TGN:21201") AnnotationAssertion( "https://en.wikipedia.org/wiki/Desert") AnnotationAssertion(Annotation( "ADL:FTT") "arid region") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "desert area") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -6585,7 +6585,7 @@ AnnotationAssertion(Annotation( "ADL:FTT") "islet") AnnotationAssertion(Annotation( "Getty:TGN") "islet") AnnotationAssertion(Annotation( "USGS:SDTS") "islet") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "island") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -6992,7 +6992,7 @@ AnnotationAssertion( "TGN:21611") AnnotationAssertion(Annotation( "ADL:FTT") Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Tundra") "Arctic land") AnnotationAssertion(Annotation( "NASA:earthrealm") "TundraEcosystem") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "area of tundra") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -7281,7 +7281,7 @@ AnnotationAssertion(Annotation( "NASA:earthrealm") "LandIce") AnnotationAssertion(Annotation( "Getty:TGN") "glacial landform") AnnotationAssertion(Annotation( "ADL:FTT") "glacier feature") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Ambiguities in notion of feature and overly general equivalence axiom was making incorrect assertions. For example popsicle would reason under this class.") AnnotationAssertion(rdfs:comment "Likely to be depopulated and \"glacial\" made into a quality or similar.") AnnotationAssertion(rdfs:label "obsolete glacial feature") @@ -7296,7 +7296,7 @@ AnnotationAssertion( "SWEETRealm:IceSheet") AnnotationAssertion( "TGN:21147") AnnotationAssertion( "https://en.wikipedia.org/wiki/Ice_sheet") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://github.com/Vocamp/Virtual-Hackahon-on-Glacier-topic") rdfs:comment "This is not always classified as a glacier in the cryosphere community.") AnnotationAssertion(rdfs:label "ice sheet") SubClassOf( ) @@ -7316,7 +7316,7 @@ AnnotationAssertion( "http://sweetontology.net/realmCryo/Glacier") AnnotationAssertion(Annotation( "NASA:earthrealm") "RockGlacier") AnnotationAssertion(Annotation( "USGS:SDTS") "rock glacier") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "The definition of glacier is highly variable. Two main issues exist: 1) Whether or not a mass of ice must currently show movement to be considered a glacier or not and 2) What is the relationship between ice sheets and glaciers (i.e., which is the parent in a parent/child relationship or whether they are distinct terms).") AnnotationAssertion(rdfs:label "glacier") SubClassOf( ) @@ -7331,7 +7331,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "LTER:408") AnnotationAssertion( "https://en.wikipedia.org/wiki/Permafrost") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Ice is not always present, as may be in the case of nonporous bedrock, but it frequently occurs and it may be in amounts exceeding the potential hydraulic saturation of the ground material.") AnnotationAssertion(rdfs:label "permafrost") SubClassOf( ) @@ -7371,7 +7371,7 @@ AnnotationAssertion( "ENVO") AnnotationAssertion( "coastal inlet") AnnotationAssertion( "ENVO:00000137") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "coastal inlet") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) SubClassOf( ) @@ -7478,7 +7478,7 @@ AnnotationAssertion( "Geonames:feature") "icecap") AnnotationAssertion(Annotation( "Getty:TGN") "icecap") AnnotationAssertion(Annotation( "USGS:SDTS") "ice field") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice cap") SubClassOf( ) @@ -7495,7 +7495,7 @@ AnnotationAssertion( "NASA:earthrealm") "SnowField") AnnotationAssertion(Annotation( "Geonames:feature") "snowfield") AnnotationAssertion( "ENVO:00000146") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snow field") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -7629,7 +7629,7 @@ AnnotationAssertion( "coombe") AnnotationAssertion( "corrie") AnnotationAssertion(Annotation( "ADL:FTT") "cwm") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cirque") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -7971,7 +7971,7 @@ AnnotationAssertion( "Getty:TGN") "land bridge") AnnotationAssertion(Annotation( "USGS:SDTS") "neck") AnnotationAssertion(Annotation( "USGS:SDTS") "submarine isthmus") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "isthmus") SubClassOf( ) @@ -8015,7 +8015,7 @@ AnnotationAssertion( "TGN:21414") AnnotationAssertion( "https://en.wikipedia.org/wiki/Moraine") AnnotationAssertion(Annotation( "USGS:SDTS") "glacial moraine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "moraine") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -8100,7 +8100,7 @@ AnnotationAssertion(Annotation( "Geonames:feature") "nunataks") AnnotationAssertion(Annotation( "USGS:SDTS") "peak") AnnotationAssertion( "ENVO:00000181") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"peak\" in the definition is understood as a synonym of mount, rather than of summit. Nunataks may also refer to areas of ridges. The definition and placement of this class may need to be revised.") AnnotationAssertion(rdfs:label "nunatak") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -8164,7 +8164,7 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Hanging_valley") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000184") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hanging valley") SubClassOf( ) @@ -8192,7 +8192,7 @@ SubClassOf( ObjectMinCardinality(3 # Class: (tundra mire) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Peatland#Types_of_peatland") "Peatlands with a shallow peat layer, only about 500 mm thick, dominated by sedges and grasses. They form in permafrost areas, covering around 110,000 to 160,000 km2 in Alaska, Canada, and the former USSR.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tundra mire") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -8346,7 +8346,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Lake#Types_of_lakes") "A lake permanently covered by ice.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Subglacial_lake") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice-covered lake") SubClassOf( ) @@ -8365,7 +8365,7 @@ AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Periglacial_lake") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000200") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "periglacial lake") SubClassOf( ) @@ -8375,7 +8375,7 @@ AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Fjord_lake") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000201") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fjord lake") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -8421,8 +8421,8 @@ AnnotationAssertion(Annotation( "EcoLexicon:neritic_zone") AnnotationAssertion( "SWEETRealm:NeriticZone") AnnotationAssertion( "https://en.wikipedia.org/wiki/Neritic_zone") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine neritic zone") SubClassOf( ) DisjointClasses( ) @@ -8432,8 +8432,8 @@ DisjointClasses( "https://en.wikipedia.org/wiki/Ocean") "The water mass of an ocean that is not above a continental shelf.") AnnotationAssertion( "EcoLexicon:oceanic_zone") AnnotationAssertion(Annotation( "NASA:earthrealm") "OceanLayer") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "oceanic zone") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -8445,8 +8445,8 @@ AnnotationAssertion( "SPIRE:Pelagic") AnnotationAssertion( "SWEETRealm:PelagicZone") AnnotationAssertion( "https://en.wikipedia.org/wiki/Pelagic_zone") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine pelagic zone") SubClassOf( ) @@ -8459,8 +8459,8 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Photic_zone") AnnotationAssertion(Annotation( "NASA:earthrealm") "PhoticZone") AnnotationAssertion( "epipelagic zone") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine photic zone") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -8472,8 +8472,8 @@ AnnotationAssertion( "SWEETRealm:AphoticZone") AnnotationAssertion( "https://en.wikipedia.org/wiki/Aphotic_zone") AnnotationAssertion(Annotation( "NASA:earthrealm") "AphoticZone") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine aphotic zone") SubClassOf( ) @@ -8483,14 +8483,14 @@ AnnotationAssertion(Annotation( "EcoLexicon:bathypelagic_zone") AnnotationAssertion( "SWEETRealm:BathypelagicZone") AnnotationAssertion( "https://en.wikipedia.org/wiki/Bathypelagic_zone") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine bathypelagic zone") SubClassOf( ) # Class: (marine abyssalpelagic zone) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ocean") "The zone of the ocean below the bathypelagic zone, with its lowest boundary at about 6000m.") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine abyssalpelagic zone") SubClassOf( ) @@ -8501,14 +8501,14 @@ AnnotationAssertion( "SPIRE:Mesopelagic_zone") AnnotationAssertion( "SWEETRealm:MesopelagicZone") AnnotationAssertion( "https://en.wikipedia.org/wiki/Mesopelagic_zone") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine mesopelagic zone") SubClassOf( ) # Class: (hadalpelagic zone) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ocean") "The zone of an ocean in oceanic trenches, lying between 6000m and 10,000m.") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hadalpelagic zone") SubClassOf( ) @@ -8571,7 +8571,7 @@ AnnotationAssertion(Annotation( "FTT:221") AnnotationAssertion( "FTT:871") AnnotationAssertion(Annotation( "USGS:SDTS") "inland sea") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "envoPolar") AnnotationAssertion(rdfs:label "landlocked sea") SubClassOf( ) @@ -8636,7 +8636,7 @@ AnnotationAssertion(Annotation( "ADL:FTT") "borderland (continental margin)") AnnotationAssertion(Annotation( "ADL:FTT") "platform (continental margin)") AnnotationAssertion(Annotation( "ADL:FTT") "shelf edge (ocean)") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The continental shelf is a gentle slope. This class refers to the geographical continental shelf and not the legal concept of the same name.") AnnotationAssertion(rdfs:label "continental shelf") SubClassOf( ) @@ -8884,7 +8884,7 @@ AnnotationAssertion( "ENVO") AnnotationAssertion(Annotation( "USGS:SDTS") "valley") AnnotationAssertion( "ENVO:00000248") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial valley") SubClassOf( ) @@ -8894,7 +8894,7 @@ AnnotationAssertion(Annotation( "USGS:SDTS") "moraine") AnnotationAssertion( "EcoLexicon:lateral_moraine") AnnotationAssertion( "https://en.wikipedia.org/wiki/Lateral_moraine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lateral moraine") SubClassOf( ) @@ -8902,7 +8902,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Moraine") "A moriane formed when the inside lateral moraines of two glaciers merge together. They form a ridge down the center of the combined glaciers.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Medial_moraine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "medial moraine") SubClassOf( ) @@ -8911,7 +8911,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Moraine") "A till covered area with irregular topography and no ridges, often forming gently rolling hills or plains. Forms by the accumulation of till under the ice by lodgement, but may also be deposited as the glacier retreats.") AnnotationAssertion( "EcoLexicon:ground_moraine") AnnotationAssertion( "https://en.wikipedia.org/wiki/Ground_moraine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ground moraine") SubClassOf( ) @@ -8923,7 +8923,7 @@ AnnotationAssertion( "USGS:SDTS") "end moraine") AnnotationAssertion(Annotation( "USGS:SDTS") "delta moraine") AnnotationAssertion(Annotation( "USGS:SDTS") "moraine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "terminal moraine") SubClassOf( ) @@ -9238,7 +9238,7 @@ AnnotationAssertion(Annotation( "EcoLexicon:continental_slope") AnnotationAssertion( "FTT:536") AnnotationAssertion( "https://en.wikipedia.org/wiki/Continental_slope") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "continental slope") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -9608,7 +9608,7 @@ AnnotationAssertion(Annotation( "USGS:SDTS") "glacial berg") AnnotationAssertion(Annotation( "USGS:SDTS") "glacial iceberg") AnnotationAssertion(Annotation( "ISBN:978-0-07-045258-9") Annotation( "http://www.eionet.europa.eu/gemet/concept/4132") "iceberg") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine iceberg") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -9636,7 +9636,7 @@ AnnotationAssertion(Annotation( "ADL:FTT") "ice field") AnnotationAssertion(Annotation( "ADL:FTT") "ice sheet") AnnotationAssertion(Annotation( "ADL:FTT") "icecap") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Ice mass may need to be resolved from ice field, the former referring simply to an accumulation of ice.") AnnotationAssertion(rdfs:label "ice field") SubClassOf( ) @@ -9808,7 +9808,7 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Icefall") AnnotationAssertion( "ice fall") AnnotationAssertion( "ice-fall") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Icefalls may be formed as glaciers flow through narrow openings in landmasses.") AnnotationAssertion(rdfs:label "icefall") SubClassOf( ) @@ -10196,7 +10196,7 @@ AnnotationAssertion( "TGN:21144") AnnotationAssertion(Annotation( "Geonames:feature") "icecap dome") AnnotationAssertion(Annotation( "ADL:FTT") "icecap dome") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice cap dome") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -10431,7 +10431,7 @@ AnnotationAssertion( "marine brine pool") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000369") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "brine pool") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -10519,7 +10519,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Ice_shelf") Annotation( "https://orcid.org/0000-0003-4808-4736") "An ice mass which 1) is attached to the coast 2) at least 2 meters in thickness 3) forms where a glacier or ice mass flows down to a coastline and onto the ocean surface and 4) grows by annual snow accumulation or by the seaward extension of land glaciers.") AnnotationAssertion( "SWEETRealm:IceShelf") AnnotationAssertion( "http://sweetontology.net/realmCryo/IceShelf") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "An ice shelf may grow hundreds of miles out to sea. Usually of great horizontal extent and with a level or gently undulating surface. Nourished by annual snow accumulation and also by the seaward extension of land glaciers. Limited areas may be aground. Ice shelves are much thicker than sea ice often filling embayments in the coastline of an ice sheet.. Currently, nearly all ice shelves are in Antarctica, where most of the ice discharged into the ocean flows via ice shelves. The mass balance of an ice shelf may have significant components of both gain and loss at the base. The seaward edge is termed an ice front. The calving of an ice shelf forms tabular icebergs and ice islands.") AnnotationAssertion(rdfs:label "ice shelf") SubClassOf( ) @@ -10663,7 +10663,7 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Ice_tongue") AnnotationAssertion( "glacier tongue") AnnotationAssertion(Annotation( "USGS:SDTS") "glacial tongue") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice tongue") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -10680,7 +10680,7 @@ AnnotationAssertion( "Geonames:H.SD") AnnotationAssertion( "SWEETRealm:Sound") AnnotationAssertion( "TGN:21129") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sound") SubClassOf( ) @@ -10736,7 +10736,7 @@ AnnotationAssertion( "FTT:465") AnnotationAssertion( "Geonames:H.CHNM") AnnotationAssertion( "TGN:21186") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine channel") SubClassOf( ) @@ -10747,7 +10747,7 @@ AnnotationAssertion( "FTT:464") AnnotationAssertion( "Geonames:H.CHNL") AnnotationAssertion( "TGN:21185") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lake channel") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -10927,7 +10927,7 @@ AnnotationAssertion(Annotation( ) "pingos") AnnotationAssertion( "bugor") AnnotationAssertion( "bulginniakh") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Pingos may occur in cold-climate wetland areas, but are not necessarily wetlands themselves.") AnnotationAssertion(rdfs:label "pingo") SubClassOf( ) @@ -11113,8 +11113,8 @@ AnnotationAssertion( "FTT:154") AnnotationAssertion(Annotation( "ADL:FTT") "ridge") AnnotationAssertion(Annotation( "USGS:SDTS") "ridge") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) Annotation( ) rdfs:comment "The ridge frequently resembles the blade of a serrated knife. A French term referring to the bones in a fish backbone. Aretes are typically formed when two glaciers erode parallel U-shaped valleys. Aretes can also form when two glacial cirques erode towards one another, although frequently this results in a saddle-shaped pass, called a col."@en) AnnotationAssertion(rdfs:label "arete") SubClassOf( ) @@ -11127,7 +11127,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Dirt_cone") "A feature of a glacier, in which dirt, which has fallen into a hollow in the ice, forms a coating which insulates the ice below. The surrounding ice melts away, leaving the dirt cone.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Dirt_cone") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "dirt cone") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -11178,7 +11178,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Proglacial_lake") "A lake formed either by the damming action of a moraine or ice dam during the retreat of a melting glacier, or one formed by meltwater trapped against an ice mass due to isostatic depression of the crust around the ice.") AnnotationAssertion(Annotation( "USGS:SDTS") "lake") AnnotationAssertion( "https://en.wikipedia.org/wiki/Proglacial_lake") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "proglacial lake") SubClassOf( ) @@ -11190,7 +11190,7 @@ AnnotationAssertion( "rinnental") AnnotationAssertion( "tunnel-vale") AnnotationAssertion( "ENVO:00000436") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tunnel valley") SubClassOf( ) @@ -11315,7 +11315,7 @@ SubClassOf( ) Annotation( "ISBN:978-0-618-45504-1") Annotation( "MA:ma") Annotation( "https://en.wikipedia.org/wiki/Ocean") "An aquatic biome which is determined by a marine water body.") AnnotationAssertion( "SPIRE:Marine") AnnotationAssertion( "marine realm") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This biome includes open-ocean and unprotected coastal ecosystems, characterized by exposure to wave action, tidal fluctuation, and ocean currents as well as systems that largely resemble these. Water in the marine biome is generally within the salinity range of seawater: 30 to 38 ppt.") AnnotationAssertion(rdfs:label "marine biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -11386,14 +11386,14 @@ AnnotationAssertion( "corrie loch") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000455") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tarn") SubClassOf( ) # Class: (tidewater glacier) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Tidewater_glacier#Types_of_glaciers") Annotation( "https://orcid.org/0000-0003-4808-4736") "A glacier which terminates in a lake or the sea, with terminus either floating or grounded") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "The adjective indicates geographical setting, and not that tides play a role in the mass balance. Typically, tidewater glaciers calve ice to produce icebergs. There are currently issues in the community about the definition of this glacier type: It is undecided whether or not a) a tidewater glacier has to have a grounded terminus and b) whether glaciers terminating in a lake can be considered to be tidewater glaciers.") AnnotationAssertion(rdfs:label "tidewater glacier") SubClassOf( ) @@ -11402,7 +11402,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (plateau glacier) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Tidewater_glacier#Types_of_glaciers") "A glacier on a plateau or high area, smaller than an ice sheet.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plateau glacier") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -11421,7 +11421,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Tidewater_glacier#Types_of_glaciers") "A glacier fed by an ice sheet.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Outlet_glacier") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "outlet glacier") SubClassOf( ) @@ -11454,7 +11454,7 @@ AnnotationAssertion(Annotation( "SWEETRealm:Harbor") AnnotationAssertion( "https://en.wikipedia.org/wiki/Harbor") AnnotationAssertion( "harbor"@en) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Harbours are often used to store or shelter ships."@en) AnnotationAssertion(rdfs:label "harbour") SubClassOf( ) @@ -11464,7 +11464,7 @@ SubClassOf( "MA:ma") "A harbor constructed by human agency.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Artificial_harbour") AnnotationAssertion( "artificial harbour") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "artificial harbor") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -11474,7 +11474,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Harbor") "A harbor which is formed by a natural landform where a part of a body of water is protected and deep enough to furnish anchorage.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Natural_harbor") AnnotationAssertion( "natural harbour") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "natural harbor") SubClassOf( ) @@ -11576,7 +11576,7 @@ AnnotationAssertion(Annotation( "USGS:SDTS") "arm") AnnotationAssertion(Annotation( "USGS:SDTS") "firth") AnnotationAssertion(Annotation( "USGS:SDTS") "ria") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "inlet") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -11587,7 +11587,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "USGS:SDTS") "An opening of a lake into its shore.") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000476") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lake inlet") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -11616,7 +11616,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A field which includes at least two mounts connected by high ground and arranged in an approximately linear fashion."@en) AnnotationAssertion( "FTT:996") AnnotationAssertion(Annotation( "ADL:FTT") "range (physiographic)") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "range of mounts") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -11701,7 +11701,7 @@ AnnotationAssertion(Annotation(rdfs:comment "Seas are smaller than oceans and ar AnnotationAssertion( "sea bed") AnnotationAssertion( "海床"@zh) AnnotationAssertion( "海底"@zh) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea floor") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -11741,8 +11741,8 @@ AnnotationAssertion(Annotation( "USGS:SDTS") "glade") AnnotationAssertion(Annotation( "USGS:SDTS") "ice clearing") AnnotationAssertion(Annotation( "USGS:SDTS") "regional clearing") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "A polynya is a Russian term for any non-linear shaped area of open water within the ice pack. Polynyas may contain brash ice and/or be covered with new ice, nilas or young ice; submariners refer to these as skylights. Sometimes the polynya is limited on one side by the coast and is called a shore polynya or by fast ice and is called a flaw polynya. If it recurs in the same position every year, e.g. off the mouths of big rivers, it is called a recurring polynya. A temporary small clearing in pack ice which consists of small floes and brash in continuous local movement is called an unstable polynya; an opening which is flanked by large floes and therefore appears to be relatively stable is called a stable polynya. @@ -11787,7 +11787,7 @@ AnnotationAssertion( "海岸線"@zh) AnnotationAssertion(Annotation( "Geonames:feature") "SHOR") AnnotationAssertion(Annotation( "The distinction between shoreline and coastline needs more thought."@en) Annotation( "USGS:SDTS") "coastline") -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "1) this term is usually used for larger water bodies like lakes and oceans, 2) that the actual spatial extent of a shoreline, and the sharpness of its boundaries, is often arbitrarily or operationally defined, and 3) this term is for the physical shoreline, not the one- or two-dimensional representation of shorelines."@en) AnnotationAssertion(rdfs:label "shoreline") SubClassOf( ) @@ -11798,7 +11798,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Paternoster_lake") "One of a series of glacial lakes connected by a single stream or a braided stream system.") AnnotationAssertion(Annotation( "USGS:SDTS") "lake") AnnotationAssertion( "https://en.wikipedia.org/wiki/Paternoster_lake") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "paternoster lake") SubClassOf( ) @@ -11808,7 +11808,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "https://en.wikipedia.org/wiki/Glacial_lake") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial lake") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -12300,7 +12300,7 @@ AnnotationAssertion( "Geonames:feature") "icecap reach") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00000528") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice cap ridge") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -12342,7 +12342,7 @@ AnnotationAssertion( "TGN:21145") AnnotationAssertion(Annotation( "ADL:FTT") "icecap depression") AnnotationAssertion(Annotation( "Geonames:feature") "icecap depression") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice cap depression") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -12374,7 +12374,7 @@ AnnotationAssertion( "vertedero"@es) AnnotationAssertion( "垃圾掩埋場"@zh) AnnotationAssertion(Annotation( "ADL:FTT") "disposal site") -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "landfill") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -12797,7 +12797,7 @@ SubClassOf( ) Annotation( "MA:ma") "An aquatic biome which is determined by a body of freshwater.") AnnotationAssertion( "SPIRE:Freshwater") AnnotationAssertion( "freshwater realm") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "freshwater biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -12925,7 +12925,7 @@ AnnotationAssertion(owl:deprecated (large river biome) AnnotationAssertion( "A freshwater river biome which is determined by a large river."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Large\" is ambiguous. For details on \"Large rivers\" (e.g. the Mekong river) see http://worldwildlife.org/biomes/large-river-ecosystems This class will be replaced with a less ambiguous class.") AnnotationAssertion(rdfs:label "large river biome") SubClassOf( ) @@ -12933,7 +12933,7 @@ SubClassOf( (large river headwater biome) AnnotationAssertion( "A freshwater river biome which is determined by the headwaters of a large river."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Large\" is ambiguous. For details on \"Large river headwaters\" (e.g. the Upper Amazon headwaters) see http://worldwildlife.org/biomes/large-river-headwater-ecosystems This class will be replaced with a less ambiguous class.") AnnotationAssertion(rdfs:label "large river headwater biome") SubClassOf( ) @@ -12943,7 +12943,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (large river delta biome) AnnotationAssertion( "A freshwater river biome which is determined by the delta of a large river."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Large\" is ambiguous. For details on \"Large river deltas\" (e.g. the Niger river delta) see http://worldwildlife.org/biomes/large-river-delta-ecosystems This class will be replaced with a less ambiguous class.") AnnotationAssertion(rdfs:label "large river delta biome") SubClassOf( ) @@ -12953,7 +12953,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (small river biome) AnnotationAssertion( "A freshwater river biome which is determined by a small river."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Small\" is ambiguous. For details on \"Small rivers\" (e.g. the Salween river) see http://worldwildlife.org/biomes/small-river-ecosystems. This class will be replaced with a less ambiguous class.") AnnotationAssertion(rdfs:label "small river biome") SubClassOf( ) @@ -12961,7 +12961,7 @@ SubClassOf( (large freshwater lake biome) AnnotationAssertion( "A freshwater biome which is determined by a large lake."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Large\" is ambiguous. For details on \"Large lakes\" (e.g. African rift lakes) see http://worldwildlife.org/biomes/large-lake-ecosystems This class will be replaced with a less ambiguous class.") AnnotationAssertion(rdfs:label "large freshwater lake biome") SubClassOf( ) @@ -12969,7 +12969,7 @@ SubClassOf( (small freshwater lake biome) AnnotationAssertion( "A freshwater lake biome which is determined by a small lake."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Small\" is ambiguous. For details on \"Small lakes\" (e.g. Cameroon crater lakes) see http://worldwildlife.org/biomes/small-lake-ecosystems. This class will be replaced with a less ambiguous class.") AnnotationAssertion(rdfs:label "small freshwater lake biome") SubClassOf( ) @@ -12978,7 +12978,7 @@ SubClassOf( "https://www.worldwildlife.org/biomes/xeric-basin-ecosystems") "A biome which has little permanent surface water and a low relative abundance of springs.") AnnotationAssertion( "The WWF definition is somewhat ambiguous, but workable.") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "xeric basin biome") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -13172,7 +13172,7 @@ AnnotationAssertion( "SWEETRealm:Air") AnnotationAssertion( "https://en.wikipedia.org/wiki/Air") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "air") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -13204,7 +13204,7 @@ AnnotationAssertion( "SWEETRealm:Sediment") AnnotationAssertion( "https://en.wikipedia.org/wiki/Sediment") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Sediment is typically deposited on the bed or bottom of a body of water or other liquid."@en) AnnotationAssertion(rdfs:label "sediment") SubClassOf( ) @@ -13218,7 +13218,7 @@ AnnotationAssertion( "EcoLexicon:dust") AnnotationAssertion( "SWEETRealm:Dust") AnnotationAssertion( "https://en.wikipedia.org/wiki/Dust") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Dust occurs in and may be deposited from the atmosphere."@en) AnnotationAssertion(rdfs:label "dust") SubClassOf( ) @@ -13257,8 +13257,8 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Fresh_water") AnnotationAssertion( "freshwater") AnnotationAssertion( "sweet water") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The lower bound of solute concentration required for water to be considered freshwater is variable, but is always less than that of seawater, and often cited as less than 1 gram of solutes per 1 litre of water.") AnnotationAssertion(rdfs:label "fresh water") SubClassOf( ) @@ -13267,7 +13267,7 @@ SubClassOf( "Water which contains a highly increased concentration of dissolved salts, surpassing the average salinity of seawater.") AnnotationAssertion( "We make no commitment to a particular threshold; this should be described on the data/information layer according to the norms of a discipline, accepted standard, or similar reference.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The average salinity of sea water is assumed to be around 35,000 ppm, equivalent to 35 grams of salt per one liter (or kilogram) of water.") AnnotationAssertion(rdfs:label "hypersaline water") SubClassOf( ) @@ -13347,7 +13347,7 @@ AnnotationAssertion( "SPIRE:Brackish_water") AnnotationAssertion( "SWEETRealm:BrackishWater") AnnotationAssertion( "https://en.wikipedia.org/wiki/Brackish_water") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "brackish water") SubClassOf( ) @@ -13593,7 +13593,7 @@ AnnotationAssertion(Annotation( "anoxic sediment") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00002045") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "anaerobic sediment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -13776,7 +13776,7 @@ AnnotationAssertion( "ENVO") AnnotationAssertion( "pelagic sediment {alternative name}") AnnotationAssertion( "ENVO:00002113") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "deep marine sediment") SubClassOf( ) @@ -14082,7 +14082,7 @@ AnnotationAssertion( "coastal ocean water") AnnotationAssertion( "coastal oceanic water") AnnotationAssertion( "coastal seawater") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The limits of what qualifies as \"adjacent to\" vary greatly. This should be defined on a data level and is left intentionally fuzzy here. The label is \"coastal sea water\" rather than \"coastal water\" as some large lakes are often said to have coasts.") AnnotationAssertion(rdfs:label "coastal sea water") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -14486,7 +14486,7 @@ AnnotationAssertion( "Parse comment from GCW and new subclases where appropriate.") AnnotationAssertion( "http://sweetontology.net/realmCryo/SeaIce") AnnotationAssertion( "https://en.wikipedia.org/wiki/Sea_ice") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation(rdfs:comment "https://orcid.org/0000-0003-4808-4736") rdfs:comment "In the United States, NOAA sea ice operations does not include superstructure icing as being sea ice. In sea ice operations however, sea ice is any form of ice found at sea which has originated from the freezing of sea water. It presents the main kind of floating ice encountered at sea. Except where it forms ridges, sea ice is up to a few metres thick, in which respect it differs from shelf ice. Sea ice may be discontinuous pieces (ice floes) moved on the ocean surface by wind and currents (pack ice), or a motionless sheet attached to the coast (land-fast ice). In brief, it forms first as lolly ice (frazil crystals), thickens into sludge, and coagulates into sheet ice, pancake ice, or into floes of various shapes and sizes. Thereafter, sea ice may develop into pack ice and/or become a form of pressure ice. Sea ice less than one year old is called first-year ice. Perennial ice is sea ice that survives at least one summer. It may be subdivided into second-year ice and multi-year ice, where multiyear ice has survived at least two summers.") AnnotationAssertion(rdfs:label "sea ice") SubClassOf( ) @@ -14776,7 +14776,7 @@ SubClassOf( "FAO:http://fao.org/ag/agl/agll/wrb/doc/wrb2006final.pdf") "Cryosols comprise mineral soils formed in a permafrost environment. Where water is present, it occurs primarily in the form of ice. Cryogenic processes are the dominant soil-forming processes.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Cryosol") AnnotationAssertion( "gelisol") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cryosol") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -15062,7 +15062,7 @@ SubClassOf( "MA:ma") "A cline across which the chemical composition of a fluid changes rapidly.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Chemocline") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This cline is typically horizontal, with qualities varying with depth.") AnnotationAssertion(rdfs:label "chemocline") SubClassOf( ) @@ -15144,7 +15144,7 @@ AnnotationAssertion(owl:deprecated "https://en.wikipedia.org/wiki/Ocean_basin") "A structural basin that is below sea level.") AnnotationAssertion( "EcoLexicon:ocean_basin") AnnotationAssertion( "https://en.wikipedia.org/wiki/Ocean_basin") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is defined in its geological sense: https://en.wikipedia.org/wiki/ Hydrologically, an oceanic basin may be anywhere on Earth that is covered by seawater, but geologically ocean basins are large geologic basins that are below sea level. Geologically, there are other undersea geomorphological features such as the continental shelves, the deep ocean trenches, and the undersea mountain ranges (for example, the mid-Atlantic ridge) which are not considered to be part of the ocean basins; while hydrologically, oceanic basins include the flanking continental shelves and shallow, epeiric seas.") AnnotationAssertion(rdfs:label "ocean basin") @@ -15737,7 +15737,7 @@ AnnotationAssertion(Annotation( "EcoLexicon:brine") AnnotationAssertion( "SWEETRealm:Brine") AnnotationAssertion( "https://en.wikipedia.org/wiki/Brine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "It is used (now less popular than historically) to preserve vegetables, fish, and meat.") AnnotationAssertion(rdfs:label "brine") SubClassOf( ) @@ -16851,7 +16851,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (alpine soil) AnnotationAssertion( "Soil which is part of an alpine environment."@en) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "alpine soil") SubClassOf( ) SubClassOf( ObjectIntersectionOf(ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) @@ -16859,7 +16859,7 @@ SubClassOf( ObjectIntersectionOf(O # Class: (arable soil) AnnotationAssertion(Annotation( ) "Soil which is capable of supporting the growth of crops."@en) -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "arable soil") SubClassOf( ) @@ -17227,7 +17227,7 @@ SubClassOf( "Water which has physicochemical properties determined by processes which occur beneath the planetary crust.") AnnotationAssertion( "SWEETRealm:UndergroundWater") AnnotationAssertion( "subterranean water") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class references any water that's under a planetary surface. For water that is in an aquifer, see \"groundwater\" (ENVO:01001004). Previously, this class included both.") AnnotationAssertion(rdfs:label "underground water") SubClassOf( ) @@ -17250,7 +17250,7 @@ SubClassOf( (marine mud) AnnotationAssertion( "Mud which is part of a marine ecosystem.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine mud") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -17401,7 +17401,7 @@ AnnotationAssertion(owl:deprecated "http://www.antarctica.ac.uk/apc/genericterms.html") Annotation( "https://en.wikipedia.org/wiki/Ice_rise") "An ice rise is an elevation which is part of an ice shelf, typically dome shared, and formed by the ice shelf overriding an obstruction in the seabed. An ice rise may be adjacent only to an ice shelf, or to an ice shelf and a sea. For some features, properly ice rises, the term island has become established through usage.") AnnotationAssertion( "https://en.wikipedia.org/wiki/Ice_rise") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice rise") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -17410,7 +17410,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (ice piedmont) AnnotationAssertion(Annotation( "http://www.antarctica.ac.uk/apc/genericterms.html") "A glacier covering a coastal strip of low-lying land backed by mountains, and sloping gently seaward over a distance up to 30km or more to terminate in ice cliffs or to merge with an ice shelf.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice piedmont") SubClassOf( ) @@ -17419,7 +17419,7 @@ SubClassOf( "http://www.antarctica.ac.uk/apc/genericterms.html") "Fissure at the junction between an inland ice sheet, ice piedmont or ice rise and an ice shelf, the latter being subject to the rise and fall of the tide.") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:00009726") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "strand crack") SubClassOf( ) @@ -17473,7 +17473,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Aerosol") "Airborne solid particles (also called dust or particulate matter (PM)) or liquid droplets.") AnnotationAssertion( "EcoLexicon:aerosol") AnnotationAssertion( "SWEETRealm:Aerosol") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Should connect to PATO as \"quality of an aerosol\"") AnnotationAssertion(rdfs:label "aerosol") SubClassOf( ) @@ -17544,7 +17544,7 @@ AnnotationAssertion(Annotation( "EcoLexicon:aquifer") AnnotationAssertion( "SWEETRealm:Aquifer") AnnotationAssertion( "https://en.wikipedia.org/wiki/Aquifer") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aquifer") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19022,7 +19022,7 @@ SubClassOf( "An organic object which is formed as a result of the biological processes mediated by microbial assemblages.") AnnotationAssertion( "microbial feature") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "A very generic class, intended to be populated by inference. Please avoid use in annotation, opting for a more descriptive term.") AnnotationAssertion(rdfs:label "organic object formed through microbial activity") SubClassOf( ) @@ -19188,7 +19188,7 @@ AnnotationAssertion( "2010-03-15T11:17:06Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000023") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine pelagic biome") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19199,7 +19199,7 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-15T11:17:06Z") AnnotationAssertion( "SPIRE:Benthic") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine benthic biome") SubClassOf( ) @@ -19208,7 +19208,7 @@ SubClassOf( "ISBN:978-0-444-82619-0") Annotation( "ISBN:978-0-7506-3384-0") Annotation( "ORCID:0000-0002-4366-3088") "The marine neritic zone biome comprises sea floor from the high tide mark to a continental shelf break. This zone generally extends to 200 m below average sea level.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-15T11:18:40Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine neritic benthic zone biome") SubClassOf( ) @@ -19392,7 +19392,7 @@ AnnotationAssertion( ) AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:10:50Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Ambiguous term - please select a more precise term to describe what the feature of interest is.") AnnotationAssertion(rdfs:label "obsolete marine pelagic feature") AnnotationAssertion(owl:deprecated "true"^^xsd:boolean) @@ -19428,7 +19428,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") Annotation( "https://en.wikipedia.org/wiki/Ocean") "A marine biome which is determined by an ocean.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-15T11:23:23Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Ocean biomes are determined by major bodies of saline water, principal components of the hydrosphere. Approximately 71% of the Earth's surface is covered by ocean, a continuous body of water that is customarily divided into several principal oceans and smaller seas. More than half of this area is over 3,000 metres (9,800 ft) deep. Average oceanic salinity is around 35 parts per thousand (ppt) (3.5%), and nearly all seawater has a salinity in the range of 30 to 38 ppt.") AnnotationAssertion(rdfs:label "ocean biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -19524,7 +19524,7 @@ AnnotationAssertion( "https://en.wikipedia.org/wiki/Red_tide") "red tide") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000057") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine algal bloom") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -19558,8 +19558,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An environmental material which is composed primarily of particles."@en) AnnotationAssertion( "Do not oversimplify this branch with design patterns or similar. The materials have properties that their components do not - write full definitions including these where possible."@en) AnnotationAssertion( "particulate matter"@en) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "particulate environmental material"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19571,8 +19571,8 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") AnnotationAssertion( "epipelagic mixed layer") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine wind mixed layer") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19591,7 +19591,7 @@ AnnotationAssertion( "See Issue #251. Awaiting class creation in PCO to attempt logical definitions.") AnnotationAssertion( "mass of plankton") AnnotationAssertion( "plankton") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "planktonic material"@en) SubClassOf( ) @@ -19614,7 +19614,7 @@ AnnotationAssertion( "2010-03-16T12:16:11Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000065") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Low oxygen rates are typically due to the rate of respiration being greater than the rate of oxygen resupply, and are not necessarily due to anthropogenic activity.") AnnotationAssertion(rdfs:label "marine oxygen minimum zone") SubClassOf( ) @@ -19628,7 +19628,7 @@ AnnotationAssertion( "2010-03-16T12:16:11Z") AnnotationAssertion( "SWEETRealm:DeadZone") AnnotationAssertion( "dead zone") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine anoxic zone") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19639,7 +19639,7 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") AnnotationAssertion( "EcoLexicon:marine_current") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine current") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19717,7 +19717,7 @@ SubClassOf( "ISBN:978-0-444-82619-0") Annotation( "ORCID:0000-0002-4366-3088") "A thermocline which is part of a marine water body.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Marine thermoclines are usually associated with rapid changes in water density and salinity.") AnnotationAssertion(rdfs:label "marine thermocline") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -19730,7 +19730,7 @@ AnnotationAssertion( "2010-03-16T12:16:11Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000076") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine chemocline") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -19740,7 +19740,7 @@ SubClassOf( "ORCID:0000-0002-4366-3088") Annotation( "https://en.wikipedia.org/wiki/Mixed_layer") "A pycnocline which is part of a marine water body and composed primarily of sea water.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Marine pycnoclines are usually associated with rapid changes in water temperature and salinity.") AnnotationAssertion(rdfs:label "marine pycnocline") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -19752,7 +19752,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") Annotation( "https://en.wikipedia.org/wiki/Mixed_layer") "A nutricline which is part of a marine water body.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine nutricline") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19762,7 +19762,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") Annotation( "https://en.wikipedia.org/wiki/Lysocline") "The marine lysocline denotes the depth in the ocean below which the rate of dissolution of calcite increases dramatically. As water column depth and therefore pressure increases, the corresponding calcite saturation of seawater decreases and the calcite begins dissolve.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine lysocline") SubClassOf( ) @@ -19771,7 +19771,7 @@ SubClassOf( "ORCID:0000-0002-4366-3088") "A roughly planar, pelagic region characterised by equal water temperature.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pelagic isothermal surface") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19782,7 +19782,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") "A roughly planar, pelagic region characterised by equal salinity.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pelagic isohaline surface") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -19795,7 +19795,7 @@ AnnotationAssertion( "2010-03-17T01:14:02Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000082") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biogenous sediment") SubClassOf( ) @@ -19804,7 +19804,7 @@ SubClassOf( "ORCID:0000-0002-4366-3088") "A roughly planar, pelagic region characterised by equal water density.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T12:16:11Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pelagic isopycnal surface") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -20012,7 +20012,7 @@ AnnotationAssertion(owl:deprecated "ISBN:978-0-444-82619-0") Annotation( "ORCID:0000-0002-4366-3088") "A marine thermocline which separates the marine cold-water sphere from the marine warm-water sphere and which does not dissipate seasonally.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T02:31:24Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The permanent marine thermocline is typically found in temperate to tropical latitudes,") AnnotationAssertion(rdfs:label "permanent marine thermocline") SubClassOf( ) @@ -20024,7 +20024,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "ISBN:978-0-444-82619-0") Annotation( "ORCID:0000-0002-4366-3088") "A marine thermocline which is present below the marine wind mixed layer.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T02:31:24Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "seasonal marine thermocline") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -20034,7 +20034,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "ISBN:978-0-444-82619-0") Annotation( "ORCID:0000-0002-4366-3088") "The marine cold-water sphere describes a water mass extending from the polar seas and across low latitudes at depths of ca. 800 to 1000 m, which is separated from the marine warm-water sphere by the permanent marine thermocline") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-16T02:39:37Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine cold-water sphere") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -20304,7 +20304,7 @@ AnnotationAssertion( "2010-03-20T08:33:33Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000135") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nitrate-reducing sediment") SubClassOf( ) @@ -20453,7 +20453,7 @@ AnnotationAssertion( "2010-03-20T08:33:33Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000151") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "manganese-reducing sediment") SubClassOf( ) @@ -20464,7 +20464,7 @@ AnnotationAssertion( "2010-03-20T08:33:33Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000152") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "iron-reducing sediment") SubClassOf( ) @@ -20473,7 +20473,7 @@ SubClassOf( "ORCID:0000-0002-4366-3088") "Sediment hosting and characterised by active sulphate reducing microbial communities.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-20T08:33:33Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sulphate-reducing sediment") SubClassOf( ) @@ -20484,7 +20484,7 @@ AnnotationAssertion( "2010-03-20T08:33:33Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000154") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "carbon dioxide-reducing sediment") SubClassOf( ) @@ -20517,7 +20517,7 @@ AnnotationAssertion( "2010-03-20T08:51:49Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000157") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "microbial mat material") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20528,7 +20528,7 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-20T08:51:49Z") AnnotationAssertion( "EcoLexicon:marine_snow") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine snow") SubClassOf( ) @@ -20546,7 +20546,7 @@ AnnotationAssertion(owl:deprecated "ORCID:0000-0002-4366-3088") Annotation( "https://en.wikipedia.org/wiki/Pockmark") "Pockmarks are craters in the seabed resulting from the release of gas or liquid. Generally, they are formed in soft, fine-grained seabed sediments by the escape of fluids (gas or water, but mainly methane) into the water column.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2010-03-20T09:14:38Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine pockmark") SubClassOf( ) @@ -20740,7 +20740,7 @@ AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:26:46Z") AnnotationAssertion( "SPIRE:Desert_or_dune") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "desert biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20752,8 +20752,8 @@ AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:26:46Z") AnnotationAssertion( "SPIRE:Tundra") -AnnotationAssertion( "envoPolar") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tundra biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -20764,7 +20764,7 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:26:46Z") AnnotationAssertion( "LTER:322") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. Depending on whether mangrove trees or shrubs are present, this class could be a child of shrubland biome or woodland biome. Consider creating the appropriate classes.") AnnotationAssertion(rdfs:label "mangrove biome") SubClassOf( ) @@ -20815,7 +20815,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Polar_desert") "A polar desert biome is a desert biome which is subject to low levels of insolation, annual precipitation less than 250 millimeters, and a mean temperature less than 10 degrees Celsius during its warmest month. Temperature changes in polar deserts frequently cross the freezing point of water.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:28:08Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "polar desert biome") SubClassOf( ) @@ -20826,7 +20826,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A savanna biome which is subject to subtropical climate patterns."@en) AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:28:51Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "subtropical savanna biome") SubClassOf( ) @@ -20837,7 +20837,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A savanna biome which is subject to tropical climate patterns."@en) AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:28:51Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "tropical savanna biome") SubClassOf( ) @@ -20861,7 +20861,7 @@ AnnotationAssertion( "2013-04-07T14:28:51Z") AnnotationAssertion( "swamp") AnnotationAssertion( "marsh") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "flooded savanna biome") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -20870,7 +20870,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A subtropical grassland in which dominant ecological communities have reached their climax successional state.") AnnotationAssertion( "2013-04-07T14:29:48Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "subtropical grassland biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20880,7 +20880,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:29:48Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "tropical grassland biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -20903,7 +20903,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A montane grassland biome is a grassland biome which occurs in regions elevated above sea level and which has community structure determined by elevation-dependent environmental conditions.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:29:48Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition.") AnnotationAssertion(rdfs:label "montane grassland biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -20914,7 +20914,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:29:48Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "flooded grassland biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20946,7 +20946,7 @@ SubClassOf( "A mixed forest in which dominant ecological communities have reached their climax successional state.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:31:01Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mixed forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20956,7 +20956,7 @@ SubClassOf( "A mediterranean forest in which dominant ecological communities have reached their climax successional state.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:31:01Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mediterranean forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20987,7 +20987,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A broadleaf forest which is subject to temperate climate patterns.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:32:28Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "temperate broadleaf forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -20999,7 +20999,7 @@ AnnotationAssertion( "DOI:10.1186/2041-1480-4-43") "An environmental condition is a range of a determinate quality or combination of qualities that are present in an environmental system.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:35:18Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "A condition defines a restricted range of a given quality or combination of qualities. If an environment class, E, has_condition C, then all qualities listed in C are restricted to the ranges defined in C in E. This is not intended as a logical conditional.") AnnotationAssertion(rdfs:label "environmental condition") SubClassOf( ) @@ -21060,7 +21060,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A coniferous forest biome which is subject to subtropical climate patterns.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:39:14Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "subtropical coniferous forest biome") SubClassOf( ) @@ -21071,7 +21071,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A coniferous forest biome which is subject to tropical climate patterns.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:39:14Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "tropical coniferous forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -21083,7 +21083,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A coniferous forest biome which is subject to temperate climate patterns.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:39:14Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "temperate coniferous forest biome") SubClassOf( ) @@ -21094,7 +21094,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A temperate mixed forest in which dominant ecological communities have reached their climax successional state.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:39:30Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "temperate mixed forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -21105,7 +21105,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A shrubland biome which is subject to subtropical climate patterns.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:40:32Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "subtropical shrubland biome") SubClassOf( ) @@ -21116,7 +21116,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A shrubland biome which is subject to tropical climate patterns."@en) AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:40:32Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "tropical shrubland biome") SubClassOf( ) @@ -21138,7 +21138,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A montane shrubland biome is a shrubland biome which occurs in regions elevated above sea level and which has community structure determined by elevation-dependent environmental conditions.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:40:32Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition.") AnnotationAssertion(rdfs:label "montane shrubland biome") SubClassOf( ) @@ -21149,7 +21149,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A mediterranean shrubland biome is a subtropical shrubland biome which includes communities adapted to hot to warm, dry summers, mild to cold, rainy winters, and the influence of large, usually marine, bodies of water.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-07T14:40:32Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "mediterranean shrubland biome") SubClassOf( ) @@ -21161,7 +21161,7 @@ AnnotationAssertion( "2013-04-07T14:40:32Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000218") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Preliminary definition. The semantics and definitions of \"mediterranean\", \"subtropical\", \"tropical\", \"temperate\", \"polar\", and similar climate types may be transferred to an \"environmental condition\" class once the semantics of this class have been established.") AnnotationAssertion(rdfs:label "xeric shrubland biome") SubClassOf( ) @@ -21235,7 +21235,7 @@ AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-24T12:04:53Z") AnnotationAssertion( ) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "subtropical dry broadleaf forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -21245,7 +21245,7 @@ SubClassOf( "A subtropical moist broadleaf forest in which dominant ecological communities have reached their climax successional state.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-24T12:04:53Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "subtropical moist broadleaf forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -21256,7 +21256,7 @@ AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-24T12:05:25Z") AnnotationAssertion( ) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tropical dry broadleaf forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -21268,7 +21268,7 @@ AnnotationAssertion( "2013-04-24T12:05:25Z") AnnotationAssertion( "SPIRE:Rainforest") AnnotationAssertion( "rainforest biome") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tropical moist broadleaf forest biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -21278,7 +21278,7 @@ SubClassOf( "A savanna biome which is subject to mediterranean climate patterns.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-24T12:20:42Z") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mediterranean savanna biome") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -21289,7 +21289,7 @@ AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-04-24T13:28:18Z") AnnotationAssertion( "EcoLexicon:aridity") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "arid") SubClassOf( ) @@ -21380,7 +21380,7 @@ AnnotationAssertion( AnnotationAssertion( "SPIRE:Polar") AnnotationAssertion( "SWEETRealm:Polarization") AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Polar_climate") "frigid") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "On Earth, polar conditions are such that every month has average temperature lower than 10 degrees Celsius. Note that this class refers to a climatic rather than a positional condition.") AnnotationAssertion(rdfs:label "polar") SubClassOf( ) @@ -21492,7 +21492,7 @@ AnnotationAssertion( "SPIRE:Taiga") AnnotationAssertion( "boreal forest") AnnotationAssertion( "taiga") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "subpolar coniferous forest biome") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -21504,7 +21504,7 @@ AnnotationAssertion( "2013-09-04T07:08:34Z") AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Subarctic_climate") "boreal") AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Subarctic_climate") "subarctic") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that this class refers to a climatic rather than a positional condition.") AnnotationAssertion(rdfs:label "subpolar") SubClassOf( ) @@ -21575,7 +21575,7 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-10-06T20:10:13Z") AnnotationAssertion( "cline") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "A similar term exists in linguistics and mathematics. An ecocline, or biological cline, is a related concept; however, may be better placed as a child of a class like \"ecotone\". Further, some definitions of \"layer\" require a layer's constiuent materials to have consistent properties, thus \"cline\" would not qualify as a subclass. The term \"gradient\" has been proposed as a more suitable superclass. Discussion in Issue #286)") AnnotationAssertion(rdfs:label "fluid cline") SubClassOf( ) @@ -21686,7 +21686,7 @@ AnnotationAssertion( AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Water_vapor") "atmospheric water vapor") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000268") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric water vapour") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -21770,7 +21770,7 @@ SubClassOf( "DOI:10.1641/0006-3568(2001)051[0933:TEOTWA]2.0.CO;2") Annotation( "URL:http://worldwildlife.org/biomes") "A large unit of land or water containing a geographically distinct assemblage of species, natural communities, and environmental conditions.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-10-12T17:21:09Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Specific ecoregions are geographically defined and instantiated entities (e.g. Beringia lowland tundra), and should be represented as instances / named individuals of ENVO:ecoregion or an appropriate subclass.") AnnotationAssertion(rdfs:label "ecoregion") SubClassOf( ) @@ -21784,7 +21784,7 @@ AnnotationAssertion( AnnotationAssertion( ) AnnotationAssertion( "LTER:262") AnnotationAssertion(Annotation( "http://www.eionet.europa.eu/gemet/concept/4131") "ice") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Water ice can appear transparent or opaque bluish-white color, depending on the presence of impurities or air inclusions. The addition of other materials such as soil may further alter its appearance. When speaking about ice on Earth, usually water ice is meant - the solid, crystalline form of water found in the atmosphere as snow crystals, hail, ice pellets, etc., and on the earth's surface in forms such as hoarfrost, rime, glaze, sea ice, glacier ice, ground ice, frazil, anchor ice, etc. @@ -21817,7 +21817,7 @@ AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-10-13T12:20:34Z") AnnotationAssertion(Annotation( ) "ice lenses") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice lens") SubClassOf( ) @@ -21826,7 +21826,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/ecozone") "Ecozones delineate large areas of a planetary surface within which organisms have been evolving in relative isolation over long periods of time, separated from one another by geographic features, such as oceans, broad deserts, or high mountain ranges, that constitute barriers to migration.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "2013-10-13T18:32:46Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "ENVO contains this top-level class, but all instances will be in GAZ. The definition is preliminary and will be aligned to BFO. https://en.wikipedia.org/wiki/ Ecozones correspond to the floristic kingdoms of botany or zoogeographic regions of zoology. Ecozones are characterized by the evolutionary history of the organisms they contain. They are distinct from biomes, also known as major habitat types, which are divisions of the Earth's surface based on life form, or the adaptation of plants and animals to climatic, soil, and other conditions. Biomes are characterized by similar climax vegetation. Each ecozone may include a number of different biomes. A tropical moist broadleaf forest in Central America, for example, may be similar to one in New Guinea in its vegetation type and structure, climate, soils, etc., but these forests are inhabited by plants and animals with very different evolutionary histories.") AnnotationAssertion(rdfs:label "ecozone") @@ -21838,7 +21838,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "A material entity which 1) is spatially continuous, 2) is composed of material of comparable thickness, composition, and physical properties, and 3) is physically distinct from adjacent portions of environmental material."@en) AnnotationAssertion( ) AnnotationAssertion( "2013-10-15T16:42:02Z") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "layer") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -21861,7 +21861,7 @@ AnnotationAssertion( "2013-10-15T16:57:43Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:01000283") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that this class does not contain metalimnion as a subclass. The metaliminon is classified as a thermocline.") AnnotationAssertion(rdfs:label "lake layer") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -21971,7 +21971,7 @@ AnnotationAssertion( AnnotationAssertion( "accumulation of ice") AnnotationAssertion( "ice accumulation") AnnotationAssertion( "http://sweetontology.net/phenCryo/Accumulation") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice mass") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -21992,8 +21992,8 @@ SubClassOf( "ORCID:0000-0002-4366-3088") "A layer that is part of a marine water body.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine layer") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) SubClassOf( ) @@ -22032,7 +22032,7 @@ AnnotationAssertion( "2013-10-18T00:04:57Z") AnnotationAssertion( "EcoLexicon:continental_margin") AnnotationAssertion( "SWEETRealm:ContinentalMargin") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "On Earth, continental margins constitute about 28% of the oceanic area."@en) AnnotationAssertion(rdfs:label "continental margin") SubClassOf( ) @@ -22111,9 +22111,9 @@ SubClassOf( "An aquatic environment which is determined by freshwater.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Water (non-saline)") AnnotationAssertion( "fresh water environment") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "freshwater environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -22122,9 +22122,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by saline water.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Water (saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "saline water environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -22139,7 +22139,7 @@ SubClassOf( (cold environment) AnnotationAssertion( "An environment which has a lower temperature than some local or global average.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The definition of the deprecated 'cold temperature habitat' class, which this class was derived from, quotes an upper threshold of 15 degrees Celsius for 'coldness'.") AnnotationAssertion(rdfs:label "cold environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -22237,7 +22237,7 @@ SubClassOf( (marine environment) AnnotationAssertion(Annotation( "NM:nm") "A marine environment and enviroment which is determined by a marine water body.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -22245,7 +22245,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "An environmental system determined by seawater.") AnnotationAssertion( "ocean water environment") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea water environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -22253,7 +22253,7 @@ SubClassOf( (brackish water environment) AnnotationAssertion( "An environment determined by the presence of brackish water.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This may refer to environments submerged in brackish water or those that are determined by its presence, such as a brackish water pond environment.") AnnotationAssertion(rdfs:label "brackish water environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -22263,7 +22263,7 @@ SubClassOf( "The atmospheric boundary layer is the lowest layer of an atmosphere which is strongly influenced by its contact with a planetary surface with strong vertical mixing and in which physical quantities such as flow velocity, temperature, and moisture display rapid fluctuations (turbulence).") AnnotationAssertion( "planetary boundary layer") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric boundary layer") EquivalentClasses( ObjectIntersectionOf(ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( )) ObjectSomeValuesFrom( ))) @@ -22281,7 +22281,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (aquatic layer) AnnotationAssertion( "A layer in a water mass, itself composed primarily of water.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class will eventually be populated by inference, and its asserted subclasses removed.") AnnotationAssertion(rdfs:label "aquatic layer") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -22300,7 +22300,7 @@ Further discussion in Issue #126.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "DCM") AnnotationAssertion( "subsurface chlorophyll maximum layer") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Deep_chlorophyll_maximum") rdfs:comment "The DCM may or may not indicate greater abundance of photosynthetic, chlorophyll-bearing cells, as shade-adapted cells may have a greater chlorophyll to biomass ration than surface variants. Further, some DCMs may be formed by the sinking of cells from surface zones or the subduction of surface waters, rather than through biotic, community-level processess.") AnnotationAssertion(rdfs:label "deep chlorophyll maximum layer") SubClassOf( ) @@ -22414,7 +22414,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (polar biome) AnnotationAssertion( "A biome which is subject to polar climatic conditions.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is primarily for inference and, in general, should not be used directly by annotators. If you're an annotator, please consider using a more informative term such as 'tundra biome'.") AnnotationAssertion(rdfs:label "polar biome") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -22425,7 +22425,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Altitudinal_zonation") "An altitudinal condition which inheres in a bearer by virtue of the bearer having a monthly mean temperature is less than 10 degrees Celsius and being located at altitudes above the tree line and below the snowline.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "LTER:26") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Requested term with preliminary def. See Issue 29 on the envo tracker.") AnnotationAssertion(rdfs:label "alpine") SubClassOf( ) @@ -22434,7 +22434,7 @@ SubClassOf( "An altitudinal condition which inheres in a bearer by virtue of the bearer being located at an altitude immediately below the tree line of an elevation.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Requested in Issue 33 of our tracker. The lower boundry of this condition's range, that is, the lower altitudinal limit of an elevation that is considuered subalpine, is not clear in this definition.") AnnotationAssertion(rdfs:label "subalpine") SubClassOf( ) @@ -22444,7 +22444,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Altitudinal_zonation") "An altitudinal condition which inheres in a bearer by virtue of the bearer being located at an altitude between mid-altitude forests and the tree line.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion( "LTER:350") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Altitudinal_zonation") rdfs:comment "The exact level of the tree line varies with local climate, but typically the tree line is found where mean monthly soil temperatures never exceed 10.0 degrees C and the mean annual soil temperatures are around 6.7 degrees C. In the tropics, this region is typified by montane rain forest (above 3,000 ft) while at higher latitudes coniferous forests often dominate.") AnnotationAssertion(rdfs:label "montane") SubClassOf( ) @@ -22453,7 +22453,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Altitudinal_zonation") "An altitudinal condition is an environmental condition in which ranges of factors such as temperature, humidity, soil composition, solar irradiation, and tree density vary with ranges in altitude.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Depending on the latitude (and, to a lesser extent, other factors), the actual location of the zones where these conditions are in effect will change.") AnnotationAssertion(rdfs:label "altitudinal condition") SubClassOf( ) @@ -22462,7 +22462,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Altitudinal_zonation") "An altitudinal condition which inheres in a bearer by virtue of the bearer having extremely limited vegetation cover, silica-enriched soils, and ground cover dominated by snow and ice at altitudes above the snowline.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nival") SubClassOf( ) @@ -22470,7 +22470,7 @@ SubClassOf( "An upper montane condition is a montane condition in which an altitude range falls immediately below the tree line.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This definition is somewhat odd in that it doesn't clearly define a lower boundary.") AnnotationAssertion(rdfs:label "upper montane") SubClassOf( ) @@ -22479,7 +22479,7 @@ SubClassOf( "A lower montane condition is a montane condition in which an altitude range falls immediately above mid-altitude forests.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This definition does not define an upper boundary.") AnnotationAssertion(rdfs:label "lower montane") SubClassOf( ) @@ -22528,7 +22528,7 @@ AnnotationAssertion(owl:deprecated "http://www.merriam-webster.com/dictionary/field") "An unbroken expanse (as of ice)") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class was created to accommodate \"fields\" from agricultural fields to marine mesoscale eddy fields. Thus, it has a very broad definition which makes it less than informative when annotating. Please consider using or requesting an appropriate subclass.") AnnotationAssertion(rdfs:label "field") SubClassOf( ) @@ -22546,7 +22546,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Polar_climate") "An ice cap climatic condition is a polar condition in which the montly average temperature does not exceed 0 degrees Celsius.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice cap climatic condition") SubClassOf( ) @@ -22663,7 +22663,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Polar_climate") "An tundra climatic condition is a polar condition in which at least one month's average temperature exceeds 0 degrees Celsius.") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tundra climatic condition") SubClassOf( ) @@ -22765,7 +22765,7 @@ SubClassOf( (cold desert) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Desert_climate#Cold_desert_climates") "A cold desert is a desert which has hot summers and cold, dry winters with temperatures below 0 degrees Celsius") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This variant of the desert climate is somewhat rare outside of Asia. A cold desert climate is typically found in temperate zones, almost always in the rain shadow of high mountains which restrict precipitation from the westerly winds, or in the case of Central Asia, from the monsoon. The Gobi desert in Mongolia is a classic example of a region with a cold desert climate. Though hot in summer, it shares the very cold winters of the rest of Central Asia. The Kyzyl Kum and Taklamakan deserts of Central Asia and the drier portions of the Great Basin Desert of the western United States are other major examples of BWk climates. The Ladakh region, lying in the Great Himalayas in India also has a cold desert climate.") AnnotationAssertion(rdfs:label "cold desert") SubClassOf( ) @@ -22988,7 +22988,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (snow) AnnotationAssertion(Annotation( "http://www.eionet.europa.eu/gemet/concept/7769") Annotation( "https://en.wikipedia.org/wiki/Snow") "Snow is an environmental material which is primarily composed of flakes of crystalline water ice.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snow") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -23009,7 +23009,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A site which has its extent determined by the presence or influence of one or more components of an environmental system or the processes occurring therein.") AnnotationAssertion( "environmental area") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Formerly, this class was an experimental class and a subclass of \"environmental feature\". It is now aligned to BFO. The class was not obsoleted as the core semantics maintained their stability through its transition.") AnnotationAssertion(rdfs:label "environmental zone") SubClassOf( ) @@ -23248,7 +23248,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (lava flow) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Lava") "A lava flow is a moving outpouring of lava, which is created during a non-explosive effusive eruption.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lava flow") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -23302,7 +23302,7 @@ SubClassOf( (disturbed ecosystem) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Disturbance_(ecology)") "An ecosystem which has been subject to a perturbation, that is, the ecosystem has undergone a pronounced change in response to a change in environmental conditions or other perturbation.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is often used by plant collectors when early successional species are observed in an area.") AnnotationAssertion(rdfs:label "disturbed ecosystem") SubClassOf( ) @@ -23349,7 +23349,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "Atmospheric carbon dioxide is an environmental material composed of carbon dioxide in its gaseous form present in an atmosphere.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This could also be considered a part of an environmental material like air.") AnnotationAssertion(rdfs:label "atmospheric carbon dioxide") SubClassOf( ) @@ -24210,7 +24210,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A layer that is part of the atmosphere.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") AnnotationAssertion(Annotation( "GEMET:http://www.eionet.europa.eu/gemet/concept/627") "atmospheric layering") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This could be made into an inferred class, rather than having asserted subclasses.") AnnotationAssertion(rdfs:label "atmospheric layer"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -24309,7 +24309,7 @@ SubClassOf( (hydrocarbon gas) AnnotationAssertion( "A gas that is primarily composed of hydrocarbon molecules.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hydrocarbon gas"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) @@ -24340,7 +24340,7 @@ SubClassOf( (liquefied hydrocarbon gas) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "liquefied hydrocarbon gas"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -24820,8 +24820,8 @@ SubClassOf( "https://en.wikipedia.org/wiki/Condensation") "Hydrological condensation is a process in which atmospheric water vapour undergoes a phase transition from the gas phase to the liquid phase.") AnnotationAssertion( "condensation") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"process\" is included in the label to make it clear that we are not referring to the condensed material (e.g. water droplets, window fog)") AnnotationAssertion(rdfs:label "hydrological condensation process"@en) SubClassOf( ) @@ -24863,7 +24863,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (climate change) AnnotationAssertion(Annotation( "GEMET:http://www.eionet.europa.eu/gemet/concept/1471") "The long-term fluctuations in temperature, precipitation, wind, and all other aspects of the Earth's climate. External processes, such as solar-irradiance variations, variations of the Earth's orbital parameters (eccentricity, precession, and inclination), lithosphere motions, and volcanic activity, are factors in climatic variation. Internal variations of the climate system, e.g., changes in the abundance of greenhouse gases, also may produce fluctuations of sufficient magnitude and variability to explain observed climate change through the feedback processes interrelating the components of the climate system.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Definition vebatim from GEMET. Will need to be refined. Further, distinction between \"climate change\" and (one or many) \"climate change process\" will need to be discussed. Fluctuations are not processes, per se.") AnnotationAssertion(rdfs:label "climate change"@en) SubClassOf( ) @@ -24883,7 +24883,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "Ocean acidification is a process during which the pH of a sea or ocean is lowered.") AnnotationAssertion( "LTER:962") AnnotationAssertion(Annotation( "https://vocab.lternet.edu/vocab/vocab/index.php?tema=962&/ocean-acidification") "LTER:962") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "On Earth, the major cause of ocean acidification is the update of carbon dioxide from the atmosphere.") AnnotationAssertion(rdfs:label "ocean acidification"@en) SubClassOf( ) @@ -24899,7 +24899,7 @@ SubClassOf( "A process which consists of all aerobic respiration processes instantiated in an ecosystem.") AnnotationAssertion( "See issue #275") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ecosystem-wide aerobic respiration"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -24909,7 +24909,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (volcanic eruption) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Types_of_volcanic_eruptions") "A volcanic eruption is a process during which lava, tephra (ash, lapilli, volcanic bombs and blocks), and assorted gases are expelled from a volcanic vent or fissure.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "volcanic eruption"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -24946,7 +24946,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Outer_space") "Outer space is a hard vacuum containing a low density of particles, predominantly a plasma of hydrogen and helium as well as electromagnetic radiation, magnetic fields, neutrinos, dust and cosmic rays that exists between celestial bodies.") AnnotationAssertion( "space") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "outer space"@en) SubClassOf( ) @@ -25024,7 +25024,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (asthenosphere) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Asthenosphere") "An asthenosphere is a layer of a terrestrial-type planet or natural satellite which is highly viscous, mechanically weak, and ductilely deforming.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "asthenosphere"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25058,7 +25058,7 @@ SubClassOf( (ocean strait) AnnotationAssertion( "An ocean strait is a strait which connects two oceans.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ocean strait"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( ))))) @@ -25100,14 +25100,14 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (explosive eruption) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Explosive_eruption") "An explosive eruption is a volcanic process in which pressurised magma is violently expelled and froths into volcanic ash. Explosive eruptions can eject a cloud of rocks, dust, gas, and pyroclastic material which may then collapse, creating a pyroclastic flow of hot volcanic matter.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "explosive eruption"@en) SubClassOf( ) # Class: (effusive eruption) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Effusive_eruption") "An effusive eruption is a volcanic eruption during which lava flows onto the ground.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "effusive eruption"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25193,8 +25193,8 @@ SubClassOf( "https://en.wikipedia.org/wiki/Exosphere") Annotation( "https://en.wikipedia.org/wiki/Planetary_surface") Annotation( "https://www.mrlc.gov/nlcd11_leg.php") "An area of a planet's surface which is primarily composed of water in contact with an atmospheric column extending from the planetary boundary layer to the planet's exosphere with little to no physical obstruction.") AnnotationAssertion( "open water") AnnotationAssertion( "NLCD:11") -AnnotationAssertion( "envoPolar") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of open water generally have less than 25% cover of vegetation or soil. A specific threshold is not asserted in this definition.") AnnotationAssertion(rdfs:label "area of open water"@en) SubClassOf( ) @@ -25224,7 +25224,7 @@ SubClassOf( "An active fault is a fault that is likely to become the source of another earthquake sometime in the future. Geologists commonly consider faults to be active if there has been movement observed or evidence of seismic activity during the last 10,000 years.") AnnotationAssertion( "active fault") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "active geological fault"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25269,7 +25269,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (atmospheric column) AnnotationAssertion(Annotation( "https://mynasadata.larc.nasa.gov/glossary/atmospheric-column-2/") "A fiat part of an atmosphere which is defined as a vertical, three-dimensional pillar extending from a unit area on a planetary surface and bounded by the top of the atmosphere."@en) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Once defined, an atmospheric column can be used to quantify an atmospheric parameter such as pressure, ozone or precipitable water."@en) AnnotationAssertion(rdfs:label "atmospheric column"@en) SubClassOf( ) @@ -25292,7 +25292,7 @@ AnnotationAssertion(Annotation( "quake") AnnotationAssertion( "temblor") AnnotationAssertion( "tremor") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Elastic strain, gravity, chemical reactions, or even the motion of massive bodies can produce earthquakes.") AnnotationAssertion(rdfs:label "earthquake"@en) SubClassOf( ) @@ -25300,7 +25300,7 @@ SubClassOf( (tectonic earthquake) AnnotationAssertion(Annotation( "URL:http://www.britannica.com/science/earthquake-geology") "An earthquake caused by the sudden release of energy accumulated in an astronomical body's crust, as the elastic strain placed on constituent rock masses causes them to fracture.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tectonic earthquake"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25310,7 +25310,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (megathrust earthquake) AnnotationAssertion(Annotation( "Adapted from URL:http://www.britannica.com/science/earthquake-geology") Annotation( "https://en.wikipedia.org/wiki/Earthquake") "A megathrust earthquake is a tectonic earthquake which occurs at subduction zones at destructive plate boundaries (convergent boundaries). These interplate earthquakes are the planet's most powerful, with moment magnitudes that can exceed 9.0.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "megathrust earthquake"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25318,7 +25318,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (polluted lake) AnnotationAssertion( "A lake which has concentrations of environmental contaminants high enough to harm the ecosystems associated with it.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "polluted lake"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -25328,7 +25328,7 @@ SubClassOf( "A mineral material composed primarily of sodium chloride.") AnnotationAssertion( "This class is for material primarily composed of sodium chloride. For other pure chemical salts, consider a CHEBI class. Request new ENVO terms for environmental samples of other chemical salts.") AnnotationAssertion( "salt") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sodium chloride salt"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25339,7 +25339,7 @@ AnnotationAssertion(Annotation( "abrasion") AnnotationAssertion( "scouring") AnnotationAssertion( "glacial scouring") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial abrasion"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25350,7 +25350,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Erosion") "Glacial plucking is an erosional process during which pieces of bedrock are cracked off due to the mechanical force of a moving glacier.") AnnotationAssertion( "quarrying") AnnotationAssertion( "glacial quarrying") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial plucking"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25360,7 +25360,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Erosion") "Glacial ice thrusting is an erosional process during which a moving glacier which has frozen to its bed surges forward and moves large sheets of sediment frozen to the glacial mass.") AnnotationAssertion( "ice thrusting") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial ice thrusting"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25376,7 +25376,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (marine water mass) AnnotationAssertion( "A mass of marine water.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine water mass"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25404,7 +25404,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Tsunami") "A tsunami is a process during which a series of waves is generated in a water body, typically an ocean or large lake, by the displacement of a large volume of water. Earthquakes, volcanic eruptions and other underwater explosions (including detonations of underwater nuclear devices), landslides, glacier calvings, meteorite impacts and other disturbances above or below water all have the potential to generate a tsunami.") AnnotationAssertion( "seismic sea wave") AnnotationAssertion( "tidal wave") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tsunami"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -25414,8 +25414,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mass_wasting") "Mass wasting is the geomorphic process by which solid environmental material such as soil, sand, regolith, and/or rock move downslope typically as a mass, largely under the force of gravity, but frequently affected by water and water content as in submarine environments and mudslides.") AnnotationAssertion( "mass movement") AnnotationAssertion( "slope movement") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Of interest for future development: Some causes of mass wasting earthquakes, increased overburden from structures, increased soil moisture, reduction of roots holding the soil to bedrock, undercutting of the slope by excavation or erosion, weathering by frost heave, bioturbation, volcanic edifice over-steepening. Some processes that reduce mass wasting: Afforestation, Reforestation, Terracing steps on slopes (reduce angle of slope). https://en.wikipedia.org/wiki/Mass_wasting.") AnnotationAssertion(rdfs:label "mass wasting"@en) SubClassOf( ) @@ -25429,8 +25429,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mass_wasting") "A mass wasting flow during which snow rapidly flows down a sloping surface.") AnnotationAssertion( "snowslide") AnnotationAssertion( "snowslip") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "avalanche"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -25440,14 +25440,14 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mass_wasting") "A landslide is a process whereby a large mass of earth and rocks moves down a hill or a mountainside.") AnnotationAssertion( "GEMET:http://www.eionet.europa.eu/gemet/concept/4668") AnnotationAssertion( "landslip") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "landslide process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) # Class: (rockfall) -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "rockfall"@en) SubClassOf( ) @@ -25455,14 +25455,14 @@ SubClassOf( "https://en.wikipedia.org/wiki/Subsidence") "A material transport process during which a geological surface shifts downward relative to a datum such as sea-level.") AnnotationAssertion( "subsidence") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "geological subsidence"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) # Class: (mudslide) -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mudslide"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -25471,8 +25471,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mass_wasting") "A mass wasting flow is a form of mass wasting during which the moving materials behave similarly to a flowing fluid. Water, air and ice are often involved in enabling fluidlike motion of the material.") AnnotationAssertion( "flow") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mass wasting flow"@en) SubClassOf( ) @@ -25480,7 +25480,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Mudflow") "A mudflow is a form of mass wasting which involves very rapid to extremely rapid surging flow of debris that has become partially or fully liquified by the addition of significant amounts of water to clay-rich source material.") AnnotationAssertion( "mud flow") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Mudflows are often called mudslides, a term applied indiscriminately by the mass media to a variety of mass wasting events. Mudflows often start as slides, becoming flows as water is entrained along the flow path; such events are often called flow slides.\" https://en.wikipedia.org/wiki/Mudflow") AnnotationAssertion(rdfs:label "mudflow"@en) SubClassOf( ) @@ -25489,7 +25489,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (debris flow) AnnotationAssertion(Annotation( ) "A mass wasting flow during which water-laden masses of soil and fragmented rock rush down the slopes of elevations, funnel into stream channels, entrain objects in their paths, and form thick, muddy deposits on valley floors.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "debris flow"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25500,7 +25500,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (lahar) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Lahar") "A lahar is a type of mudflow or debris flow composed of a slurry of pyroclastic material, rocky debris, and water. The material flows down from a volcano, typically along a river valley.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lahar"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( ))))) @@ -25522,7 +25522,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (ash fall process) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Volcanic_ash") "An ash fall process is a process in which volcanic ash formed during an explosive volcanic eruption, phreatomagmatic eruption, or during material transport in pyroclastic density currents is pulled towards the planetary surface by gravity.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ash fall process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectSomeValuesFrom( ))) @@ -25556,7 +25556,7 @@ SubClassOf( (soil erosion) AnnotationAssertion( "Soil erosion is a process in which exogenic processes remove soil from one location on the Earth's crust and transport it to another location where it is deposited.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Soil Erosion is a common term that is often confused with soil degradation as a whole, but in fact refers only to absolute soil losses in terms of topsoil and nutrients. This is indeed the most visible effect of soil degradation, but does not cover all of its aspects. Soil erosion is a natural process in mountainous areas, but is often made much worse by poor management practices.\" http://www.fao.org/soils-portal/soil-degradation-restoration/en/") AnnotationAssertion(rdfs:label "soil erosion"@en) SubClassOf( ) @@ -25565,7 +25565,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (coastal flooding) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Coastal_flood") "Coastal flooding is a process in which normally dry, low-lying land near a coast is flooded by sea water.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "coastal flooding"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25576,14 +25576,14 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Flood#Riverine") "Riverine flooding is a process in which the flow rate of river water exceeds the capacity of its channel, thus flooding neighbouring land. Bends and meanders in a river channel are particularly disposed to such flooding.") AnnotationAssertion( "A disposition class such as 'flooding disposition' may be interesting, especially when attached to things like meanders and bends.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "riverine flooding"@en) SubClassOf( ) # Class: (flash flooding) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Flash_flood") "Flash flooding is a process in which low-lying land is inundated with water for a short period of time and are usually the result of precipitation or a breach in the container of a water body.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Flash floods generally last no more than six hours. http://www.srh.noaa.gov/mrx/hydro/flooddef.php") AnnotationAssertion(rdfs:label "flash flooding"@en) SubClassOf( ) @@ -25592,7 +25592,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (flood) AnnotationAssertion(Annotation( "GEMET:http://www.eionet.europa.eu/gemet/concept/3298") "An unusual accumulation of water above the ground caused by high tide, heavy rain, melting snow or rapid runoff from paved areas.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "flood"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25600,7 +25600,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (coastal flood) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Flood#Estuarine_and_coastal") "A coastal flood is a flood which is formed as a result of large amounts of water from marine water bodies or large lakes being transported to usually dry land by displacement processes such as high winds or seismic activity.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "coastal flood"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25609,7 +25609,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (riverine flood) AnnotationAssertion( "A riverine flood is a flood which is formed as a result of a river's flow rate exceeding the capacity of its channel.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "riverine flood"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25618,7 +25618,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (flash flood) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Flash_flood") "A flash flood is a flood formed by the rapid flooding of geomorphic low-lying areas. It may be caused by heavy rain associated with a severe thunderstorm, hurricane, tropical storm, or meltwater from ice or snow flowing over ice sheets or snowfields. Flash floods may also occur after the collapse of a natural ice or debris dam, or a human structure such as a man-made dam. Flash floods are distinguished from a regular flood by a timescale of less than six hours.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "flash flood"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25627,7 +25627,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Storm_surge") "A storm surge is a coastal flood which is caused by low-pressure weather systems such as tropical cyclones and strong extratropical cyclones, the severity of which is affected by the shallowness and orientation of the water body relative to storm path, and the timing of tides.") AnnotationAssertion( "Needs links to weather when these phenomena are added.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "storm surge"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25637,7 +25637,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Meteotsunami") "A meteotsunami is a tsunami caused by atmospheric processes and differences in air pressure.") AnnotationAssertion( "Ambiguity as to whether this label refers to the process or the material entities (the waves). The material entities are a type of severe storm surge.") AnnotationAssertion(Annotation(rdfs:comment "Language: Catalan") "rissaga") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "meteotsunami"@en) SubClassOf( ) @@ -25645,14 +25645,14 @@ SubClassOf( "https://en.wikipedia.org/wiki/Storm_surge") "A storm surge process is a coastal flooding process which is caused by low pressure weather systems such as tropical cyclones and strong extratropical cyclones, the severity of which is affected by the shallowness and orientation of the water body relative to storm path, and the timing of tides.") AnnotationAssertion( "Should be linked to the relevant weather classes when these are created.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "storm surge process"@en) SubClassOf( ) # Class: (areal flooding) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Flood#Areal") "Areal flooding is a flooding process in which flat or low-lying areas become inundated with water due to water input exceeding infiltration, evaporation, or run off.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "areal flooding"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -25661,7 +25661,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Flood#Urban_flooding") "Urban flooding is a flooding process in which land or property in a built environment, particularly in more densely populated areas, is inundated due to the rate of water input exceeding that of water drainage provided by the environment's drainage systems.") AnnotationAssertion( "Relevant to built environments and can be linked to urban flows. Also relevant to water and sanitation SDGs.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "urban flooding"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -25670,7 +25670,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Snowmelt") "Snowmelt is a hydrological melting process in which water is produced by the melting of snow and becomes part of the hydrological surface runoff.") AnnotationAssertion( "The assertion that the output is freshwater seems reasonable; however, this can certianly be changed if a counter example is provided.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snowmelt"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25679,7 +25679,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (hydrological melting process) AnnotationAssertion( "A melting process during which water-based ice, snow, or other solid phase water transitions into a liquid phase.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Here, we've nexted melting within thawing as one approach to resolve the semantics of thawing of ice-free materials. Expert group revision is requried.") AnnotationAssertion(rdfs:label "hydrological melting process"@en) SubClassOf( ) @@ -25692,7 +25692,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Meltwater") "Icemelt is a hydrological melthing process in which water is produced by the melting of ice and becomes part of the hydrological surface runoff.") AnnotationAssertion( "The assertion that the output is freshwater seems reasonable; however, this can certianly be changed if a counter example is provided.") AnnotationAssertion( "ice melt") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "icemelt"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25712,7 +25712,7 @@ AnnotationAssertion( ) AnnotationAssertion( "melting process") AnnotationAssertion( "fusion") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that melting need not be due to warming, thus the classes are separated.") AnnotationAssertion(rdfs:label "melting"@en) SubClassOf( ) @@ -25760,7 +25760,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (atmospheric subsidence) AnnotationAssertion(Annotation( ) Annotation( ) "A material transport process during which a mass of air moves through an atmosphere towards a planetary surface.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This process usually refers to large-scale air motion, rather than local winds.") AnnotationAssertion(rdfs:label "atmospheric subsidence"@en) SubClassOf( ) @@ -25770,7 +25770,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (lava flow process) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Lava") "A process in which a volume of lava emitted during an effusive eruption moves along a solid surface.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lava flow process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25850,8 +25850,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (area of perennial water ice) AnnotationAssertion(Annotation( "https://www.mrlc.gov/nlcd11_leg.php") "An area of a planet's surface which is primarily composed of water ice, present throughout multiple years, in contact with an atmospheric column extending from the planetary boundary layer to the planet's exosphere with little to no physical obstruction.") -AnnotationAssertion( "envoPolar") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class covers part of the NLCD \"Perennial Ice/Snow\" class.") AnnotationAssertion(rdfs:label "area of perennial water ice"@en) SubClassOf( ) @@ -25868,7 +25868,7 @@ AnnotationAssertion( "proceso de reciclaje"@es) AnnotationAssertion( "processo di riciclo"@it) AnnotationAssertion( "資源回收"@zh) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This has been created for SDGIO. Revision is likely, but the general meaning should be stable. The frame of reference for determining what is 'waste' and what is a 'resource' is unclear.") AnnotationAssertion(rdfs:label "recycling process"@en) SubClassOf( ) @@ -25878,7 +25878,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A carbon emission process is any environmental process which outputs a carbon-bearing gas.") AnnotationAssertion( "carbon emission process") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Requested for SDGIO. Likely to be revised.") AnnotationAssertion(rdfs:label "carbon-bearing gas emission process"@en) SubClassOf( ) @@ -25909,7 +25909,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.mrlc.gov/nlcd11_leg.php") "An area of a planet's surface which is primarily composed of snow, present throughout multiple years, in contact with an atmospheric column extending from the planetary boundary layer to the planet's exosphere with little to no physical obstruction.") AnnotationAssertion( "envoPolar") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class covers part of the NLCD \"Perennial Ice/Snow\" class.") AnnotationAssertion(rdfs:label "area of perennial snow"@en) SubClassOf( ) @@ -25924,7 +25924,7 @@ AnnotationAssertion(Annotation( "envoPolar") AnnotationAssertion( "perennial ice/snow") AnnotationAssertion( "NLCD:12") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, these areas are characterised by ice and/or snow cover generally greater than 25% of total cover. The definition of perennial needs clarification.") AnnotationAssertion(rdfs:label "area of perennial ice or snow"@en) SubClassOf( ) @@ -25946,7 +25946,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Crust_(geology)") "A layer of igneous, sedimentary, and metamorphic rocks that forms continents and the areas of shallow seabed close to their shores, known as continental shelves.") AnnotationAssertion( "This is an Earth-centred class, but can be generalised to include other planetary bodies.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Continental_crust") rdfs:comment "On Earth, all continental crust ultimately derives from the fractional differentiation of oceanic crust over many eons.") AnnotationAssertion(rdfs:label "continental crust"@en) SubClassOf( ) @@ -25955,7 +25955,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (oceanic crust) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Crust_(geology)") "Oceanic crust is the uppermost layer of the oceanic portion of a tectonic plate.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "oceanic crust"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -25981,8 +25981,8 @@ AnnotationAssertion(Annotation( "The range of entities that are considered \"barren land\" are not exhaustive, making axiomatisation risky at this stage.") AnnotationAssertion( "Barren Land (Rock/Sand/Clay)") AnnotationAssertion( "NLCD:31") -AnnotationAssertion( "envoPolar") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of barren land generally have less than 15% cover of vegetation. A specific threshold is not asserted in this definition.") AnnotationAssertion(rdfs:label "area of barren land"@en) SubClassOf( ) @@ -26002,7 +26002,7 @@ AnnotationAssertion(owl:deprecated "A hollow tower of ice formed by the freezing of steam escaping a fumarole.") AnnotationAssertion( "ice chimney") AnnotationAssertion( "ice tower") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fumarole-derived ice tower"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26013,7 +26013,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A part of an astronomical body which is primarily composed of a continuous volume of gaseous or aerosolised material held in shape by one or more environmental processes.") AnnotationAssertion( "This may not need to be in the atmosphere, also note that \"meteor\" will do much of the same work.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Similar, in spirit, to landform. This class may need to be split into aerosols and 'pure' volumes of gas.") AnnotationAssertion(rdfs:label "aeroform"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ObjectUnionOf( )))) @@ -26050,7 +26050,7 @@ AnnotationAssertion(owl:deprecated "https://cloudatlas.wmo.int/introduction-and-principles-of-cloud-classification.html") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cloud is a visible mass of aerosolised liquid droplets or frozen crystals suspended in an atmosphere above the surface of a planetary body.") AnnotationAssertion( "cloud mass") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "On Earth clouds are formed by the saturation of air in the homosphere when air cools or gains water vapor. Please use the \"water-based cloud\" class and its subclasses for Earth's clouds. Note that this class describes clouds as countable objects, rather than 'cloud material'. It also refers only to clouds made up of a water-based material.") AnnotationAssertion(rdfs:label "cloud"@en) SubClassOf( ) @@ -26062,8 +26062,8 @@ AnnotationAssertion(Annotation( "This class should be linked to ozone layer depletion processes.") AnnotationAssertion( "nacreous cloud") AnnotationAssertion( "PSC") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "polar stratospheric cloud"@en) SubClassOf( ) @@ -26123,7 +26123,7 @@ SubClassOf( (carbon dioxide emission process) AnnotationAssertion( "A carbon emission process is any environmental process which releases carbon dioxide gas into the atmosphere.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Requested for SDGIO. This class may be revised in future once the offical definitions become more clear.") AnnotationAssertion(rdfs:label "carbon dioxide emission process"@en) SubClassOf( ) @@ -26199,7 +26199,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion(Annotation( "https://en.wiktionary.org/wiki/nurdle") "A plastic pellet which is produced such that its size allows it to be rapidly melted and used as input for further downstream manufacturing processes."@en) AnnotationAssertion( ) AnnotationAssertion( ) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nurdle"@en) SubClassOf( ) @@ -26217,7 +26217,7 @@ AnnotationAssertion( "Important Site for Freshwater Biodiversity") AnnotationAssertion( "Prime Butterfly Area") AnnotationAssertion( "Ramsar Sites") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The selection process which determines the whether an area is an important site must follow the best practice specifications and guidelines developed by the International Union for Conservation of Nature (IUCN), using globally standardised criteria and thresholds. Note that the label 'important site' is chosen to align with SDGIO. The definition is that of \"key biodiversity area\".") AnnotationAssertion(rdfs:label "key biodiversity area") SubClassOf( ) @@ -26292,7 +26292,7 @@ SubClassOf( "A conflagration which is uncontrolled and combusts material in a vegetated area, be it rural or wild.") AnnotationAssertion( "wildland fire") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The definition of \"wildland\" or \"wild\" is ambiguous.") AnnotationAssertion(rdfs:label "wildfire"@en) SubClassOf( ) @@ -26327,7 +26327,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (forest fire) AnnotationAssertion(Annotation( "http://www.emdat.be/Glossary") "A wildfire which occurs in a forest, primarily consuming vegetation as fuel.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "forest fire"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) SubClassOf( ) @@ -26339,8 +26339,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Wind") "A process whereby a large volume of gas moves due to a disequilibrium of physical forces.") AnnotationAssertion( "wind") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class refers to all forms of \"wind\": from the familiar movement of air in the Earth's atmosphere to the solar wind. Use a subclass to be more precise.") AnnotationAssertion(rdfs:label "mass gaseous flow"@en) SubClassOf( ) @@ -26350,8 +26350,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "wind") AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Wind") "A mass gaseous flow which occurrs in a planet's atmosphere due to internal pressure disequilibria.") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric wind"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26369,8 +26369,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A mass gaseous flow in which planetary atmospheric gases flow into outer space.") AnnotationAssertion( "atmospheric escape") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "planetary wind"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -26402,7 +26402,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Astronomical_object") "An object which is naturally occuring, bound together by gravitational or electromagnetic forces, and surrounded by space.") AnnotationAssertion( "celestial body") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Astronomical bodies are usually cohesive, thus the use of the term 'object' sensu BFO 'object'.") AnnotationAssertion(rdfs:label "astronomical body"@en) SubClassOf( ) @@ -26410,8 +26410,8 @@ SubClassOf( (planet) AnnotationAssertion(Annotation( "http://solarsystem.nasa.gov/planets/whatisaplanet") Annotation( "https://en.wikipedia.org/wiki/Planet") "A planet is an astronomical body orbiting a star or stellar remnant that is massive enough to be rounded by its own gravity, is not massive enough to cause thermonuclear fusion, and has cleared its neighbouring region of planetesimals.") -AnnotationAssertion( "envoAstro") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Considerable debate on the definition of planet exists.") AnnotationAssertion(rdfs:label "planet"@en) SubClassOf( ) @@ -26420,8 +26420,8 @@ SubClassOf( "https://en.wikipedia.org/wiki/Star") "An astronomical object which is composed primarily of luminous plasma held in a spherical form by gravitational forces.") AnnotationAssertion( "Add qualities such as spherical. Request NTRs if not available in PATO.") -AnnotationAssertion( "envoAstro") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "star"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26431,14 +26431,14 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://solarsystem.nasa.gov/planets/solarsystem/sats") Annotation( "https://en.wikipedia.org/wiki/Natural_satellite") "An astronomical body which orbits a planet of comparatively greater mass.") AnnotationAssertion( "moon") AnnotationAssertion( "natural satellite") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "At times, a moon is equated to a natural satellite, however, the latter class includes a broader range of entities. Here, we currently separate moons from other satellites. We can create a logical definition of satellite using an orbital process class.") AnnotationAssertion(rdfs:label "planetary moon"@en) SubClassOf( ) # Class: (asteroid) -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is hard to define and is sometimes treated as equivalent to 'minor planet'.") AnnotationAssertion(rdfs:label "asteroid"@en) SubClassOf( ) @@ -26447,7 +26447,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Astronomical_object") "An object which is composed of one or more gravitationally bound structures that are associated with a position in space.") AnnotationAssertion( "celestial object") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "If there is only one astronomical body involved, this class is equivalent to ENVO:01000799. This may be problematic with reasoning, but it seems to be true to the rather fuzzy definitions found thus far.") AnnotationAssertion(rdfs:label "astronomical object"@en) SubClassOf( ) @@ -26458,7 +26458,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (globular star cluster) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Star_cluster") "A group of gravitationally bound stars.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "There is a need to account for open star clusters which are not gravitationally bound. This would need a superclass other than 'astronomical object', as currently defined.") AnnotationAssertion(rdfs:label "globular star cluster"@en) SubClassOf( ) @@ -26466,21 +26466,21 @@ SubClassOf( (nebula) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Nebula") "An interstellar cloud of dust, hydrogen, helium and other ionized gases") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nebula"@en) SubClassOf( ) # Class: (galaxy) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Galaxy") "A galaxy is a gravitationally bound system of stars, stellar remnants, interstellar gas, dust, and dark matter.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "galaxy"@en) SubClassOf( ) # Class: (dwarf planet) AnnotationAssertion(Annotation( "http://solarsystem.nasa.gov/planets/Dwarf") Annotation( "https://en.wikipedia.org/wiki/Dwarf_planet") "An astronomical body which is in direct orbit of a star and is massive enough for its own gravity to compress it into a shape preserved by hydrostatic equilibrium (usually a spheroid), but which shares its orbit with other bodies, such as asteroids or comets.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Considerable debate on this definition exists.") AnnotationAssertion(rdfs:label "dwarf planet"@en) SubClassOf( ) @@ -26489,7 +26489,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Minor_planet") "A minor planet is an astronomical object in direct orbit around the Sun that is neither a planet nor exclusively classified as a comet. Minor planets can be dwarf planets, asteroids, trojans, centaurs, Kuiper belt objects, and other trans-Neptunian objects.") AnnotationAssertion( "This definition is in need of revision - it relies on negation and seems to straddle class and instance level. The definitional space here is contested and quite inhomogeneous.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Minor_planet") rdfs:comment "\"Before 2006, the IAU had officially used the term minor planet. During its 2006 meeting, the IAU reclassified minor planets and comets into dwarf planets and small Solar System bodies (SSSB). Objects are called dwarf planets if their self-gravity is sufficient to achieve hydrostatic equilibrium and form an ellipsoidal shape. All other minor planets and comets are called small Solar System bodies. The IAU stated that the term minor planet may still be used, but the term small Solar System body will be preferred. However, for purposes of numbering and naming, the traditional distinction between minor planet and comet is still used.\"") AnnotationAssertion(rdfs:label "minor planet"@en) SubClassOf( ) @@ -26497,7 +26497,7 @@ SubClassOf( (planetary atmosphere) AnnotationAssertion( "An atmosphere which surrounds a planet.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "planetary atmosphere"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26505,7 +26505,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (nitrogen-oxygen planetary atmosphere) AnnotationAssertion( "A planetary atmosphere which is composted primarily of dinitrogen and dioxygen gas.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "An instance of this class would be Earth's atmosphere.") AnnotationAssertion(rdfs:label "nitrogen-oxygen planetary atmosphere"@en) SubClassOf( ) @@ -26530,8 +26530,8 @@ AnnotationAssertion( "Also note that some astronomical body parts (ABPs) may have fiat boundaries: if there's strong debate about where an ABP begins or ends (over and above fuzzy boundaries), with different official classifications setting different thresholds or limits, axiomatise the class with fiat boundaries of the appropriate dimension."@en) AnnotationAssertion( "Note that material entities may have immaterial entities (e.g. sites) as parts."@en) AnnotationAssertion( "This class includes material parts of astronomical bodies. Immaterial parts, such as magnetospheres, are represented as sites under the influence of magnetic fields.Please post countercases in the ENVO tracker for revision of this hierarchy if needed."@en) -AnnotationAssertion( "envoAstro") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Material parts of astronomical bodies generally have boundaries formed by discontinuities in qualities, composition, or other physical characterisitcs. These boundaries are sometimes sharp, and sometimes diffuse, with different classification systems and communities declaring varying thresholds (e.g. for where a shoreline, forest, or other entity begins and ends). However, some boundaries are declared by fiat - that is, by arbitrary human convention or decree - particularly by regulatory or other authorities and communities of practice. The classes in this hierarchy attempt to offer generalisable definitions that allow multiple classfiication systems to map to and interoperate through. If desired, we can create classes that declare thresholds used by a given authority or community under the more generic ones, annotated with source information."@en) AnnotationAssertion(rdfs:label "astronomical body part"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -26549,7 +26549,7 @@ SubClassOf( (liquid environmental material) AnnotationAssertion( "An environmental material which is in a liquid state.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is a defined class: most of its subclasses will not be asserted, but filled by inference.") AnnotationAssertion(rdfs:label "liquid environmental material"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -26560,7 +26560,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Exosphere") Annotation( "https://en.wikipedia.org/wiki/Planetary_surface") Annotation( "https://www.mrlc.gov/nlcd11_leg.php") "An area of a planet's surface which is primarily covered by a forest in which the majority of trees shed foliage simultaneously in response to seasonal change. The surfaces of this area (including the surface of the forest canopy) are in contact with an atmospheric column extending from the planetary boundary layer to the planet's exosphere with little to no physical obstruction.") AnnotationAssertion( "deciduous forest") AnnotationAssertion( "NLCD:41") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of deciduous forest are dominated by trees generally greater than 5 meters tall, and making up more than 20% of total vegetation cover. The NLCD 2011 continues to state that more than 75% of these trees should shed foliage simultaneously in response to seasonal change. Such thresholds - which are themselves fuzzy - are not asserted in this definition.") AnnotationAssertion(rdfs:label "area of deciduous forest"@en) SubClassOf( ) @@ -26572,8 +26572,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://www.biology-online.org/dictionary/Biosphere") Annotation( "https://en.wikipedia.org/wiki/Biosphere") "An astronomical body part which includes all the living entities within the gravitational sphere of influence of that body, as well as the non-living and dead entities with which they interact."@en) AnnotationAssertion( "Whether this class should be grouped with classes such as \"hydrosphere\" and \"cryosphere\" requires some discussion.") -AnnotationAssertion( "envoAstro") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The gravitational sphere of influence referenced in this class' definition is the Hill sphere: a region in which an object dominates the attraction of satellites despite gravitational perturbations.") AnnotationAssertion(rdfs:label "biosphere"@en) SubClassOf( ) @@ -26599,8 +26599,8 @@ AnnotationAssertion(owl:deprecated (hydrosphere) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Hydrosphere") "An astronomical body part which is composed of the combined mass of water found on, under, and over the surface of a planet.") -AnnotationAssertion( "envoAstro") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is a very broad and, in practice, poorly defined term. Please consider using or requesting a more specific class.") AnnotationAssertion(rdfs:label "hydrosphere"@en) SubClassOf( ) @@ -26609,7 +26609,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (pedosphere) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Pedosphere") "An astronomical body part which is composed of soil, subject to soil formation processes, and found on the surface of a lithosphere.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is a very broad and, in practice, poorly defined term. Please consider using or requesting a more specific class.") AnnotationAssertion(rdfs:label "pedosphere"@en) SubClassOf( ) @@ -26622,7 +26622,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (photosphere) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Photosphere") "An astronomical body part which is composed of those parts of a star, distal from the star's core, from which light is radiated into space.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "photosphere"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26631,7 +26631,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://dx.doi.org/10.1126/science.1155495") "A planetary part which is exposed, at least periodically, to light.") AnnotationAssertion( "photosphere") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "In some literature, the term photosphere is used; however, this is more correctly reserved for a part of a star.") AnnotationAssertion(rdfs:label "planetary photic zone"@en) SubClassOf( ) @@ -26641,7 +26641,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://dx.doi.org/10.1126/science.1155495") "An astronomical body part which includes those parts of a biosphere that are, at least periodically, illuminated and in which photosynthesis may occur.") AnnotationAssertion( "Somewhat awkward at the moment, see #314.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "illuminated biosphere part"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26696,7 +26696,7 @@ AnnotationAssertion(Annotation( "rain fall") AnnotationAssertion( "rainfall") AnnotationAssertion( "rain") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is the process which typically happens on Earth. Other planets may have different liquids involved in the process.") AnnotationAssertion(rdfs:label "water-based rainfall"@en) SubClassOf( ) @@ -26808,7 +26808,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Exosphere") Annotation( "https://en.wikipedia.org/wiki/Planetary_surface") Annotation( "https://www.mrlc.gov/nlcd11_leg.php") "An area of a planet's surface which is primarily covered by a forest in which the majority of trees maintain their foliage despite seasonal change. The surfaces of this area (including the surface of the forest canopy) are in contact with an atmospheric column extending from the planetary boundary layer to the planet's exosphere with little to no physical obstruction.") AnnotationAssertion( "evergreen forest") AnnotationAssertion( "NLCD:42") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of evergreen forest are dominated by trees generally greater than 5 meters tall, and making up more than 20% of total vegetation cover. The NLCD 2011 continues to state that more than 75% of these trees should maintain their foliage despite seasonal change - the canopy is never without green foliage. Such thresholds - which are themselves fuzzy - are not asserted in this definition.") AnnotationAssertion(rdfs:label "area of evergreen forest"@en) SubClassOf( ) @@ -26821,7 +26821,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Fog") "A visible mass of cloud water droplets or ice crystals suspended in the air at or near the surface of an astronomical body.") AnnotationAssertion( ) AnnotationAssertion( "haar") -AnnotationAssertion( "envoCryo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Fog is more opaque than mist, reducing visibility to under one kilometre. This class refers only to fog formed by materials primarily composed of water. \"Fog can be considered a type of low-lying cloud and is heavily influenced by nearby bodies of water, topography, and wind conditions. In turn, fog has affected many human activities, such as shipping, travel, and warfare.\" https://en.wikipedia.org/wiki/Fog") AnnotationAssertion(rdfs:label "fog"@en) SubClassOf( ) @@ -26846,7 +26846,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A crystal which is primarily composed of water ice.") AnnotationAssertion( "ice crystal") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Any one of a number of macroscopic, crystalline forms in which ice appears, including hexagonal columns, hexagonal platelets, dendritic crystals, ice needles, and combinations of these forms. The crystal lattice of ice is hexagonal in its symmetry under most atmospheric conditions.") AnnotationAssertion(rdfs:label "water ice crystal"@en) SubClassOf( ) @@ -26858,7 +26858,7 @@ AnnotationAssertion(Annotation( "Add quality like filamentous from PATO") AnnotationAssertion( "frost beard") AnnotationAssertion( "ice wool") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hair ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26885,7 +26885,7 @@ AnnotationAssertion(Annotation( "Not sure if this should be a subclass of crystal. If it is removed, remember to assert that it is a solid.") AnnotationAssertion( "clathrate compound material") AnnotationAssertion( "clathrate crystal material") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is not to be confused with CHEBI's \"clathrate\". The latter refers to the pure substance, while this class refers to clathrates found in nature. \"Traditionally, clathrate compounds are polymeric and completely envelop the guest molecule, but in modern usage clathrates also include host-guest complexes and inclusion compounds.\" https://en.wikipedia.org/wiki/Clathrate_compound") AnnotationAssertion(rdfs:label "clathrate material"@en) @@ -26900,7 +26900,7 @@ AnnotationAssertion( "methane hydrate") AnnotationAssertion( "methane ice") AnnotationAssertion( "natural gas hydrate") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "methane clathrate"@en) SubClassOf( ) @@ -26927,7 +26927,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (tropical marine coral reef biome) AnnotationAssertion( "A marine coral reef biome which is located in a region with a tropical climate.") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tropical marine coral reef biome"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26936,7 +26936,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Exosphere") Annotation( "https://en.wikipedia.org/wiki/Planetary_surface") Annotation( "https://www.mrlc.gov/nlcd11_leg.php") "An area of a planet's surface which is primarily covered by a forest in which the trees are a mixture between those that lose and retain their foliage despite seasonal change. The surfaces of this area (including the surface of the forest canopy) are in contact with an atmospheric column extending from the planetary boundary layer to the planet's exosphere with little to no physical obstruction.") AnnotationAssertion( "NLCD:43") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of mixed forest are dominated by trees generally greater than 5 meters tall, and making up more than 20% of total vegetation cover. The NLCD 2011 continues to state that neither deciduous or evergreen trees make up more than 75% of the total tree cover. Such thresholds - which are themselves fuzzy - are not asserted in this definition.") AnnotationAssertion(rdfs:label "area of mixed forest"@en) SubClassOf( ) @@ -26948,7 +26948,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A marginal sea biome which is located in a region with a temperate climate.") AnnotationAssertion( "A component of the WWF Temperate Shelf and seas ecoregions grouping") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "temperate marginal sea biome"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26956,7 +26956,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (temperate mediterranean sea biome) AnnotationAssertion( "A mediterranean sea biome which is subject to temperate climate patterns."@en) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "temperate mediterranean sea biome"@en) SubClassOf( ) @@ -26970,7 +26970,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (tropical marine upwelling biome) AnnotationAssertion( "A marine upwelling biome which is subject to tropical climate patterns.") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tropical marine upwelling biome"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26978,7 +26978,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (temperate marine upwelling biome) AnnotationAssertion( "A marine upwelling biome which is located in a region subject to temperate climate patterns.") -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "temperate marine upwelling biome"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -26990,7 +26990,7 @@ AnnotationAssertion(Annotation( "dwarf scrub") AnnotationAssertion( "NLCD:51") AnnotationAssertion( "area of subshrub") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of dwarf scrub are dominated by shrubs less than 20 centimeters tall with shrub canopy typically greater than 20% of total vegetation. This type is often co-associated with grasses, sedges, herbs, and non-vascular vegetation. The NLCD 2011 notes that this is intended as an Alaska only land cover. Such thresholds - which are themselves fuzzy - are not asserted in this definition.") AnnotationAssertion(rdfs:label "area of dwarf scrub"@en) SubClassOf( ) @@ -27057,7 +27057,7 @@ AnnotationAssertion(Annotation( "shrub/scrub") AnnotationAssertion( "NLCD:52") AnnotationAssertion( "area of shrub") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of scrub or shrub are dominated by shrubs; less than 5 meters tall with shrub canopy typically greater than 20% of total vegetation. This class includes true shrubs, young trees in an early successional stage or trees stunted from environmental conditions. Such thresholds - which are themselves fuzzy - are not asserted in this definition.") AnnotationAssertion(rdfs:label "area of scrub"@en) SubClassOf( ) @@ -27101,8 +27101,8 @@ SubClassOf( "https://en.wikipedia.org/wiki/Hail") "A hydrological process during which hail stones fall to the surface of an astronomical body.") AnnotationAssertion( "This is Earth-centric for the moment, other types of hail (methane etc) exist") AnnotationAssertion( "hail fall") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hailfall"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -27117,7 +27117,7 @@ SubClassOf( (storm) AnnotationAssertion( "A storm is an environmental process in which an environmental system and the processes it participates in are strongly perturbed by external forcings. These forcings typically increase the rates of processes unfolding in the system, relative to their normal rates.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The threshold of what constitutes \"strong\" perturbation is not defined here due to considerable semantic variation. If a specific threshold is required, please request a new term.") AnnotationAssertion(rdfs:label "storm"@en) SubClassOf( ) @@ -27125,7 +27125,7 @@ SubClassOf( (atmospheric storm) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Storm") "An atmospheric storm is a process in which a portion of an astronomical body's atmosphere is strongly perturbed from its prevaling weather.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric storm"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -27136,7 +27136,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An atmospheric storm which occurs in cumulonimbus clouds and during which lightning and thunder occur.") AnnotationAssertion( "electrical storm") AnnotationAssertion( "lightning storm") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Thunderstorms may or may not involve processes which result in strong winds, heavy rain, snow, sleet, hail, or other forms of precipitation.") AnnotationAssertion(rdfs:label "thunderstorm"@en) SubClassOf( ) @@ -27145,8 +27145,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (rainstorm) AnnotationAssertion( "An atmospheric storm during which intense rainfall occurs.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "rainstorm"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -27163,10 +27163,10 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hailstorm"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -27174,9 +27174,9 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (snowstorm) AnnotationAssertion( "An atmospheric storm during which intense snowfall occurs.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snowstorm"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -27201,10 +27201,10 @@ AnnotationAssertion( "silver thaw") AnnotationAssertion( "glaze event"@en) AnnotationAssertion( "silver thaw"@en) -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Icestorms are associated with multiple hazards. Significant accumulations of ice pull down trees and utility lines resulting in loss of power and communication. These accumulations of ice make walking and driving extremely dangerous. Significant ice accumulations are usually accumulations of 0.25 inch or 0.60 cm or more. Has synonyms silver storm, glaze storm."@en) AnnotationAssertion(Annotation( "Hauer RJ, Dawson JO, Werner LP (2006) Trees and Ice Storms - The Development of Ice Storm-Resistant Urban Tree Populations (2 ed.). College of Natural Resources, University of Wisconsin–Stevens Point, and the Department of Natural Resources and Environmental Sciences and the Office of Continuing Education, University of Illinois at Urbana-Champaign. http://web.extension.uiuc.edu/forestry/publications/pdf/urban_community_forestry/trees_and_ice_storms_2006.pdf") Annotation( "https://en.wikipedia.org/wiki/Ice_storm") rdfs:comment "The U.S. National Weather Service defines an ice storm as a storm which results in the accumulation of at least 0.25-inch (6.4 mm) of ice on exposed surfaces.") AnnotationAssertion(rdfs:label "icestorm"@en) @@ -27218,7 +27218,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. This would be helped by more clear listings of entities included in this classification. However, the class is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "developed, open space") AnnotationAssertion( "NLCD:21") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of developed open space are dominated by vegetation such as lawn grasses and include large-lot single-family housing units, parks, golf courses. Further, it is asserted that \"impervious surfaces\", most likely referring to concrete and related substances, cover less than 20% of the area. Such thresholds - which are themselves fuzzy - are not asserted in this definition.") AnnotationAssertion(rdfs:label "area of developed open space"@en) SubClassOf( ) @@ -27232,7 +27232,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. This would be helped by more clear listings of entities included in this classification. However, the class is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "developed, low intensity") AnnotationAssertion( "NLCD:22") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of developed space under low intensity usage are dominated by vegetation such as lawn grasses and include collections of single-family housing units. Further, it is asserted that \"impervious surfaces\", most likely referring to concrete and related substances, cover between than 20 - 49% of the area. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition.") AnnotationAssertion(rdfs:label "area of developed space with low usage intensity"@en) SubClassOf( ) @@ -27246,7 +27246,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. This would be helped by more clear listings of entities included in this classification. However, the class is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "developed, medium intensity") AnnotationAssertion( "NLCD:23") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of developed space under medium intensity usage are dominated by vegetation such as lawn grasses and include collections of single-family housing units. Further, it is asserted that \"impervious surfaces\", most likely referring to concrete and related substances, cover between than 50 - 79% of the area. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition.") AnnotationAssertion(rdfs:label "area of developed space with medium usage intensity"@en) SubClassOf( ) @@ -27260,7 +27260,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. This would be helped by more clear listings of entities included in this classification. However, the class is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "developed, high intensity") AnnotationAssertion( "NLCD:24") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, areas of developed space under high intensity usage are dominated by constructed features where humans reside and work. Examples include apartment complexes, row houses and commercial/industrial facilities. Further, it is asserted that \"impervious surfaces\", most likely referring to concrete and related substances, cover between than 80 - 100% of the area. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition.") AnnotationAssertion(rdfs:label "area of developed space with high usage intensity"@en) SubClassOf( ) @@ -27274,7 +27274,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "sedge/herbaceous") AnnotationAssertion( "NLCD:72") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 80% of these areas are covered by sedge or forbs. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition. The NLCD description also notes that land covered by sedge tundra and sedge tussock tundra are subsumed in this category. The original definition notes that this is intended as an \"Alaska only\" category.") AnnotationAssertion(rdfs:label "area of sedge- and forb-dominated herbaceous vegetation"@en) SubClassOf( ) @@ -27287,7 +27287,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "grassland/herbaceous") AnnotationAssertion( "NLCD:71") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 80% of these areas are covered by grasslands or non-woody, herbaceous plants. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition. The NLCD description also notes that, while no \"intensive\" management such as tilling is performed in these areas, they may be used for grazing.") AnnotationAssertion(rdfs:label "area of gramanoid or herbaceous vegetation"@en) SubClassOf( ) @@ -27300,8 +27300,8 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "lichens") AnnotationAssertion( "NLCD:73") -AnnotationAssertion( "envoPolar") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 80% of these areas are covered by lichens. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition. The original definition notes that this is intended as an \"Alaska only\" category.") AnnotationAssertion(rdfs:label "area of lichen-dominated vegetation"@en) SubClassOf( ) @@ -27315,7 +27315,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "moss") AnnotationAssertion( "NLCD:74") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 80% of these areas are covered by mosses. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition. The original definition notes that this is intended as an \"Alaska only\" category.") AnnotationAssertion(rdfs:label "area of moss-dominated vegetation"@en) SubClassOf( ) @@ -27328,7 +27328,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "pasture/hay") AnnotationAssertion( "NLCD:81") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 20% of these areas are covered by pasturelands or hayfields. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition. The NLCD also notes that the crops are grown on a perennial cycle in these areas.") AnnotationAssertion(rdfs:label "area of pastureland or hayfields"@en) SubClassOf( ) @@ -27343,7 +27343,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "cultivated crops") AnnotationAssertion( "NLCD:82") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 20% of these areas are covered by croplands or actively tilled land. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition. The NLCD provides corn, soybeans, vegetables, tobacco, and cotton as examples of annual crops and the trees and vines in orchards and vineyards as examples of perennial woody crops.") AnnotationAssertion(rdfs:label "area of cropland"@en) SubClassOf( ) @@ -27357,7 +27357,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "woody wetlands") AnnotationAssertion( "NLCD:90") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 20% of these areas are covered by forest or shrubland vegetation. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition.") AnnotationAssertion(rdfs:label "area of woody wetland"@en) SubClassOf( ) @@ -27372,7 +27372,7 @@ AnnotationAssertion(Annotation( "This class is in need of refinement, particularly in linking to other entities in the ontology. However, it is suitable for use in annotating remotely sensed land types.") AnnotationAssertion( "emergent herbaceous wetlands") AnnotationAssertion( "NLCD:95") -AnnotationAssertion( "nlcd2011") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "According to the NLCD 2011, at least 80% of these areas are covered by herbaceous vegetation. Such thresholds - which are themselves fuzzy - are not strictly asserted in this definition.") AnnotationAssertion(rdfs:label "area of emergent herbaceous wetland"@en) SubClassOf( ) @@ -27394,9 +27394,9 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) AnnotationAssertion( "snow fall") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snowfall"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -27419,9 +27419,9 @@ AnnotationAssertion( "freezing rain fall") AnnotationAssertion( ) AnnotationAssertion( "METAR:FZRA") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "A surface temperature inversion is usually required. In such an inversion, the surface must have a temperature below freezing, while the temperature of the atmosphere where the precipitation forms is above freezing. Alternately, if the temperature of the ground surface and glazed objects is typically near or below freezing (0C or 32F), it is necessary that the water drops be supercooled before striking. Freezing rain can sometimes occur on surfaces exposed to the air (such as tree limbs) with air temperatures slightly above freezing in strong winds. Local evaporational cooling may result in freezing. Freezing rain frequently occurs, therefore, as a transient condition between the occurrence of rain and ice pellets (sleet). When encountered by an aircraft in flight, freezing rain can cause a dangerous accretion of clear icing. In aviation weather observations, this hydrometeor is encoded ZR by NOAA."@en) AnnotationAssertion(rdfs:label "freezing rainfall"@en) SubClassOf( ) @@ -27439,7 +27439,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Lightning") "A sudden electrostatic discharge which occurs during an electrical storm as differentially charged atmospheric entities equalise their charge.") AnnotationAssertion( "lightning") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric lightning"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -27451,7 +27451,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A lightning process during which electrostatic discharge occurs between at least two clouds.") AnnotationAssertion( "CC lightning") AnnotationAssertion( "cloud-cloud lightning") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "intercloud lightning"@en) SubClassOf( ) SubClassOf(Annotation(rdfs:comment "QCR: 'has participant' min 2 cloud") ObjectSomeValuesFrom( )) @@ -27460,7 +27460,7 @@ SubClassOf(Annotation(rdfs:comment "QCR: 'has participant' min 2 cloud") "A lightning process during which electrostatic discharge occurs within a single cloud.") AnnotationAssertion( "IC lightning") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "intracloud lightning"@en) SubClassOf( ) SubClassOf(Annotation(rdfs:comment "QCR: 'has participant' max 1 cloud") ObjectSomeValuesFrom( )) @@ -27470,7 +27470,7 @@ SubClassOf(Annotation(rdfs:comment "QCR: 'has participant' max 1 cloud") "A lightning process during which electrostatic discharge occurs between a cloud and an object on a planetary surface, or a planetary surface itself.") AnnotationAssertion( "CG lightning") AnnotationAssertion( "cloud-ground lightning") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lightning strike"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -27478,7 +27478,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (lightning flash) AnnotationAssertion( "A lightning process during which electrostatic discharge occurs within a single cloud or between multiple clouds.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lightning flash"@en) SubClassOf( ) @@ -27489,10 +27489,10 @@ AnnotationAssertion( "boulbie"@en) AnnotationAssertion( "buran"@en) AnnotationAssertion( "purga"@en) -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The U.S. National Weather Service specifies sustained wind or frequent gusts of 16 m per second (30 kt or 35 mi per hour) or greater, accompanied by falling and/or blowing snow, frequently reducing visibility to less than 400 m (0.25 mi or 0.4 km) for 3 hours or longer. Earlier definitions also included a condition of low temperatures, on the order of -7C (20F) or lower, or -12C (10F) or lower (severe blizzard). The name originated in the United States but it is also used in other countries. In the Antarctic the name is given to violent autumnal winds off the ice cap. In southeastern France, the cold north wind with snow is termed blizzard (see also boulbie). Similar storms in Russian Asia are the buran and purga. In popular usage in the United States and in England, the term is often used for any heavy snowstorm accompanied by strong winds."@en) AnnotationAssertion(Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Blizzard") rdfs:comment "To qualify a snowstorm as a blizzard, some sources require the windspeed to be at least 56 km/h and the duration of the storm to be at least three hours. We set no such hard boundaries in this definition, as this should be done with reference to local standards.") AnnotationAssertion(rdfs:label "blizzard"@en) @@ -27502,8 +27502,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (ground blizzard) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Blizzard") "A ground blizzard is a storm during which snow which has settled on a planetary surface is resuspended in and transported through its atmosphere by strong winds, sustained for several hours.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Blizzard") rdfs:comment "This form of blizzard does not involve snowfall as the snow which is blown by the winds is already present on the ground. To qualify a snowstorm as a blizzard, some sources require the windspeed to be at least 56 km/h and the duration of the storm to be at least three hours. We set no such hard boundaries in this definition, as this should be done with reference to local standards.") AnnotationAssertion(rdfs:label "ground blizzard"@en) SubClassOf( ) @@ -27587,7 +27587,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Cloud_condensation_nuclei") "A solid or liquid particle, usually 0.2 micrometers in diameter, on which water vapour condenses, seeding cloud formation.") AnnotationAssertion( "CCN") AnnotationAssertion( "cloud seed") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cloud condensation nucleus"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -27610,7 +27610,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "ablation zone") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice ablation zone"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -27622,7 +27622,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "ice loss") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice loss process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -27637,7 +27637,7 @@ AnnotationAssertion( "garbage landslide") AnnotationAssertion( "refuse landslide") AnnotationAssertion( "trash landslide") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"At least 48 people have been killed in a landslide at a vast rubbish dump on the outskirts of Ethiopia's capital Addis Ababa, officials say...Hundreds of people attempt to make a living by scavenging at the landfill site, sifting through the rubbish for items they can sell, the BBC's Emmanuel Igunza in Addis Ababa reports\" BBC Africa reports") AnnotationAssertion(rdfs:label "rubbish landslide"@en) SubClassOf( ) @@ -27649,7 +27649,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion(Annotation( "https://cdn.earthdata.nasa.gov/conduit/upload/502/cf-standard-name-table_v13.txt") "calving") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice calving process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -27666,7 +27666,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://dx.doi.org/10.1038/nrmicro3522") "An ice loss process which occurs in the low-altitude area of a glacier or ice sheet below the firn layer.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial ice ablation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -27674,7 +27674,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (water ice sublimation process) AnnotationAssertion( "A sublimation process during which water ice transitions into a gaseous state.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "water ice sublimation process"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -27769,7 +27769,7 @@ AnnotationAssertion( "Should be axiomatised with PCO's migration process once it is released.") AnnotationAssertion( "migration corridor") AnnotationAssertion( "migratory route") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This term refers to the ecosystem(s) the organisms traverse, rather than the spatial track they cover. The latter is better placed in a geospatial ontology.") AnnotationAssertion(rdfs:label "migration path"@en) SubClassOf( ) @@ -27883,7 +27883,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "microplastic") -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "This classification is based on the thresholds detailed in GESAMP report # 99 on recommendation from the SDG 14 indicator team. While the definition is in accordance with the common use of this term (as per GESAMP report # 99), alternative size classifications exist. Alternative classifications are a piece of plastic which is between 1 and 5 millimetres in diameter, a piece of plastic which has a diameter less than 1 millimetre, or a piece of plastic which has a diameter greater than 330 micrometres. The use of the word diameter in this case was understood to mean the generalised form of diameter, i.e. the largest distance between two points belonging to an object."@en) AnnotationAssertion(rdfs:label "microplastic particle"@en) SubClassOf( ) @@ -27898,7 +27898,7 @@ AnnotationAssertion( "microplastica primaria"@it) AnnotationAssertion( "microplástico primario"@es) AnnotationAssertion( "microplastic") -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "primary microplastic particle"@en) SubClassOf( ) @@ -27912,7 +27912,7 @@ AnnotationAssertion( "microplastica secondaria"@it) AnnotationAssertion( "microplástico secundario"@es) AnnotationAssertion( "microplastic") -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The debris that make up the Great Pacific Garbage Patch constantly release microplastics as they break down.") AnnotationAssertion(rdfs:label "secondary microplastic particle"@en) SubClassOf( ) @@ -27949,7 +27949,7 @@ SubClassOf( "http://www.waterencyclopedia.com/Re-St/Sea-Water-Freezing-of.html") "A material transformation process during which water ice is formed.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "water ice formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -28031,7 +28031,7 @@ AnnotationAssertion(Annotation( "rocky planet") AnnotationAssertion( "telluric planet") AnnotationAssertion( "Earth-like planet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "terrestrial planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) SubClassOf( ) @@ -28181,28 +28181,28 @@ SubClassOf( (animal trap) AnnotationAssertion(Annotation( "http://www.thefreedictionary.com/trap") "A manufactured product which is designed to catch and hold animals.") -AnnotationAssertion( "envoCesab") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "animal trap"@en) SubClassOf( ) # Class: (pitfall trap) AnnotationAssertion(Annotation( "Barber H (1931) Traps for cave-inhabiting insects. J Elisha Mitchell Sci Soc. 46:259–266.") Annotation( "Hertz M (1927) Huomioita petokuoriaisten olinpaikoista. Luonnon Ystava. 31:218–222.") Annotation( "Mitchell B (1963) Ecology of two carabid beetles, Bembidion lampros (Herbst) and Trechus quadristriatus (Shrank). J Animal Ecol. 32(3): 377-392.") "An animal trap which consists of a container set flush with the ground such that animals moving along the ground may fall in and be available for examination or collection.") -AnnotationAssertion( "envoCesab") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pitfall trap"@en) SubClassOf( ) # Class: (dry pitfall trap) AnnotationAssertion(Annotation( "ISBN:978-0-646-04569-6") Annotation( "ISBN:978-94-009-1225-0") Annotation( "http://www.animalethics.org.au/policies-and-guidelines/wildlife-research/pitfall-traps") "A pitfall trap in which a glass, plastic, or metal container devoid of accumulations of any liquid is used to contain any animal that falls inside.") -AnnotationAssertion( "envoCesab") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "dry pitfall trap"@en) SubClassOf( ) # Class: (wet pitfall trap) AnnotationAssertion(Annotation( "ISBN:978-0-646-04569-6") Annotation( "ISBN:978-94-009-1225-0") Annotation( "http://www.animalethics.org.au/policies-and-guidelines/wildlife-research/pitfall-traps") "A pitfall trap in which the container used to hold trapped animals is filled with a liquid solution formulated to hold, kill, and preserve any animal or animals which falls within it.") -AnnotationAssertion( "envoCesab") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Aqueous solutions used in these traps include: formalin (10% formaldehyde), alcohol, methylated spirits, trisodium phosphate and picric acid.") AnnotationAssertion(rdfs:label "wet pitfall trap"@en) SubClassOf( ) @@ -28213,7 +28213,7 @@ AnnotationAssertion(Annotation( "ephemeral river") AnnotationAssertion( "intermittent river") AnnotationAssertion( "temporary river") -AnnotationAssertion( "envoCesab") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "channel of an intermittent river"@en) SubClassOf( ) @@ -28229,7 +28229,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (mass liquid flow) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Wind") "A process whereby a volume of liquid moves due to a disequilibrium of physical forces.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class can refer to the flow of any material in a liquid phase.") AnnotationAssertion(rdfs:label "mass liquid flow"@en) SubClassOf( ) @@ -28238,7 +28238,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (water flow process) AnnotationAssertion( "A material transport process during which a volume of liquid water is transported due to a disequilibria in physical forces."@en) -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "water flow process"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28247,7 +28247,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (technosphere) AnnotationAssertion(Annotation( "http://dx.doi.org/10.1177/2053019616677743") Annotation( "http://www.yourdictionary.com/technosphere") Annotation( "https://www.sciencedaily.com/releases/2016/11/161130085021.htm") "A part of an astronomical body which includes, as parts, all the entities which have been constructed or manufactured by humans or their technology and which are within the gravitational sphere of influence of that body.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The gravitational sphere of influence referenced in this class' definition is the Hill sphere: a region in which an object dominates the attraction of satellites despite gravitational perturbations.") AnnotationAssertion(rdfs:label "technosphere"@en) SubClassOf( ) @@ -28396,8 +28396,8 @@ SubClassOf( "An environmental system determined by the presence of a plant rhizosphere.") AnnotationAssertion(Annotation(rdfs:comment "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Plant rhizosphere") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "rhizosphere environment"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -28407,8 +28407,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An environmental system which is determined by a living organism.") AnnotationAssertion( "host-associated environment") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environmental system determined by an organism"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28419,8 +28419,8 @@ AnnotationAssertion( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Plant") AnnotationAssertion( "plant environment") AnnotationAssertion( "Viridiplantae-associated environment") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plant-associated environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -28431,9 +28431,9 @@ AnnotationAssertion( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Animal") AnnotationAssertion( "animal environment") AnnotationAssertion( "Metazoan-associated environment") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "animal-associated environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -28441,7 +28441,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (non-saline environment) AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Non-saline") -AnnotationAssertion( "envoEmpo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class (term) is defined by the lack of a quality (i.e. the lack of salinity or increased osmolarity), which is not best-practice ontologically. Use for annotation is generally discouraged and users should use classes which positively describe the material or environment sampled (i.e. stating the qualities the entity has, rather than those it does not).") AnnotationAssertion(rdfs:label "non-saline environment"@en) SubClassOf( ) @@ -28462,14 +28462,14 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Rainbow") "A lunar rainbow is a rainbow produced by the refraction of light, which has been reflected from a moon's surface, by water droplets in an astronomical body's atmosphere.") AnnotationAssertion( "moonbow") AnnotationAssertion( "white rainbow") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lunar rainbow"@en) SubClassOf( ) # Class: (rainbow) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Rainbow") "A rainbow is a photometeor which consists of a spectral separation of light, formed as a result of the reflection, refraction, and dispersion of light in water droplets suspended in an astronomical body's atmosphere.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The term 'rainbow' is usually used to refer to solar rainbows, but greater specificity should be used when possible.") AnnotationAssertion(rdfs:label "rainbow"@en) SubClassOf( ) @@ -28480,7 +28480,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Rainbow") "A solar rainbow is a rainbow produced by the refraction of light. which has been emitted by a star, by water droplets in the atmosphere of an astronomical body.") AnnotationAssertion( "stellar rainbow") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The astronomical body where the rainbow occurs is understood to orbit the star which produces the light which forms the rainbow.") AnnotationAssertion(rdfs:label "solar rainbow"@en) SubClassOf( ) @@ -28488,7 +28488,7 @@ SubClassOf( (meteor) AnnotationAssertion(Annotation( "https://cloudatlas.wmo.int/other-meteors.html") "A meteor is any matter- or energy-based entity which is located in the atmosphere of an astronomical body.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "meteor"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28497,14 +28497,14 @@ SubClassOf( "A meteor that is primarily composed of light.") AnnotationAssertion( "Requires radiative phenomena to be added for axiomatisation.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "photometeor"@en) SubClassOf( ) # Class: (hydrometeor) AnnotationAssertion(Annotation( "https://cloudatlas.wmo.int/other-meteors.html") "A meteor which is primarily composed of water.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hydrometeor"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) SubClassOf( ) @@ -28514,7 +28514,7 @@ SubClassOf( "A photometeor which is formed as a result of sudden electrostatic discharge in the atmosphere.") AnnotationAssertion( "lightning") AnnotationAssertion( "lightning flash") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This phenomenon is often treated as interchangeable with the process of electrostatic discharge that causes it.") AnnotationAssertion(rdfs:label "light emitted by lightning"@en) SubClassOf( ) @@ -28523,7 +28523,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (lithometeor) AnnotationAssertion( "A meteor which is primarily composed of rock.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lithometeor"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28532,7 +28532,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (reflection rainbow) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Rainbow") "A rainbow which forms from sunlight which has been reflected off a body of water prior to its interaction with water droplets in an atmosphere.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Not to be confused with a reflected rainbow, which is not a photometeor.") AnnotationAssertion(rdfs:label "reflection rainbow"@en) SubClassOf( ) @@ -28542,7 +28542,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Rainbow") "A solar rainbow which is formed by a narrow band of wavelengths, the rest of the spectrum having been scattered away by an atmosphere.") AnnotationAssertion( "monochrome rainbow") AnnotationAssertion( "red rainbow") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "monochrome solar rainbow"@en) SubClassOf( ) @@ -28550,7 +28550,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Rainbow") "A rainbow which forms through the interaction of sunlight with the water droplets which constitute fog or clouds; light is diffracted by these droplets such that the photometeor appears almost white with faint reds on the sky-facing side and faint blues on the planet-facing side of the bow.") AnnotationAssertion( "fog bow") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Often, fogbows are treated as separate from rainbows; however, as the formation processes are much the same, we currently classify these as a subclass of rainbow pending input from domain experts.") AnnotationAssertion(rdfs:label "fogbow"@en) SubClassOf( ) @@ -28559,7 +28559,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (glory) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Glory_(optical_phenomenon)") "A photometeor which is formed by wave interference of light refracted within water droplets which constitute mist or clouds and consists of one or more concentric, successively dimmer rings, each of which has red wavelengths distant to the glory's centre and blue wavelengths towards the centre.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is not to be confused with a circular rainbow, which is formed through different processes.") AnnotationAssertion(rdfs:label "glory"@en) SubClassOf( ) @@ -28567,7 +28567,7 @@ SubClassOf( (halo) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Halo_(optical_phenomenon)") "A photometeor which is produced by light that is reflected, refracted, and dispersed by ice crystals, capable of acting as prisms and mirrors, suspended in an astronomical body's atmosphere.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "halo"@en) SubClassOf( ) @@ -28615,8 +28615,8 @@ SubClassOf( ObjectComplementOf( "https://en.wikipedia.org/wiki/Radiation") "A process during which energy is emitted or transmitted in the form of waves or particles through space or a material medium.") AnnotationAssertion( "Requires addition of waves for full axiomatisation. This should be linked to \"subatomic particle\" with an \"or\". Note that ENVO represents space as an environmental material (a hard vacuum with sparse material inclusions).") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "radiation"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -28625,16 +28625,16 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (particle radiation) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Particle_radiation") "A radiation process during which energy is transmitted or emitted by means of fast-moving subatomic particles.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "particle radiation"@en) SubClassOf( ) # Class: (particle beam radiation) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Particle_radiation") "A particle radiation process during which subatomic particles move in the same direction.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "particle beam radiation"@en) SubClassOf( ) @@ -28642,8 +28642,8 @@ SubClassOf( "https://en.wikipedia.org/wiki/Electromagnetic_radiation") "A radiation process during which waves (or their quanta, photons) of the electromagnetic field propagate (radiate) through space carrying electromagnetic energy.") AnnotationAssertion( "EM radiation") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that this class is concerned only with active radiative processes: static electric and magnetic fields are not inlcuded. All electromagnetic radiation carries radiant energy.") AnnotationAssertion(rdfs:label "electromagnetic radiation"@en) SubClassOf( ) @@ -28651,7 +28651,7 @@ SubClassOf( (acoustic radiation) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Acoustics") Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Mechanical_wave") Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Vibration") "A radiation process during which mechanical waves generated by oscillations radiate through an environmental material.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The mechanical waves generated by this process are also referred to as pressure waves.") AnnotationAssertion(rdfs:label "acoustic radiation"@en) SubClassOf( ) @@ -28659,8 +28659,8 @@ SubClassOf( (sediment permeated by freshwater) AnnotationAssertion( "Sediment which has its porespace filled by water which has very low levels of sodium chloride and/or other salts.") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "We do not specify numeric thresholds for saline vs. non-saline here, as this is variable. Consider specifying this on the information and/or data layer for your purposes. If you require an ENVO class with a fixed threshold, please request one using our issue tracker.") AnnotationAssertion(rdfs:label "sediment permeated by freshwater"@en) SubClassOf( ) @@ -28670,9 +28670,9 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An environmental system which has its properties and dynamics determined by feces.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") Annotation(rdfs:comment "The label of this EMPO class is ambiguous, but pers. comm. with L Thompson (http://orcid.org/0000-0002-3911-1280) reveals that this is essentially limited to fecal samples.") "Animal distal gut") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fecal environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28681,9 +28681,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a bodily secretion of a metazoan.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Animal secretion") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a metazoan secretion"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28692,9 +28692,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a substance produced by a plant.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Plant secretion") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a plant substance"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28703,9 +28703,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a biofilm on the surface of a plant.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Plant surface") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a biofilm on a plant surface"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))))) @@ -28713,9 +28713,9 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "An environmental system which has its properties and dynamics determined by a digestive tract.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") Annotation(rdfs:comment "This EMPO class includes examples of microbial environments determined by the \"gut intestine, gizzard, crop, lumen, [and] mucosa\".") "Animal proximal gut") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "digestive tract environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28724,9 +28724,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a biofilm on the surface of a animal.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Animal surface") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a biofilm on an animal surface"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -28734,17 +28734,17 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "An environmental system which has its properties and dynamics determined by a biofilm on the surface of a fungus.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Fungus surface") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a biofilm on a fungal surface"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))))) # Class: (sediment permeated by saline water) AnnotationAssertion( "Sediment which has its porespace filled by water with increased levels of sodium chloride and other salts.") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "We do not specify numeric thresholds for saline vs. non-saline here, as this is variable. Consider specifying this on the information and/or data layer for your purposes. If you require an ENVO class with a fixed threshold, please request one using our issue tracker.") AnnotationAssertion(rdfs:label "sediment permeated by saline water"@en) SubClassOf( ) @@ -28796,7 +28796,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An environment which is determined by materials which bear significant concentrations of salts.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Saline") -AnnotationAssertion( "envoEmpo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The thresholds for \"significant\" concentrations of salts vary widely and thus no committment is made in this class. Subclasses with more explicit thresholds can be made upon request.") AnnotationAssertion(rdfs:label "saline environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectUnionOf(ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( )))))) @@ -28810,9 +28810,9 @@ AnnotationAssertion( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Fungus") AnnotationAssertion( "fungus environment") AnnotationAssertion( "fungus-associated environment") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fungi-associated environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -28821,8 +28821,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An environmental system which has its properties and dynamics determined by sterile water.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Negative") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This term can be understood as a negative experimental control primarily composed of sterile water. The quantity of sterile water used may be contaminated; to express pure sterile water, please use http://purl.obolibrary.org/obo/ENVO_00005791") AnnotationAssertion(rdfs:label "sterile water environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -28833,9 +28833,9 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An environmental system which has its properties and dynamics determined by hypersaline water.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") Annotation(rdfs:comment "Examples inlcude water from hypersaline samples or brines (>50 psu)") "Hypersaline (saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hypersaline water environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28844,8 +28844,8 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by soil.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Soil (non-saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "soil environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28862,9 +28862,9 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (planetary subsurface environment) AnnotationAssertion( "An environmental system which has its properties and dynamics determined by the subsurface zone of a planet.") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "planetary subsurface environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28873,9 +28873,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by those parts of a planetary subsurface zone which are not saline.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Subsurface (non-saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "non-saline planetary subsurface environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectComplementOf(ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))))) SubClassOf( ) @@ -28883,8 +28883,8 @@ SubClassOf( (sediment environment) AnnotationAssertion( "An environmental system which has its properties and dynamics determined by sediment.") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sediment environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28893,8 +28893,8 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by sediment permeated by non-saline water.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Sediment (non-saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "non-saline sediment environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28903,8 +28903,8 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by sediment permeated by saline water.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Sediment (saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "saline sediment environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28913,17 +28913,17 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a biofilm on a surface which is exposed to non-saline materials.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Surface (non-saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a biofilm on a non-saline surface"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectComplementOf(ObjectSomeValuesFrom( )))))))) # Class: (aerosol environment) AnnotationAssertion( "An environmental system which has its properties and dynamics determined by an aerosol.") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aerosol environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -28932,8 +28932,8 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a saline aerosol.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") Annotation(rdfs:comment "seaspray or other aerosolized saline material (>5 psu)") "Aerosol (saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "saline aerosol environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -28942,8 +28942,8 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by an aerosol with a low concentration of dissolved solutes.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") Annotation(rdfs:comment "aerosolized dust or liquid") "Aerosol (non-saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "non-saline aerosol environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectComplementOf(ObjectUnionOf(ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))))))) SubClassOf( ) @@ -28952,9 +28952,9 @@ SubClassOf( "An environmental system determined by part of a living or dead animal, or a whole small animal.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Animal corpus") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment associated with an animal part or small animal"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( ObjectIntersectionOf( ObjectSomeValuesFrom( )))))) SubClassOf( ) @@ -28963,9 +28963,9 @@ SubClassOf( "An environmental system which has its properties and dynamics determined by a biofilm on a surface which is exposed to saline materials.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Surface (saline)") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment determined by a biofilm on a saline surface"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))))) @@ -28973,9 +28973,9 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "An environmental system determined by part of a living or dead plant, or a whole small plant.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Plant corpus") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment associated with a plant part or small plant"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( ObjectIntersectionOf( ObjectSomeValuesFrom( )))))) @@ -28983,9 +28983,9 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "An environmental system determined by part of a living or dead fungus.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Fungus corpus") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment associated with a fungal tissue"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -28993,8 +28993,8 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "A cell culture which is composed of a microbial community of known composition.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Mock community") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Mock communities are typically used as positive controls in experiments.") AnnotationAssertion(rdfs:label "mock community culture"@en) SubClassOf( ) @@ -29004,8 +29004,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A cell culture which is composed of a single population of bacterial or archaeal cells.") AnnotationAssertion(Annotation( "http://press.igsb.anl.gov/earthmicrobiome/protocols-and-standards/emp-ontology-empo/") "Single strain") -AnnotationAssertion( "envoEmpo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "single strain cell culture"@en) SubClassOf( ) @@ -29069,7 +29069,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (meteoroid) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Meteoroid") "An astronomical body which is composed of rocky or metallic materials and is considerably smaller than asteroids.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "meteoroid"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -29214,7 +29214,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Particulates") "An aerosol formation process which occurs in an atmosphere.") AnnotationAssertion( "atmospheric aerosol formation") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric aerosol formation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -29223,7 +29223,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Particulates") "A process during which an aerosol, consisting of solid particulates suspended in a gas, is formed in an atmosphere.") AnnotationAssertion( "formation of solid particles in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "formation of a solid aerosol in an atmosphere"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -29234,7 +29234,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Particulates") "A process during which an aerosol, consisting of droplets of liquid suspended in gas, is formed in an atmosphere.") AnnotationAssertion( "formation of liquid droplets in an atmosphere") AnnotationAssertion( "formation of liquid particles in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "formation of a liquid aerosol in an atmosphere"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -29245,7 +29245,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Aerosol") "An aerosol which has non-gaseous parts that are primarily composed of liquid droplets.") AnnotationAssertion( "SWEETRealm:Aerosol") AnnotationAssertion( "liquid aerosol") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aerosolised liquids"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -29257,7 +29257,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Aerosol") "An aerosol which has non-gaseous parts that are primarily composed of solid particles.") AnnotationAssertion( "SWEETRealm:Aerosol") AnnotationAssertion( "solid aerosol") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aerosolised solids"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -29271,7 +29271,7 @@ AnnotationAssertion( "formation of a solid aerosol in an atmosphere") AnnotationAssertion( "formation of a solid aerosol in the atmosphere") AnnotationAssertion( "formation of solid particles from gaseous material in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "formation of a solid aerosol from gaseous material in an atmosphere"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -29284,7 +29284,7 @@ AnnotationAssertion( "formation of a liquid aerosol in the atmosphere") AnnotationAssertion( "formation of liquid droplets from gaseous material in an atmosphere") AnnotationAssertion( "formation of liquid particles from gaseous material in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "formation of a liquid aerosol from gaseous material in an atmosphere"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -29403,7 +29403,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Rift") "A compound astronomical body part in which extensional tectonic processes occur and where the lithosphere is being pulled apart.") AnnotationAssertion( ) AnnotationAssertion( "rift") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "rift zone"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -29435,7 +29435,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mass_wasting") "A rockslide is a process whereby a large mass of rock moves down a hill or a mountainside.") AnnotationAssertion( "rockslip") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "rockslide process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -29540,7 +29540,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (gas planet) AnnotationAssertion(Annotation( "http://solarsystem.nasa.gov/planets/whatisaplanet") Annotation( "https://en.wikipedia.org/wiki/List_of_planet_types") Annotation( "https://en.wikipedia.org/wiki/Planet") "A planet which is primarily composed of hydrogen and helium.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Gas giants are composed of about 90% hydrogen and helium. Jupiter and Saturn are examples of gas giants.") AnnotationAssertion(rdfs:label "gas planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf(ObjectUnionOf( ) ObjectSomeValuesFrom( ))))) @@ -29550,7 +29550,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (dwarf gas planet) AnnotationAssertion(Annotation( "http://solarsystem.nasa.gov/planets/whatisaplanet") Annotation( "https://en.wikipedia.org/wiki/Gas_dwarf") Annotation( "https://en.wikipedia.org/wiki/List_of_planet_types") Annotation( "https://en.wikipedia.org/wiki/Planet") "A gas planet which 1) is considerably smaller than a gas giant and 2) has a rocky core around which a thick envelope primarily composed of hydrogen, helium, and smaller proportions of volatiles.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Gas_dwarf") rdfs:comment "The physical make-up of gas dwarfs limit their size, which gravitate towards a total radius between 1.7 and 3.9 Earth-radii.") AnnotationAssertion(rdfs:label "dwarf gas planet"@en) SubClassOf( ) @@ -29560,7 +29560,7 @@ SubClassOf( "http://solarsystem.nasa.gov/planets/whatisaplanet") Annotation( "https://en.wikipedia.org/wiki/Gas_giant") Annotation( "https://en.wikipedia.org/wiki/List_of_planet_types") Annotation( "https://en.wikipedia.org/wiki/Planet") "A gas planet which has mass and size comparable to Jupiter and Saturn.") AnnotationAssertion( "The definition should be revised to avoid relativisation to instances.") AnnotationAssertion( "gas giant") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "giant gas planet"@en) SubClassOf( ) @@ -29576,7 +29576,7 @@ SubClassOf(Annotation(rdfs:seeAlso "https://github.com/EnvironmentOntology/envo/ AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ice_giant") "An astrogeological volatile which is composed primarily of chemical compounds with freezing points above an approximate threshold of 100 Kelvin.") AnnotationAssertion( "ice") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is a term native to the fields of planetary science and astrophysics. Water, ammonia, and methane are considered \"ices\" with freezing points of 273 K, 195 K, and 91 K, respectively.") AnnotationAssertion(rdfs:label "astrogeological ice"@en) SubClassOf( ) @@ -29584,7 +29584,7 @@ SubClassOf( (ice giant) AnnotationAssertion(Annotation( "http://solarsystem.nasa.gov/planets/whatisaplanet") Annotation( "https://en.wikipedia.org/wiki/Ice_giant") Annotation( "https://en.wikipedia.org/wiki/List_of_planet_types") Annotation( "https://en.wikipedia.org/wiki/Planet") "A giant planet which is primarily composed of elements heavier than hydrogen and helium, volatile chemical compounds with freezing points above about 100 Kelvin.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Uranus and Neptune are considered ice giants, a separate class relative to the gas giants, Jupiter and Saturn. Ice giants consist of only about 20% hydrogen and helium in mass. A large portion of the mass in an ice giant was incorporated by the capture of ice (as defined in planetary science) or as gas trapped in water ice.") AnnotationAssertion(rdfs:label "ice giant"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -29594,7 +29594,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Gas_dwarf") Annotation( "https://en.wikipedia.org/wiki/Mini-Neptune") "A gas planet which has an atmosphere composed of hydrogen and helium - probably with deep layers of ice, rock or liquid oceans (made of water, ammonia, a mixture of both, or heavier volatiles) - and a small core made of low-density volatiles.") AnnotationAssertion( "transitional planet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "These planets have a mass up to 10 Earth masses, notably smaller than Uranus or Neptune, which are about 14.5 and 17 Earth masses, respectively.") AnnotationAssertion(rdfs:label "mini-Neptune"@en) SubClassOf( ) @@ -29602,7 +29602,7 @@ SubClassOf( (super-Jupiter) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Super-Jupiter") "An astronomical object which is more massive than the planet Jupiter.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Due to their immense size, super-Jupiter class objects straddle the space between planets and other objects such as brown dwarfs. While they may be more massive than Jupiter, super-Jupiters tend to be the same approximate size, with increasing density as their mass increases up to about 80 Jupiter masses.") AnnotationAssertion(rdfs:label "super-Jupiter"@en) SubClassOf( ) @@ -29610,7 +29610,7 @@ SubClassOf( (gravitational motion) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Gravity") "A process during which one or more entities move along geodesics in a region of spacetime that has been sufficiently curved towards an entity with sufficient mass and/or energy.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "gravitational motion"@en) SubClassOf( ) @@ -29622,7 +29622,7 @@ AnnotationAssertion( "pegasean planet") AnnotationAssertion( "pegasid") AnnotationAssertion( "roaster planet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Hot_Jupiter") rdfs:comment "It is assumed that the mass of a hot Jupiter cannot be greater than approximately 13.6 Jupiter masses, beyond which the planet would start burning deuterium and become a brown dwarf.") AnnotationAssertion(rdfs:label "hot Jupiter"@en) SubClassOf( ) @@ -29632,21 +29632,21 @@ SubClassOf( "https://en.wikipedia.org/wiki/Hot_Neptune") "A gas planet which has a mass similar to that of Neptune or Uranus and which closely orbits its star (normally at a distance less than 1 Astronomical Unit).") AnnotationAssertion( "Whether this should be classified as a gas planet or an ice giant must be explored.") AnnotationAssertion( "hoptune") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hot Neptune"@en) SubClassOf( ) # Class: (mega-Earth) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mega-Earth") "A terrestrial exoplanet which is at least ten times the mass of Earth.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mega-Earth"@en) SubClassOf( ) # Class: (super-Earth) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Super-Earth") "A terrestrial planet which has a mass higher than Earth's, but substantially below the masses of Uranus and Neptune (15 and 17 Earth masses, respectively).") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The upper bound of a super-Earth's mass is generally agreed on as 10 Earth masses. In general, super-Earths are defined exclusively by their masses, and the term does not imply temperatures, compositions, orbital properties, habitability, or environments.") AnnotationAssertion(rdfs:label "super-Earth"@en) SubClassOf( ) @@ -29655,7 +29655,7 @@ SubClassOf( "A terrestrial planet which has a surface dominated by hot deserts.") AnnotationAssertion( "dry planet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class of planet is still mostly theoretical.") AnnotationAssertion(rdfs:label "desert planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))))) @@ -29668,7 +29668,7 @@ AnnotationAssertion( "aquaplanet") AnnotationAssertion( "panthalassic planet") AnnotationAssertion( "water world") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "While this planetary form is still mostly theoretical, strong candidates exist such as the extrasolar planet GJ 1214 b and ocean planet candidate Kepler-22b.") AnnotationAssertion(rdfs:label "ocean planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -29678,7 +29678,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Ice_planet") "A planet which has a surface layer that nearly completely or completely covered by ice, and which has a substantial portion of its mass composed of ice.") AnnotationAssertion( "cryoplanet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ice_planet") rdfs:comment "While this planetary form is still mostly theoretical, strong candidates exist such as OGLE-2005-BLG-390Lb, OGLE-2013-BLG-0341L b and MOA-2007-BLG-192Lb. Pluto was considered an ice planet until its reclassification in 2006 CE. Surface temperatures of ice planets would have to be below 260 K (−13°C) if composed primarily of water, below 180 K (−93°C) if primarily composed of CO2 and ammonia, and below 80 K (−193°C) if composed primarily of methane.") AnnotationAssertion(rdfs:label "ice planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -29688,14 +29688,14 @@ SubClassOf( "https://en.wikipedia.org/wiki/Ice") "Ice which is primarily composed of carbon dioxide.") AnnotationAssertion( "dry ice") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "carbon dioxide ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) # Class: (methane ice) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ice") "Ice which is primarily composed of methane.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "methane ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -29703,14 +29703,14 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (ammonia ice) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ice") "Ice which is primarily composed of ammonia.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ammonia ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) # Class: (carbon monoxide ice) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Ice") "Ice which is primarily composed of carbon monoxide.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "carbon monoxide ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -29718,7 +29718,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Iron_planet") "A planet which in primarily composed of an iron-rich core with little to no mantle") AnnotationAssertion( "cannonball planet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Iron_planet") rdfs:comment "Mercury is the largest iron planet in the Solar System, the other terrestrial planets being composed of silicate rocks. Some extrasolar planet candidates that may be composed mainly of iron are KOI-1843 b,[5] Kepler-70b and Kepler-10b.") AnnotationAssertion(rdfs:label "iron planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))))) @@ -29727,7 +29727,7 @@ SubClassOf( (lava planet) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Lava_planet") "A planet which has a surface layer that nearly completely or completely covered by lava, and which has a substantial portion of its mass composed of lava.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Lava_planet") rdfs:comment "This class of planets is still mostly theoretical, however, lava planets are thought plausible shortly after a terrestrial planet is formed, soon after a terrestrial planet has suffered a large collision event, or if a terrestrial planet is orbiting very close to its star, causing intense irradiation and tidal forces. Likely lava exoplanets include COROT-7b, Kepler-10b, Alpha Centauri Bb, and Kepler-78b.") AnnotationAssertion(rdfs:label "lava planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -29736,7 +29736,7 @@ SubClassOf( (sub-Earth) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sub-Earth") "A terrestrial planet which has a mass smaller than Earth's, such that 1) it lacks a magnetic field strong enough to shield its atmosphere from erosion by stellar wind and 2) it has comparatively short periods of geological activity unless it is subject to gravitational tidal forces from a much more massive object.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sub-Earth") rdfs:comment "The first sub-Earths were discovered by the Kepler Orbiting Observatory space telescope on 2012-01-10, orbiting the star Kepler-42. As of June 2014, Kepler has 45 confirmed planets that are smaller than Earth, with 17 of them being smaller than 0.8 Earth radii. In addition, there are over 310 planet candidates with an estimated radius of less than 1 Earth radius, with 135 of them being smaller than 0.8 Earth radii.") AnnotationAssertion(rdfs:label "sub-Earth"@en) SubClassOf( ) @@ -29746,7 +29746,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Chthonian_planet") "A planet which is formed as a result of a gas giant's hydrogen and helium atmosphere, as well as its outer layers, being stripped away by a stellar wind through photoevaporation and hydrodynamic escape.") AnnotationAssertion( "") AnnotationAssertion( "cthonian planet") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Chthonian_planet") rdfs:comment "This class is largely theoretical, however, some likely candidates exist. HD 209458 b and Gliese 436b are examples of a gas giants that are in the process of having their atmospheres stripped away. COROT-7b is the first exoplanet found that might be chthonian.") AnnotationAssertion(rdfs:label "chthonian planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ObjectIntersectionOf(ObjectUnionOf( ) ObjectSomeValuesFrom( ))))) @@ -29755,7 +29755,7 @@ SubClassOf( (photoevaporation) AnnotationAssertion(Annotation( "arXiv:1604.05220") Annotation( "https://en.wikipedia.org/wiki/Chthonian_planet#cite_note-4") Annotation( "https://en.wikipedia.org/wiki/Photoevaporation") "A process during which energetic radiation ionises gas and causes it to disperse away from the ionising source.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This process is responsible for the stripping away of gases from the atmosphere of planets and related bodies by acceleration on interaction with high energy photons and other electromagnetic radiation.") AnnotationAssertion(rdfs:label "photoevaporation"@en) SubClassOf( ) @@ -29766,7 +29766,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Helium_planet") "A gas planet which has an atmosphere composed primarily of helium.") AnnotationAssertion( "The placement of this class assumes that some traces of hydrogen are left in the atmosphere. If this is not the case, the axiom on gas planet must be updated.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Helium_planet") rdfs:comment "A helium planet might form via hydrogen evaporation from a gaseous planet orbiting close to a star. Low-mass white dwarfs may transition into objects which are essentially helium planets by hydrogen depletion through mass transfer to a massive object such as a neutron star. Gliese 436 b is a candidate helium planet.") AnnotationAssertion(rdfs:label "helium planet"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -29775,7 +29775,7 @@ SubClassOf( (planetesimal) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Planetesimal") "An astronomical body which 1) is held together by its own gravity, 2) can attract other, similar bodies through mutual gravitational influence, and 3) has orbital dynamics that are not significantly affected by gas drag.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Planetesimal") rdfs:comment "In the Solar nebula, planetesimals are usually larger than approximately 1 kilometer.") AnnotationAssertion(rdfs:label "planetesimal"@en) SubClassOf( ) @@ -29785,7 +29785,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Protoplanet") "An astronomical object that forms within a protoplanetary disc when planetesimals and other solid debris aggregate and, due to gravitational forces, fuse and initiate internal melting to produce a differentiated interior.") AnnotationAssertion( "State that this is derived from a collection of planetesimals.") AnnotationAssertion( "planetary embryo") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Protoplanet") rdfs:comment "Protoplanets are thought to form out of kilometer-sized planetesimals that gravitationally perturb each other's orbits and collide, gradually coalescing into the dominant planets. The exact sequence of events which lead to planetary formation from protoplanets is not fully understood.") AnnotationAssertion(rdfs:label "protoplanet"@en) SubClassOf( ) @@ -29793,7 +29793,7 @@ SubClassOf( (protoplanetary disk) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Protoplanetary_disk") "An astronomical object which is composed of dense gas and dust rotating around a young newly formed star, a T Tauri star, or a Herbig Ae/Be star in a disk-shaped configuration.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "protoplanetary disk"@en) EquivalentClasses( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) SubClassOf( ) @@ -29804,7 +29804,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Proplyd") Annotation( "https://en.wikipedia.org/wiki/Protoplanetary_disk") "A protoplanetary disk which is externally illuminated and undergoing photoevaporation.") AnnotationAssertion( "ionized protoplanetary disk") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "proplyd"@en) EquivalentClasses( ObjectSomeValuesFrom( )) SubClassOf( ) @@ -29814,14 +29814,14 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (mesoplanet) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Mesoplanet") "A planet which is smaller than Mercury but larger than Ceres.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mesoplanet"@en) SubClassOf( ) # Class: (circumbinary planet) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Circumbinary_planet") "A planet which orbits two stars.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Circumbinary_planet") rdfs:comment "Because of the short orbits of some binary stars, the only way for planets to form is by forming outside the orbit of the two stars.") AnnotationAssertion(rdfs:label "circumbinary planet"@en) SubClassOf( ) @@ -29831,7 +29831,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Volatiles") "A material which is composed primarily of chemical elements and compounds with relatively low boiling points, equilibrium condensation temperatures below 1300 Kelvin, and which are part of the crust or atmosphere of a moon or planet.") AnnotationAssertion( "Add and axiomatise with moon and lunar crust") AnnotationAssertion( "volatile") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Volatiles") rdfs:comment "Examples include nitrogen, water, carbon dioxide, ammonia, hydrogen, methane and sulfur dioxide. In astrogeology, these compounds, in their solid state, often comprise large proportions of the crusts of moons and dwarf planets.") AnnotationAssertion(rdfs:label "volatile astrogeological material"@en) SubClassOf( ) @@ -29841,7 +29841,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Volatiles") "An astrogeological volatile which is composed primarily of chemical compounds with boiling points around those of hydrogen and helium.") AnnotationAssertion( "gas") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is a term native to the fields of planetary science and astrophysics. Hydrogen has a boiling point of 20.271 Kelvin and a melting point of 13.99 Kelvin. Helium has a boiling point of 4.222 Kelvin and a melting point of 0.95 Kelvin.") AnnotationAssertion(rdfs:label "astrogeological gas"@en) SubClassOf( ) @@ -29851,7 +29851,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Refractory_(planetary_science)") "A material which is composed primarily of chemical elements and compounds which have equilibrium condensation temperatures above approximately 1300 Kelvin and which are part of the crust or atmosphere of a moon or planet.") AnnotationAssertion( "Add and axiomatise with moon and lunar crust") AnnotationAssertion( "refractory material") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Refractory_(planetary_science)") rdfs:comment "The refractory group includes elements and compounds like metals and silicates (commonly termed rocks) which make up the bulk of the mass of the terrestrial planets and asteroids in the inner belt.") AnnotationAssertion(rdfs:label "refractory astrogeological material"@en) SubClassOf( ) @@ -29859,7 +29859,7 @@ SubClassOf( (atmospheric escape) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Atmospheric_escape") "A process during which gases that constitute a planetary atmosphere escape that planet's gravitational field and move away into outer space.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric escape"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -29869,7 +29869,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (hydrodynamic escape) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Atmospheric_escape") "An atmospheric escape process during which atoms that are parts of a planetary atmosphere escape into outer space through numerous collisions with lighter atoms in that atmosphere.") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hydrodynamic escape"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -29878,7 +29878,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (cirrus homogenitus cloud) AnnotationAssertion(Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") Annotation(rdfs:comment "https://cloudatlas.wmo.int/clouds-genera.html") Annotation(rdfs:comment "https://cloudatlas.wmo.int/homogenitus.html") "A cloud which is cirriform and is formed by condensation events centred on an aircraft's contrail.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cirrus homogenitus cloud"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -29892,8 +29892,8 @@ AnnotationAssertion( "(Eis)-Federwolke"@de) AnnotationAssertion( "Cirruswolke"@de) AnnotationAssertion( "Zirruswolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "When present in aggregates, individual cirrus clouds are organised in patches or narrow bands. When organised in sheets of fibres they can give a silky sheen. When well-illuminated by sunlight (excluding during sunrise and sunset) cirrus clouds appear white or mostly white. Absence of any precipitation."@en) AnnotationAssertion(rdfs:label "cirrus cloud"@en) SubClassOf( ) @@ -29905,7 +29905,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (obsolete newCloud) AnnotationAssertion(Annotation( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "OBSOLETE A cloud which") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "created in error") AnnotationAssertion(rdfs:label "obsolete newCloud"@en) AnnotationAssertion(owl:deprecated "true"^^xsd:boolean) @@ -30037,8 +30037,8 @@ SubClassOf( "An environment which has its properties and composition largely determined by the presence of a metazoan which lacks a vetebral column and which has a habitat that is found in an aquatic environmental system.") AnnotationAssertion(Annotation(rdfs:comment "Not currently live, may need to be switched to alternative PURLs.") "http://purl.jp/bio/11/meo/MEO_0000871") -AnnotationAssertion( "envoMeo") -AnnotationAssertion( "envoOmics") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "environment associated with an aquatic invertebrate"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf(ObjectIntersectionOf( ObjectComplementOf()) ObjectSomeValuesFrom( ObjectSomeValuesFrom( )))))) @@ -30062,7 +30062,7 @@ SubClassOf( (cnidarian-associated environment) AnnotationAssertion( "An environmental system determined by a cnidarian or part of a cnidarian.") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cnidarian-associated environment"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -30071,7 +30071,7 @@ SubClassOf( "An environment which has its properties and composition determined by a portion of Bondon cheese.") AnnotationAssertion( "This class was cross-axiomatised with FOODON, but recent changes in FOODON's alignment (e.g. Bondon cheese as a subclass of an information artifact) have caused reasoning errors. We await FOODON to stabilise these semantics before attempting a reimport and will work with them to this end.") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "Bondon cheese environment"@en) SubClassOf( ) @@ -30415,8 +30415,8 @@ AnnotationAssertion(Annotation( "NCIT:C44445") AnnotationAssertion( "solar radiation") AnnotationAssertion(Annotation( "NCIT:C44445") "solar radiation") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -30427,7 +30427,7 @@ AnnotationAssertion( ) Annotation( "https://en.wikipedia.org/wiki/Microwave") "A stellar radiation process during which electromagnetic waves or their quanta are emitted from a star at wavelengths and frequencies which travel exclusively in a line-of-sight fashion and which may produce molecular rotation and torsion on contact with matter.") AnnotationAssertion( "microwave solar radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This definition focuses on the properties of microwaves rather than their wavelength or frequency limits. Considerable ambiguity exists around the wavelength and frequency thresholds of microwaves. The ISO 21348 definition bounds these waves at 1 mm and 15 mm, with frequencies between 100 GHz and 0.225 GHz.") AnnotationAssertion(rdfs:label "microwave stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30438,7 +30438,7 @@ AnnotationAssertion( ) Annotation( "https://en.wikipedia.org/wiki/Radio_wave") "A stellar radiation process during which electromagnetic waves or their quanta are emitted from a star at wavelengths ranging from millimetre to kilometer scales.") AnnotationAssertion( "radio wave solar radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "As with microwaves, considerable variation exists in the delimitation of frequency and wavelength thresholds for radiowaves. The ISO 21348 standard allows a wavelength range of 0.10 mm to 100 m and a frequency range of 300 GHz to 3 MHz. However, much lower thresholds also exist.") AnnotationAssertion(rdfs:label "radio wave stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30450,7 +30450,7 @@ AnnotationAssertion( "infra-red stellar radiation") AnnotationAssertion( "infrared solar radiation") AnnotationAssertion( "IR stellar radiation") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "infrared stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30460,7 +30460,7 @@ AnnotationAssertion(Annotation( "optical stellar radiation") AnnotationAssertion( "visible spectrum solar radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "visible spectrum stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30471,8 +30471,8 @@ AnnotationAssertion( "NCIT:C17231") AnnotationAssertion( "ultraviolet solar radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ultraviolet stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30483,8 +30483,8 @@ AnnotationAssertion(Annotation( "x ray stellar radiation") AnnotationAssertion( "X-ray solar radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/X-ray#Energy_ranges") rdfs:comment "Ambiguity exists in the definition of x-rays and their differentiation from gamma rays. Photons with sufficient energy to be classified as x-rays may be emitted by other processes than electrons falling to lower energy states. Most x-rays have wavelengths ranging from 0.01 to 10 nanometers, corresponding to frequencies in the range of 30 petahertz to 30 exahertz and energies in the range of 100 eV to 100 keV.") AnnotationAssertion(rdfs:label "X-ray stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30494,8 +30494,8 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Gamma_ray") "A stellar radiation process during which penetrating electromagnetic radiation is emitted from the radioactive decay (gamma decay) of atomic nuclei.") AnnotationAssertion( "gamma-ray solar radiation") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Gamma_ray") rdfs:comment "Ambiguity exists in the definition of gamma rays. As a rule of thumb, gamma rays have energies above 100 keV, frequencies above 10 exahertz, and wavelengths less than 10 picometers. However, regardless of the energy released, electromagnetic radiation from radioactive decay of atomic nuclei is referred to as \"gamma rays\". In astronomy, however, gamma rays are defined by their energy, and no production process needs to be specified.") AnnotationAssertion(rdfs:label "gamma-ray stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30506,7 +30506,7 @@ AnnotationAssertion(Annotation( "ionising stellar radiation") AnnotationAssertion( "ionising solar radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ionizing stellar radiation"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -30878,7 +30878,7 @@ AnnotationAssertion( "Abfallentsorgungsprozess"@de) AnnotationAssertion( "proceso de eliminación de residuos"@es) AnnotationAssertion( "processo di smaltimento rifiuti"@it) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "waste disposal process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -31090,7 +31090,7 @@ SubClassOf( (industrial fire) AnnotationAssertion( "A fire which occurs in an industrial area or building.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "industrial fire"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -31107,7 +31107,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (brush fire) AnnotationAssertion( "A land fire which consumes low-growing plants such as scrub and brush.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "brush fire"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -31115,7 +31115,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (bush fire) AnnotationAssertion( "A land fire which occurs in a large uncleared or sparsely settled area (as in Australia) usually scrub-covered or forested.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"Bush\" is a rather loosely defined regional term, primarily used in Australia.") AnnotationAssertion(rdfs:label "bush fire"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -31124,7 +31124,7 @@ SubClassOf( (pasture fire) AnnotationAssertion( "A fire which occurs in a pastureland.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pasture fire"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) SubClassOf( ) @@ -31132,7 +31132,7 @@ SubClassOf( (land fire) AnnotationAssertion( "A fire which occurs on land, typically consuming a terrestrial ecosystem as fuel.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "land fire"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -31150,7 +31150,7 @@ SubClassOf( (convective storm) AnnotationAssertion(Annotation( "http://glossary.ametsoc.org/wiki/Convective_storm") Annotation( "http://www.emdat.be/Glossary") "An atmospheric storm which is generated by the heating and convection of moist and unstable air masses.") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "http://www.emdat.be/Glossary") rdfs:comment "\"Convective storms range from localised thunderstorms (with heavy rain and/or hail, lightning, high winds, tornadoes) to meso-scale, multi-day events.\"") AnnotationAssertion(rdfs:label "convective storm"@en) SubClassOf( ) @@ -31161,7 +31161,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://www.emdat.be/Glossary") "A warm-core cyclone which occurs in the middle and high latitudes, primarily drawing energy from horizontal temperature contrasts between atmospheric fronts.") AnnotationAssertion( "mid-latitude cyclone") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "http://www.emdat.be/Glossary") rdfs:comment "\"When associated with cold fronts, extratropical cyclones may be particularly damaging (e.g. European winter/windstorm, Nor’easter).\"") AnnotationAssertion(rdfs:label "extra-tropical cyclone"@en) SubClassOf( ) @@ -31169,16 +31169,16 @@ SubClassOf( (tropical storm) AnnotationAssertion(Annotation( "http://www.emdat.be/Glossary") "A an atmospheric storm which originates over tropical or subtropical waters and possesses a warm-core, non-frontal synoptic-scale cyclone with a low pressure centre, spiral rain bands and strong winds.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tropical storm"@en) SubClassOf( ) # Class: (cyclone) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Cyclone") "An atmospheric storm during which a large mass of atmospheric gas rotates around a centre of low atmospheric pressure, generating high winds which spiral towards that centre.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cyclone"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -31188,7 +31188,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Cyclone") "A cyclone which rotates around an area low atmospheric pressure with increased temperature.") AnnotationAssertion( "warm-core cyclone") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The threshold of what is \"warm\" is variable, and thus data-level thresholding should be applied when using this class.") AnnotationAssertion(rdfs:label "warm core cyclone"@en) SubClassOf( ) @@ -31212,8 +31212,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (aquatic estuarine layer) AnnotationAssertion(Annotation( "ORCID:0000-0002-4366-3088") "A layer of liquid that is part of an estuary.") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aquatic estuarine layer"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -31225,8 +31225,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A layer of estuarine water which extends a few centimeters from the surface of the water column towards the estuary bed and from the shore to a fiat boundary where the estuary bed below the water column reaches a depth of 4 meters.") AnnotationAssertion( "CMECS:595") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/595.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine coastal surface layer"@en) SubClassOf( ) @@ -31238,7 +31238,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A role which is may be realised by an environmental system") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Experimental class.") AnnotationAssertion(rdfs:label "environmental role") SubClassOf( ) @@ -31257,14 +31257,14 @@ SubClassOf( "A vegetated area is a geographic feature which has ground cover dominated by plant communities.") AnnotationAssertion( "ORCID:0000-0002-4366-3088") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "vegetated area") SubClassOf( ) # Class: (bone element environment) AnnotationAssertion( "An environment which is determined by a bone element.") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "bone element environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -31305,8 +31305,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement.") AnnotationAssertion( "CMECS:596") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/596.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine coastal upper water column"@en) SubClassOf( ) @@ -31321,8 +31321,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A pycnocline which is part of an estuarine water body, spanning from the shore to a fiat boundary where the estuary bed below the water column reaches a depth of 4 meters.") AnnotationAssertion( "CMECS:597") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/597.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine coastal pycnocline"@en) SubClassOf( ) @@ -31338,8 +31338,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement.") AnnotationAssertion( "CMECS:598") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/598.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine coastal lower water column"@en) SubClassOf( ) @@ -31353,8 +31353,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A layer of estuarine water which extends a few centimeters from the surface of the water column towards the estuary bed and from a fiat boundary where the estuary bed below the water column reaches a depth of 4 meters until the end of the estuary most distal from the coast.") AnnotationAssertion( "CMECS:599") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/599.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine open water surface layer"@en) SubClassOf( ) @@ -31367,8 +31367,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement.") AnnotationAssertion( "CMECS:600") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/600.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine open water upper water column"@en) SubClassOf( ) @@ -31383,8 +31383,8 @@ AnnotationAssertion( "What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition.") AnnotationAssertion( "CMECS:603") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/603.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine coastal surface layer"@en) SubClassOf( ) @@ -31398,8 +31398,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement. What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition.") AnnotationAssertion( "CMECS:604") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/604.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine coastal upper water column"@en) SubClassOf( ) @@ -31444,8 +31444,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement.") AnnotationAssertion( "CMECS:602") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/602.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine open water lower water column"@en) SubClassOf( ) @@ -31458,8 +31458,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A pycnocline which is part of an estuarine water body, spanning from a fiat boundary where the estuary bed below the water column reaches a depth of 4 meters until the end of the estuary most distal from the coast.") AnnotationAssertion( "CMECS:601") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/601.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine open water pycnocline"@en) SubClassOf( ) @@ -31474,8 +31474,8 @@ AnnotationAssertion( "What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition. Further, the original definition and label do not clearly state whether this is a pycnocline in its own right, or just the tidal freshwater part of the pycnocline. In this ENVO class, we follow the semantics suggested by the label and treat this as a type of estuarine coastal pycnocline.") AnnotationAssertion( "CMECS:605") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/605.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine coastal pycnocline"@en) SubClassOf( ) @@ -31491,8 +31491,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement. What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition.") AnnotationAssertion( "CMECS:606") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/606.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine coastal lower water column"@en) SubClassOf( ) @@ -31507,8 +31507,8 @@ AnnotationAssertion( "What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition.") AnnotationAssertion( "CMECS:607") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/607.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine open water surface layer"@en) SubClassOf( ) @@ -31521,8 +31521,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement. What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition.") AnnotationAssertion( "CMECS:608") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/608.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine open water upper water column"@en) SubClassOf( ) @@ -31537,8 +31537,8 @@ AnnotationAssertion( "What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition. Further, the original definition and label do not clearly state whether this is a pycnocline in its own right, or just the tidal freshwater part of the pycnocline. In this ENVO class, we follow the semantics suggested by the label and treat this as a type of estuarine open water pycnocline.") AnnotationAssertion( "CMECS:609") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/609.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine open water pycnocline"@en) SubClassOf( ) @@ -31553,8 +31553,8 @@ AnnotationAssertion( "\"Mid-depth\", present in many CMECS classes, is ambiguous and needs refinement. What causes this freshwater layer to be \"tidal\" is not clearly specified in the current CMECS definition.") AnnotationAssertion( "CMECS:610") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/610.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "estuarine tidal riverine open water lower water column"@en) SubClassOf( ) @@ -31566,7 +31566,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A biogeochemical cycle which has nitrogen-bearing chemical entities as participants.") AnnotationAssertion( "nitrogen cycle") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nitrogen cycling"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -31577,7 +31577,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A biogeochemical cycle which has sulfur-bearing chemical entities as participants.") AnnotationAssertion( "sulphur cycling") AnnotationAssertion( "sulfur cycle") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sulfur cycling"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -31587,7 +31587,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A biogeochemical cycle which has phosphorous-bearing chemical entities as participants.") AnnotationAssertion( "phosphorous cycle") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "phosphorous cycling"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -31599,8 +31599,8 @@ AnnotationAssertion( "CMECS:643") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/643.html") AnnotationAssertion( "tidal flow") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "marine tidal flow process"@en) SubClassOf( ) @@ -31632,8 +31632,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A marine current which is maintained by a tidal flow process.") AnnotationAssertion( "marine tidal current") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to an ambiguously defined unit of the Coastal and Marine Ecological Classification Standard (CMECS), \"Tidal Flow\" (https://cmecscatalog.org/cmecs/classification/unit/643.html). In CMECS, this is treated as a hydroform, but is defined as a process (while some of its subclasses are not). In ENVO, we have aligned the CMECS unit according to its definition as a process (ENVO:01001333); however, we maintain this class to allow reference to the hydroform maintained by that process.") AnnotationAssertion(rdfs:label "marine tidal flow"@en) SubClassOf( ) @@ -31654,8 +31654,8 @@ AnnotationAssertion( "CMECS:664") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/664.html") AnnotationAssertion( "diurnal tidal flow") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. In this case, the definition aligns with ENVO's \"environmental zone\" semantics. Alternate classes have been created to accommodate the process of diurnal tidal flow. The as the frequency of the process does not influence the semantics of the resulting hydroform, please use ENVO_01001336 to reference the hydroform rather than the zone or the process. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "diurnal marine tidal flow zone"@en) SubClassOf( ) @@ -31665,8 +31665,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A tidal flow process which occurs once per day in ocean waters where a second daily oscillation is blocked by land masses or ocean basin geometry.") AnnotationAssertion( "diurnal tidal flow") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class broadly aligns to the Coastal and Marine Ecological Classification Standard (CMECS). This class is provided as the processual equivalent of CMECS unit 664 \"Diurnal Tidal Flow\" (https://cmecscatalog.org/cmecs/classification/unit/664.html); however, based on its definition, CMECS:664 is more accurately mapped to ENVO:01001338 as the definition aligns with ENVO's \"environmental zone\" semantics. A class has been created to accommodate the semantics of the resulting hydroform (ENVO:01001336). Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "diurnal marine tidal flow process"@en) SubClassOf( ) @@ -31679,8 +31679,8 @@ AnnotationAssertion( "CMECS:666") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/666.html") AnnotationAssertion( "semi-diurnal tidal flow") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. In this case, the definition aligns with ENVO's \"environmental zone\" semantics. Alternate classes have been created to accommodate the process of diurnal tidal flow. The as the frequency of the process does not influence the semantics of the resulting hydroform, please use ENVO:01001336 to reference the hydroform rather than the zone or the process. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "semi-diurnal marine tidal flow zone"@en) SubClassOf( ) @@ -31689,8 +31689,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (marine tidal flow zone) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Tide") "An environmental zone in which varying gravitational forces from astronomical bodies, combined with the rotation of the astronomical body containing the zone, cause marine waters to undergo periodic depth oscillations (tides).") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine tidal flow zone"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -31701,8 +31701,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A water flow process during which movements of water masses caused by varying gravitational and rotational forces from astronomical bodies, combined with the rotation of the astronomical body containing the water mass, cause waters to undergo periodic depth oscillations (tides).") AnnotationAssertion( "tidal flow") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tidal flow process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -31711,8 +31711,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A marine tidal flow process which occurs twice per day, resulting in two high and two low tides per day, both of roughly equal amplitude.") AnnotationAssertion( "semi-diurnal tidal flow") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class broadly aligns to the Coastal and Marine Ecological Classification Standard (CMECS). This class is provided as the processual equivalent of CMECS unit 666 \"Semi-diurnal Tidal Flow\" (https://cmecscatalog.org/cmecs/classification/unit/666.html); however, based on its definition, CMECS:666 is more accurately mapped to ENVO:01001340 as the definition aligns with ENVO's \"environmental zone\" semantics. A class has been created to accommodate the semantics of the resulting hydroform (ENVO:01001336). Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "semi-diurnal marine tidal flow process"@en) SubClassOf( ) @@ -31862,7 +31862,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://github.com/EnvironmentOntology/envo/issues/602") "An aerosol formation event which occurs in an atmosphere.") AnnotationAssertion( "rapid formation of liquid or solid particles from gaseous material in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://github.com/EnvironmentOntology/envo/issues/602") rdfs:comment "Note that the detection of such events, and thus the thresholds used to define them in the field, are operational and dependent on the technology and observation strategy used. The event must be intense enough, occur in a large enough area, and persist for enough time to allow the formed particle population to be observed. There are no exact or universally agreed upon thresholds for the intensity, area and duration of such events. If elevated new particle formation rate is observed in the atmosphere (away from direct sources of the related gas-phase molecules) for an operationally defined period of time, practitioners often declare that such an event has taken place.") AnnotationAssertion(rdfs:label "atmospheric aerosolised particle formation event") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -31924,7 +31924,7 @@ AnnotationAssertion( "formation of an aerosol in an atmosphere") AnnotationAssertion( "formation of an aerosol in the atmosphere") AnnotationAssertion( "formation of particles from gaseous material in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric secondary aerosol formation process") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -31932,7 +31932,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Aerosol") Annotation( "https://en.wikipedia.org/wiki/Particulates") "A process during which particles suspended in a gaseous medium are formed.") AnnotationAssertion( "new particle formation process") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aerosolised particle formation process"@en) SubClassOf( ) SubClassOf( ObjectIntersectionOf(ObjectUnionOf(ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( )) ObjectSomeValuesFrom( ))) @@ -31951,7 +31951,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Aerosol") Annotation( "https://en.wikipedia.org/wiki/Particulates") "An aerosol formation process during which solid or liquid particles are either 1) formed in a volume of gas through gas-to-liquid or gas-to-solid conversions or 2) increase in size through aggregation with other particles.") AnnotationAssertion( "secondary aerosol formation") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "secondary aerosol formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -31962,8 +31962,8 @@ AnnotationAssertion( ) AnnotationAssertion( "CMECS:577") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/577.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions. CMECS provides the following notes: \"Commonly found on intertidal mud flats along the shores of estuaries. Tidal mangrove shrublands may include immature stands or stunted mature trees that indicate a harsh growing environment. Areas characterized by tall mangroves (> 6 meters) are placed in the Tidal Mangrove Forest Biotic Group. Where tidal amplitude is relatively low, the vegetation forms narrow bands along the coastal plains, and it rarely penetrates inland more than several kilometers along rivers. Where tidal amplitude is greater, mangroves extend further inland along river courses, forming extensive stands in the major river deltas. Also, mangrove cays may occur within the lagoon complex of barrier reefs. The list of biotic communities for this group is long: a few examples are provided below, and the complete list is available in Appendix F\"") AnnotationAssertion(rdfs:label "tidal mangrove shrubland"@en) SubClassOf( ) @@ -31978,7 +31978,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( ) AnnotationAssertion( "SPIRE:Tundra") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Tundra ecosysems are often underlaid by permafrost, with the result that drainage is bad and the soil may be saturated for long periods. It does not have a permanent snow-ice cover. Productivity is low in this biome because of the extremes of climate.") AnnotationAssertion(rdfs:label "tundra ecosystem"@en) SubClassOf( ) @@ -31991,7 +31991,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "SPIRE:Tundra") AnnotationAssertion( "http://sweetontology.net/realmCryo/AlpineTundra") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "alpine tundra ecosystem"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -32001,7 +32001,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation(rdfs:comment "https://github.com/EnvironmentOntology/envo/issues/602") "An aerosol formation process during which the rate of particle formation exceeds that which is normally present in the site of its occurrence.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This is similar to the semantics of storms, where increased rates are observed due to external forcings.") AnnotationAssertion(rdfs:label "aerosolised particle formation event"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -32013,7 +32013,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "rapid formation of liquid or solid particles from gaseous material in an atmosphere") AnnotationAssertion( "atmospheric new particle formation event"@en) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://github.com/EnvironmentOntology/envo/issues/602") rdfs:comment "Note that the detection of such events, and thus the thresholds used to define them in the field, are operational and dependent on the technology and observation strategy used. The event must be intense enough, occur in a large enough area, and persist for enough time to allow the formed particle population to be observed. There are no exact or universally agreed upon thresholds for the intensity, area and duration of such events. If elevated new particle formation rate is observed in the atmosphere (away from direct sources of the related gas-phase molecules) for an operationally defined period of time, practitioners often declare that such an event has taken place.") AnnotationAssertion(rdfs:label "secondary atmospheric aerosol formation event"@en) SubClassOf( ) @@ -32024,8 +32024,8 @@ AnnotationAssertion( ) AnnotationAssertion( "http://www.goosocean.org/components/com_oe/oe.php?task=download&id=34494&version=1.0&lang=1&format=1") AnnotationAssertion( "ocean state") -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea state"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -32035,8 +32035,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A variability quality which inheres in sea ice, particularly in its concentration, area and extent, type, motion, deformation, age, thickness, and volume.") AnnotationAssertion( ) AnnotationAssertion( "http://www.goosocean.org/index.php?option=com_oe&task=viewDocumentRecord&docID=17464") -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The EOV specification sheet is simply titled as \"sea ice\", but the description of the EOV is of the variability of sea ice.") AnnotationAssertion(rdfs:label "sea ice variability"@en) SubClassOf( ) @@ -32050,8 +32050,8 @@ AnnotationAssertion( "faunal bed") AnnotationAssertion( "CMECS:391") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/391.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions. An excerpt of the CMECS description: \"Faunal Beds are highly dependent on substrate type. Individual species and entire biotic communities have adapted specialized anatomies and behaviors for survival on hard substrates; other species and communities have specialized and developed adaptations for life on soft substrates. Generalist fauna also occur (e.g., certain holothurians, crustaceans, and sponges) that can succeed on both substrate types. However, substrate type is such a defining aspect of the Faunal Bed class that CMECS Faunal Bed subclasses are assigned as physical-biological associations involving both biota and substrate.\"") AnnotationAssertion(rdfs:label "marine faunal bed"@en) SubClassOf( ) @@ -32062,8 +32062,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A elevation quality which inheres in a marine water body by virtue of the position of that water body's surface layer (adjacent to an atmosphere) relative to some reference elevation.") AnnotationAssertion( ) AnnotationAssertion( "http://www.goosocean.org/index.php?option=com_oe&task=viewDocumentRecord&docID=17465") -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea surface height"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -32087,8 +32087,8 @@ AnnotationAssertion( ) AnnotationAssertion( "CMECS:532") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/532.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions. An excerpt of the CMECS description: \"Faunal Beds are highly dependent on substrate type. Individual species and entire biotic communities have adapted specialized anatomies and behaviors for survival on hard substrates; other species and communities have specialized and developed adaptations for life on soft substrates. Generalist fauna also occur (e.g., certain holothurians, crustaceans, and sponges) that can succeed on both substrate types. However, substrate type is such a defining aspect of the Faunal Bed class that CMECS Faunal Bed subclasses are assigned as physical-biological associations involving both biota and substrate.\"") AnnotationAssertion(rdfs:label "mussel bed"@en) SubClassOf( ) @@ -32102,8 +32102,8 @@ AnnotationAssertion( ) AnnotationAssertion( "CMECS:338") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/338.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "neritic mussel reef"@en) SubClassOf( ) @@ -32115,8 +32115,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A marine reef which is present in the depths beyond (offshore relative to) the continental shelf and primarily composed of self-adhered or conglomerated mussel shells.") AnnotationAssertion( "oceanic mussel reef substrate") AnnotationAssertion( ) -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is an extension of the Coastal and Marine Ecological Classification Standard (CMECS). It provides an oceanic analogue to the neritic mussel reef class (CMECS:338). Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "oceanic mussel reef"@en) SubClassOf( ) @@ -32129,8 +32129,8 @@ AnnotationAssertion( ) AnnotationAssertion( "CMECS:532") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/515.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions. From the CMECs definition: \"Areas where mussels have constructed substrate are classified as Mussel Reef. Areas where mussels are not attached to a hard substrate are classified as Soft Sediment Fauna, Mussel Bed.\"") AnnotationAssertion(rdfs:label "area of attached mussel assemblages"@en) SubClassOf( ) @@ -32143,8 +32143,8 @@ AnnotationAssertion( ) AnnotationAssertion( "CMECS:532") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/883.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions. From the CMECs definition: \"Areas where mussels have constructed substrate are classified as Mussel Reef. Areas where mussels are not attached to a hard substrate are classified as Soft Sediment Fauna, Mussel Bed.\"") AnnotationAssertion(rdfs:label "area of attached Modiolus assemblages"@en) SubClassOf( ) @@ -32163,8 +32163,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An oceanic mussel reef which is primarily settled by mussels of the genus Bathymodiolus and primarily composed of self-adhered or conglomerated mussel shells") AnnotationAssertion( "Bathymodiolus-dominated oceanic mussel reef substrate") AnnotationAssertion( ) -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class is an extension of the Coastal and Marine Ecological Classification Standard (CMECS). It provides an oceanic analogue to the neritic mussel reef class (CMECS:338), with a focus on Bathymodiolus communities. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "Bathymodiolus-dominated oceanic mussel reef"@en) SubClassOf( ) @@ -32179,8 +32179,8 @@ AnnotationAssertion( ) AnnotationAssertion( "CMECS:338") AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/338.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class aligns to the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "mussel reef"@en) SubClassOf( ) @@ -32202,8 +32202,8 @@ AnnotationAssertion( "If individual mussels are present in densities sufficient to construct biogenic substrate, please use the mussel reef class.") AnnotationAssertion( ) AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/532.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class extends the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "oceanic mussel bed"@en) SubClassOf( ) @@ -32215,8 +32215,8 @@ AnnotationAssertion( "If individual mussels are present in densities sufficient to construct biogenic substrate, please use the mussel reef class.") AnnotationAssertion( ) AnnotationAssertion( "https://cmecscatalog.org/cmecs/classification/unit/532.html") -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class extends the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "neritic mussel bed"@en) SubClassOf( ) @@ -32228,8 +32228,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "An oceanic mussel bed which has mussel communities dominated by members of the genus Bathymodiolus.") AnnotationAssertion( "If individual mussels are present in densities sufficient to construct biogenic substrate, please use the mussel reef class.") AnnotationAssertion( ) -AnnotationAssertion( "envoCmecs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class extends the Coastal and Marine Ecological Classification Standard (CMECS). In ENVO, we may adapt the definition for consistency, but the semantics (meaning) of the term should be unaffected. Please consult the CMECS catalogue (https://cmecscatalog.org/) for authoritative and semantically unconstrained definitions.") AnnotationAssertion(rdfs:label "Bathymodiolus-dominated oceanic mussel bed"@en) SubClassOf( ) @@ -32262,7 +32262,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (accumulation of matter on aerosolised particles) AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "A material accumulation process during which the solid or liquid parts of an aerosol increase in mass due to mechanical aggregation of existing particles or through chemical conversion of gas-phase material.") AnnotationAssertion(rdfs:label "accumulation of matter on aerosolised particles"@en) SubClassOf( ) @@ -32318,7 +32318,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://cloudatlas.wmo.int/homomutatus.html") "An aeroform which is formed as a result of strong upper winds spreading a cirrus homogenitus cloud in the atmosphere and, in turn, causing internal tranformations which result in the cloud taking on the appearnce of natural cirri-form clouds.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Once these clouds resemble natural cirri-form clouds (Cirrus, Cirrocumulus, Cirrostratus), they are classified as such.") AnnotationAssertion(rdfs:label "homomutatus cloud"@en) SubClassOf( ) @@ -32340,7 +32340,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Haze") "An aersolised mass of dust, smoke, or other dry particulates which scatters visible light thus obsscuring visibility through an atmosphere.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "haze"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -32390,8 +32390,8 @@ AnnotationAssertion( "Cirrocumulus-Wolke"@de) AnnotationAssertion( "Hohe Schäfchenwolke"@de) AnnotationAssertion( "Zirrokumulus"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "When present in aggregates, individual cirrocumulus clouds are merged or separate, and regularly arranged in a thin patch, sheet or layer. Most of the small structural elements have an apparent width of less than one degree. Strongly supercooled water droplets may occur but are usually rapidly replaced by ice crystals. When well-illuminated by sunlight (excluding during sunrise and sunset) cirrocumulus clouds appear white. Absence of any precipitation."@en) AnnotationAssertion(rdfs:label "cirrocumulus cloud"@en) SubClassOf( ) @@ -32409,8 +32409,8 @@ AnnotationAssertion( "Cirrostratus"@de) AnnotationAssertion( "Hohe Schleierwolke"@de) AnnotationAssertion( "Zirrostratus"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Cirrostratus clouds totally or partly cover the sky and are always thin enough to show the disc of the local star. When well-illuminated by sunlight (excluding during sunrise and sunset) cirrostratus clouds appear transparent or whitish. Cirrostratus clouds generally produce halo phenomena; sometimes the veil of cirrostratus is so thin that a halo provides the only indication of its presence. Absence of any precipitation."@en) AnnotationAssertion(rdfs:label "cirrostratus cloud"@en) SubClassOf( ) @@ -32429,8 +32429,8 @@ AnnotationAssertion( "Ac") AnnotationAssertion( "Altocumulus-Wolke"@de) AnnotationAssertion( "Grobe Schäfchenwolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Altocumulus clouds are sometimes fibrous or diffuse and may or may not be merged. When present in aggregates, individual altocumulus clouds are organised in patches, sheets or layers. Most of the regularly arranged small elements in this cloud type often have an apparent width of between one and five degrees. When well-illuminated by sunlight (excluding during sunrise and sunset) altocumulus clouds appear white, grey, or both white and grey, often with shading. The composition of altocumulus clouds leads to low transparency and sharp outlines of the elements. Absence of any precipitation."@en) AnnotationAssertion(rdfs:label "altocumulus cloud"@en) SubClassOf( ) @@ -32448,8 +32448,8 @@ AnnotationAssertion( "As") AnnotationAssertion( "Altostratus-Wolke"@de) AnnotationAssertion( "Mittelhohe Schichtwolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Striation occurs in the form of grooves or channels in cloud formations, arranged parallel to the flow of the air. When well-illuminated by sunlight (excluding during sunrise and sunset) altostratus clouds appear greyish or bluish. Altostratus clouds do not show halo phenomena when scattering visible range stellar radiation. Altostratus clouds have parts thin enough to reveal the local star at least vaguely, as through ground glass or frosted glass. Altostratus may produce rain, snow or ice pellets. Altostratus is usually found in the middle level, but it often extends higher. Altostratus is generally a layer of great horizontal extent (several tens or hundreds of kilometres) and fairly considerable vertical extent (several hundreds or thousands of metres). In the most complete case, three superposed parts can be distinguished: (a) An upper part, composed wholly or mainly of ice crystals, (b) A middle part, composed of a mixture of ice crystals, snow crystals or snowflakes and supercooled water droplets, (c) A lower part, composed wholly or mainly of ordinary or supercooled water droplets or drops. Sometimes the cloud may consist of only two parts, either: 1) An upper part like (a) above and a lower part like (c) or, 2) An upper part like (b) and a lower part like (c). Less frequently, the entire cloud may also be like (a) or like (b) alone."@en) AnnotationAssertion(rdfs:label "altostratus cloud"@en) SubClassOf( ) @@ -32466,8 +32466,8 @@ AnnotationAssertion( "Ns") AnnotationAssertion( "Nimbostratus-Wolke"@de) AnnotationAssertion( "Regen-schichtwolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Low, ragged clouds frequently occur below the nimbostratus layer, with which they may or may not merge. When well-illuminated by sunlight (excluding during sunrise and sunset) nimbostratus clouds appear grey, often dark grey in colour. Nimbostratus clouds usually have no discernible base. Nimbostratus generally covers a wide area and is of great vertical extent. Nimbostratus is diffused by more or less continuously falling rain or snow or ice pellets, which in most cases reaches the ground. Sometimes nimbostratus clouds have the appearance of being illuminated from the inside. Nimbostratus is almost always found in the middle level, but it usually extends into the other two levels. Nimbostratus is thick enough throughout to blot out the local star."@en) AnnotationAssertion(rdfs:label "nimbostratus cloud"@en) SubClassOf( ) @@ -32485,8 +32485,8 @@ AnnotationAssertion( "Sc") AnnotationAssertion( "Haufenschichtwolke"@de) AnnotationAssertion( "Stratocumulus-Wolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "When present in aggregates, individual stratocumulus clouds are organised in patches, sheets or layers. Most of the regularly arranged small elements in this cloud type often have an apparent width of more than five degrees. When well-illuminated by sunlight (excluding during sunrise and sunset) stratocumulus clouds appear grey or whitish, or both grey and whitish in colour. The cloud almost always has dark parts. Fibrous structural elements may emerge when virga is formed. Stratocumulus can have weak falls of rain, snow or snow pellets. Stratocumulus may also be shaped into structural elements which are similar to but do not exactly resemble the ones noted in the definition."@en) AnnotationAssertion(rdfs:label "stratocumulus cloud"@en) SubClassOf( ) @@ -32502,8 +32502,8 @@ AnnotationAssertion( "St") AnnotationAssertion( "Stratus-Wolke"@de) AnnotationAssertion( "niedere Schichtwolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "When well-illuminated by sunlight (excluding during sunrise and sunset) stratus appears grey in colour. Stratus clouds only produce halo phenomena at very low temperatures. Stratus can have weak falls of drizzle, snow or snow grains. Stratus may allow a clearly visible outline of the local star to be seen through its mass."@en) AnnotationAssertion(rdfs:label "stratus cloud"@en) SubClassOf( ) @@ -32523,8 +32523,8 @@ AnnotationAssertion( "Haufenwolke"@de) AnnotationAssertion( "Kumuluswolke"@de) AnnotationAssertion( "Quellwolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "When well-illuminated by sunlight (excluding during sunrise and sunset) cumulus has has brilliant white sunlit parts and a dark grey base. Cumulus clouds have sharp outlines. When of great vertical extent, cumulus may release precipitation in the form of showers of rain, snow or snow pellets. Cumulus clouds usually have their bases in the low atmospheric level (low étage), but their vertical extent is often so great that their tops may reach into the middle and high atmospheric levels (middle and high étage)."@en) AnnotationAssertion(rdfs:label "cumulus cloud"@en) SubClassOf( ) @@ -32538,7 +32538,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://cloudatlas.wmo.int/homogenitus.html") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cloud which is formed by condensation events triggered by some anthropogenic processes or the outputs thereof, such as aircraft contrails or emissions from chimneys.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "homogenitus cloud"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -32559,7 +32559,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://cloudatlas.wmo.int/silvagenitus.html") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cloud which develop locally over forests as a result of increased humidity due to evaporation and evapotranspiration from the tree canopy.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "These special clouds will be given the name of the appropriate genus, followed by any appropriate species, variety and supplementary feature, and followed by the special cloud name “silvagenitus” (for example, Stratus silvagenitus).") AnnotationAssertion(rdfs:label "silvagenitus cloud"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -32569,7 +32569,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-fibratus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cirrus cloud which occurs as a detached unit or a thin veil and consists of nearly straight or irregularly curved filaments that do not terminate in hooks or tufts.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The species-level term, 'fibratus', applies mainly to clouds of the Cirrus and Cirrostratus genera") AnnotationAssertion(rdfs:label "cirrus fibratus cloud"@en) SubClassOf( ) @@ -32583,8 +32583,8 @@ AnnotationAssertion( "Cb") AnnotationAssertion( "Cumulonibus-Wolke"@de) AnnotationAssertion( "Gewitterwolke"@de) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoCloudAtlas"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Cumulonimbus clouds have a very dark base which may be merged with low ragged clouds which frequently form underneath this cloud. The upper portion may be smooth, fibrous, or striated. Cumulonimbus also contains large raindrops and, often, snowflakes, snow pellets or hailstones. The water droplets and raindrops may be substantially supercooled. Cumulonimbus is frequently associated with precipitation, sometimes in the form of virga. Cumulonimbus is often accompanied by lightning, thunder or hail. Cumulonimbus usually have their bases in the low level, but their vertical extent is often so great that their tops may reach into the middle and high levels."@en) AnnotationAssertion(rdfs:label "cumulonimbus cloud"@en) SubClassOf( ) @@ -32607,7 +32607,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-uncinus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cirrus cloud which does not have grey parts and which is often shaped like a comma, terminating at its highest point in a hook, or in a tuft, the upper part of which is not in the form of a rounded protuberance.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cirrus uncinus cloud"@en) SubClassOf( ) @@ -32615,7 +32615,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-spissatus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cirrus cloud which 1) is structurally organised in patches, 2) is sufficiently dense to appear greyish when viewed towards the local star and 3) may veil, the local star, obscure its outline, or even hide it entirely.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Cirrus spissatus often originates from the upper part of a Cumulonimbus.") AnnotationAssertion(rdfs:label "cirrus spissatus cloud"@en) SubClassOf( ) @@ -32624,7 +32624,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-fibratus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cirrostratus cloud which occurs as a detached unit or a thin veil and consists of nearly straight or irregularly curved filaments that do not terminate in hooks or tufts.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The species-level term, 'fibratus', applies mainly to clouds of the Cirrus and Cirrostratus genera") AnnotationAssertion(rdfs:label "cirrostratus fibratus cloud"@en) SubClassOf( ) @@ -32633,7 +32633,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-castellanus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A stratocumulus cloud which 1) has linearly arranged cumuliform protuberances which resemble crenellated turrets or towers, some of which are taller than they are wide in some portion of their upper parts, 2) possess a lower region or base which connects these protuberances.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The species-level term, 'castellanus', applies to Cirrus, Cirrocumulus, Altocumulus and Stratocumulus genera. The castellanus character is especially evident when the clouds are seen from the side.") AnnotationAssertion(rdfs:label "stratocumulus castellanus cloud"@en) SubClassOf( ) @@ -32642,7 +32642,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-castellanus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cirrus cloud which 1) has linearly arranged cumuliform protuberances which resemble crenellated turrets or towers, some of which are taller than they are wide in some portion of their upper parts, 2) possess a lower region or base which connects these protuberances.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The species-level term, 'castellanus', applies to Cirrus, Cirrocumulus, Altocumulus and Stratocumulus genera. The castellanus character is especially evident when the clouds are seen from the side.") AnnotationAssertion(rdfs:label "cirrus castellanus cloud"@en) SubClassOf( ) @@ -32651,7 +32651,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-castellanus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cirrocumulus cloud which 1) has linearly arranged cumuliform protuberances which resemble crenellated turrets or towers, some of which are taller than they are wide in some portion of their upper parts, 2) possess a lower region or base which connects these protuberances.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The species-level term, 'castellanus', applies to Cirrus, Cirrocumulus, Altocumulus and Stratocumulus genera. The castellanus character is especially evident when the clouds are seen from the side.") AnnotationAssertion(rdfs:label "cirrocumulus castellanus cloud"@en) SubClassOf( ) @@ -32660,7 +32660,7 @@ SubClassOf( "https://cloudatlas.wmo.int/clouds-genera.html") Annotation( "https://cloudatlas.wmo.int/clouds-species-castellanus.html") Annotation( "https://cloudatlas.wmo.int/docs/Excerpt%20from%20wmo_49-1_final_2017.pdf") Annotation( "https://en.wikipedia.org/wiki/Cloud") "An altocumulus cloud which 1) has linearly arranged cumuliform protuberances which resemble crenellated turrets or towers, some of which are taller than they are wide in some portion of their upper parts, 2) possess a lower region or base which connects these protuberances.") AnnotationAssertion( ) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The species-level term, 'castellanus', applies to Cirrus, Cirrocumulus, Altocumulus and Stratocumulus genera. The castellanus character is especially evident when the clouds are seen from the side.") AnnotationAssertion(rdfs:label "altocumulus castellanus cloud"@en) SubClassOf( ) @@ -32670,7 +32670,7 @@ SubClassOf( "https://cloudatlas.wmo.int/introduction-and-principles-of-cloud-classification.html") Annotation( "https://en.wikipedia.org/wiki/Cloud") "A cloud which is primarily composed of water-based aerosols.") AnnotationAssertion( ) AnnotationAssertion( "cloud mass") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "On Earth clouds are formed by the saturation of air in the homosphere when air cools or gains water vapor. Note that this class describes clouds as countable objects, rather than 'cloud material'. It also refers only to clouds made up of a water-based material.") AnnotationAssertion(rdfs:label "water-based cloud"@en) SubClassOf( ) @@ -32917,7 +32917,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.unep-wcmc.org/resources-and-data/mountain-watch--environmental-change-sustainable-development-in-mountains") "A mountain that is part of a polar environment.") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "polar mountain"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -33323,8 +33323,8 @@ AnnotationAssertion( "oceanic oxygen") AnnotationAssertion( ) AnnotationAssertion(Annotation(rdfs:comment "This is the label that GOOS uses in its EOV specification sheet, found here: https://www.goosocean.org/components/com_oe/oe.php?task=download&id=35904&version=2.0&lang=1&format=1") "oxygen") -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "dioxygen dissolved in marine water"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -33335,8 +33335,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A macronutrient role which inheres in nitrate, nitrogen dioxide, ammonium, silicon, or phosphate dissolved in ocean water.") AnnotationAssertion( ) AnnotationAssertion( "2018-11-10T15:57:28Z"^^xsd:dateTime) -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "inorganic macronutrient dissolved in ocean water"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf(ObjectUnionOf( ) ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( )))) @@ -33348,8 +33348,8 @@ AnnotationAssertion( "2018-11-11T00:03:08Z"^^xsd:dateTime) AnnotationAssertion( "carbonate system of the sea") AnnotationAssertion( "marine carbonate system") -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "To measure the state and dynamics of the ocean's carbonate system, at least two of the following qualities must be measured: Dissolved Inorganic Carbon (DIC), Total Alkalinity (TA), Partial pressure of carbon dioxide (pCO2), and pH.") AnnotationAssertion(rdfs:label "carbonate system of ocean water"@en) SubClassOf( ) @@ -33405,8 +33405,8 @@ AnnotationAssertion( "2019-01-09T09:07:24Z"^^xsd:dateTime) AnnotationAssertion( "anthropogenic radiation") AnnotationAssertion( "artificial radiation") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoAstro") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "radiation from a manufactured product"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -33449,7 +33449,7 @@ AnnotationAssertion( AnnotationAssertion( "SPIRE:Tundra") AnnotationAssertion( "http://sweetontology.net/realmCryo/AlpineTundra") AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") "mountain tundra") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "The absence of trees in this biome is primarily due to high altitude rather than high latitude. On Earth, it lies roughly between the summer isotherm of 10 degrees Centigrade and the snow line. Primary productivity is low in this biome because of the extremes of climate.") AnnotationAssertion(rdfs:label "alpine tundra biome"@en) SubClassOf( ) @@ -33644,7 +33644,7 @@ AnnotationAssertion( "2019-01-14T21:09:21Z"^^xsd:dateTime) AnnotationAssertion( "frazil crystals") AnnotationAssertion( "needle ice") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Typically 3 to 4 millimeters in diameter. These may form in both marine water and fresh water. They represent the first stages of sea ice growth; they merge under calm conditions to form thin sheets of ice on the surface (frazil ice), and consist of nearly pure fresh water. In fresh water, they form in supercooled water that is too turbulent to permit coagulation into sheet ice. This is most common in swiftly flowing streams. They may accumulate as anchor ice on submerged objects obstructing the water flow.") AnnotationAssertion(rdfs:label "frazil"@en) SubClassOf( ) @@ -33776,7 +33776,7 @@ AnnotationAssertion( AnnotationAssertion(Annotation(rdfs:comment "This synonym is no longer in common use.") "barrier iceberg") AnnotationAssertion( "table iceberg") AnnotationAssertion( "tabular berg") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Newly formed tabular icebergs have nearly vertical sides and flat tops. In the Antarctic, they may be tens of kilometers wide, up to 160 km (100 miles) long, and as much as 300 m (1000 ft) thick, with about 30 m (100 ft) exposed above the sea surface. In the Arctic, large icebergs of this type are called ice islands, but they are considerably smaller than the largest of the antarctic variety. Has synonyms tabular berg, table iceberg. Formerly called barrier iceberg.") AnnotationAssertion(rdfs:label "tabular iceberg"@en) SubClassOf( ) @@ -33788,7 +33788,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") "An ice mass which is composed of a large amount of sea ice in the form of a hummock or a group of such hummocks, frozen together and separated from any surrounding ice by sea water.") AnnotationAssertion( ) AnnotationAssertion( "2019-01-31T19:00:41Z"^^xsd:dateTime) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Floebergs may float up to 17 ft (5 m) above sea level.") AnnotationAssertion(rdfs:label "floeberg"@en) SubClassOf( ) @@ -33809,7 +33809,7 @@ SubClassOf( "https://orcid.org/0000-0003-4808-4736") "An elevation which is formed by pressure at the point of contact between ice floes, resulting in a conglomeration of broken ice.") AnnotationAssertion( ) AnnotationAssertion( "2019-01-31T19:11:58Z"^^xsd:dateTime) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Sea ice hummocks may be fresh or weathered. The weathering of hummocks is similar to young mountain peaks with steep slopes that erode into smooth, rolling hills, in this case during the summer melt season. The submerged volume of broken ice under the hummock, forced downwards by pressure, is termed a bummock.") AnnotationAssertion(rdfs:label "sea ice hummock"@en) SubClassOf( ) @@ -33823,7 +33823,7 @@ AnnotationAssertion( "2019-01-31T19:11:58Z"^^xsd:dateTime) AnnotationAssertion( "2019-01-31T19:17:20Z"^^xsd:dateTime) AnnotationAssertion( "hummock") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Permafrost hummocks are often found in uniformly spaced large groups. Hummocks can form in areas of permafrost or seasonally frozen ground, and are one of the most common surface features of the Arctic.") AnnotationAssertion(rdfs:label "frost-formed hummock"@en) SubClassOf( ) @@ -33906,7 +33906,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-01-31T20:46:21Z"^^xsd:dateTime) AnnotationAssertion( "http://sweetontology.net/realmCryo/Iceberg") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "The greater part of an iceberg's mass (4/5 to 8/9) is below sea level, which makes them dangerous to shipping in high and mid-latitude regions of the ocean. The top of an ice berg usually protrudes more than 5 m above water-level and typically extends from tens of meters to many tens of kilometres across. Icebergs may be described as tabular, dome-shaped, sloping, pinnacled, dry-docked, blocky, weathered or glacier bergs in addition to having a size qualifier. Icebergs are not sea ice, when they melt they add fresh water to the ocean. The unmodified term \"iceberg\" usually refers to the irregular masses of ice formed by the calving of glaciers along an orographically rough coast, whereas tabular icebergs and ice islands are calved from an ice shelf, while bergs formed from sea ice are called floebergs. In decreasing size, they are classified as: ice island (few thousand square meters to 500 km^2 in area); tabular iceberg; iceberg; bergy bit (less than 5 m above sea level, between 1 and 200 m^2 in area); and growler (less than 1 m above sea level, about 20 m^2 in area). Alaskan icebergs rarely exceed 500 feet in maximum dimension. Antarctic icebergs originate from the ice mass of the Antarctic continent that has accumulated over many thousands of years.") AnnotationAssertion(rdfs:label "iceberg"@en) SubClassOf( ) @@ -33917,7 +33917,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-01-31T20:56:24Z"^^xsd:dateTime) AnnotationAssertion( "http://sweetontology.net/realmCryo/LandIce") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Land ice is any part of the Earth's seasonal or perennial ice cover that has formed over land as the result, principally, of the freezing of precipitation; opposed to sea ice formed by the freezing of seawater. Thus, an iceberg or tabular iceberg is land ice as well as its parent glacier, ice sheet, or ice shelf. The two major concentrations of land ice are the ice sheets of Greenland and Antarctica. Glaciers and ice caps are the other important forms; however, some members of the glaciology community hold that glaciers (i.e. rock glaciers) need not have any ice.") AnnotationAssertion(rdfs:label "land ice mass"@en) SubClassOf( ) @@ -33929,8 +33929,8 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-01-31T21:13:16Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "freezing"@en) SubClassOf( ) @@ -33950,7 +33950,7 @@ AnnotationAssertion( "2019-02-27T19:08:33Z"^^xsd:dateTime) AnnotationAssertion( "lead") AnnotationAssertion(Annotation(rdfs:comment "Alignment uncertain, to be revised pending SWEET clarification.") "http://sweetontology.net/realmCryo/Lead") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea-ice lead"@en) SubClassOf( ) SubClassOf( ObjectMinCardinality(2 ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -33962,7 +33962,7 @@ AnnotationAssertion( "2019-02-27T19:26:14Z"^^xsd:dateTime) AnnotationAssertion( "lead") AnnotationAssertion(Annotation(rdfs:comment "Alignment uncertain, to be revised pending SWEET clarification.") "http://sweetontology.net/realmCryo/Lead") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Generally, leads are wide enough (and deep enough) for navigation by surface vessels. The term is generally applied to linear features. If the open area is very large it may be called a polynya, although the application of these terms is under debate.") AnnotationAssertion(rdfs:label "ice lead"@en) SubClassOf( ) @@ -33974,7 +33974,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-02-27T19:30:04Z"^^xsd:dateTime) AnnotationAssertion( "lead") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "flaw lead"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -33986,7 +33986,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-02-27T19:30:36Z"^^xsd:dateTime) AnnotationAssertion( "lead") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "shore lead"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -34008,7 +34008,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-02-27T19:30:36Z"^^xsd:dateTime) AnnotationAssertion( "lead") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "frozen lead"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -34047,8 +34047,8 @@ SubClassOf( "https://nsidc.org/cryosphere/glossary?keys=cryopeg") "A layer which is composed of ground that 1) remains unfrozen due to increased solute concentration and 2) is present within a mass of permafrost.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-01T23:23:15Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cryopeg"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -34143,8 +34143,8 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-03-04T23:07:57Z"^^xsd:dateTime) AnnotationAssertion( "frost heaving") -AnnotationAssertion( "envoNceas") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "frost heave"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -34167,8 +34167,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2019-03-06T01:22:01Z"^^xsd:dateTime) -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "At this level, the depth of this layer is ambiguous. Some methods (telemetry) measure only the first few centimeters of the sea or ocean surface. In situ methods often sample the first few meters. Subclasses can be created for such cases. Sea surface layer is also used to refer to the surfaces of oceans."@en) AnnotationAssertion(rdfs:label "sea surface layer"@en) @@ -34220,7 +34220,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A layer which is part of a cryosphere.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-09T13:05:25Z"^^xsd:dateTime) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cryospheric layer"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -34231,7 +34231,7 @@ AnnotationAssertion( ) AnnotationAssertion( "2019-04-09T13:08:48Z"^^xsd:dateTime) AnnotationAssertion( "active layer") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "active layer in a cryosphere"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectUnionOf( )))))) @@ -34260,7 +34260,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Permafrost") "A thawing process during which permafrost is warmed beyond the melting point of water-based ice, snow, or other forms of solid water.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-09T13:41:52Z"^^xsd:dateTime) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "permafrost thawing process"@en) SubClassOf( ) @@ -34509,7 +34509,7 @@ AnnotationAssertion( "formation of a solid aerosol in an atmosphere") AnnotationAssertion( "formation of a solid aerosol in the atmosphere") AnnotationAssertion( "formation of solid particles from liquid material in an atmosphere") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "formation of a solid aerosol from liquid material in an atmosphere"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -34520,7 +34520,7 @@ AnnotationAssertion( ) AnnotationAssertion( "2019-05-30T21:10:14Z"^^xsd:dateTime) AnnotationAssertion( "glaciation") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glaciation of water droplets in a cloud"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -34536,7 +34536,7 @@ AnnotationAssertion( AnnotationAssertion( "glacial") AnnotationAssertion( "glacial period") AnnotationAssertion( "glacierisation") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that there has been long debate over the usage of this term, leading to some of the ambiguity resolved across the various classes featuring 'glaciation' as a label or synonym in ENVO. For example, see https://www.cambridge.org/core/journals/journal-of-glaciology/article/glacierization/354F9D3447C4AE8159D984B235114DE6/core-reader") AnnotationAssertion(rdfs:label "glaciation"@en) SubClassOf( ) @@ -34549,7 +34549,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-05-30T21:17:30Z"^^xsd:dateTime) AnnotationAssertion( "interglacial period") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "interglacial"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -34806,7 +34806,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-08-20T08:08:36Z"^^xsd:dateTime) AnnotationAssertion( "frontal zone"@en) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric frontal zone"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -34931,7 +34931,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-07-22T17:57:21Z"^^xsd:dateTime) AnnotationAssertion( "meteorological front") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "This class refers to Earth's weather fronts. Other forms, not composed of air, are present on other planets and can be created on request. Note: \"Since the temperature distribution is the most important regulator of atmospheric density, a front almost invariably separates air masses of different temperature. Along with the basic density criterion and the common temperature criterion, many other features may distinguish a front, such as a pressure trough, a change in wind direction, a moisture discontinuity, and certain characteristic cloud and precipitation forms.\"") AnnotationAssertion(rdfs:label "weather front"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ) ObjectSomeValuesFrom( ))) @@ -34943,7 +34943,7 @@ SubClassOf( ObjectMinCardinality(2 AnnotationAssertion( "An object which is composed of a continuous mass of air.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-20T07:54:32Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "air mass"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -35082,7 +35082,7 @@ SubClassOf( ) "An isobaric surface that is part of an atmosphere."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-08-20T13:44:11Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmospheric isobaric surface"@en) SubClassOf( ) @@ -35091,8 +35091,8 @@ SubClassOf( ) "A weather front which separates air masses of tropical and polar origin."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-08-20T13:46:42Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo"@en) -AnnotationAssertion( "envoPolar"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "polar front"@en) SubClassOf( ) @@ -35146,7 +35146,7 @@ SubClassOf( ) "A weather front which is nonoccluded and which moves in the direction of the warmer air mass it is adjacent to, such that colder air will occupy the site where warmer air was previously present."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-08-20T16:53:00Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The direction of motion determines whether fronts are \"cold\", \"warm\", etc. A front is said to be cold if it's moving in the direction of the warmer air mass it is adjacent to. From the perspective of an observer on the ground, this appears as though the colder air \"replaces\" the warmer air mass."@en) AnnotationAssertion(rdfs:label "cold front"@en) SubClassOf( ) @@ -35156,7 +35156,7 @@ SubClassOf( ) "A weather front which is nonoccluded and which moves in the direction of the colder air mass it is adjacent to, such that warmer air will occupy the site where colder air was previously present."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-08-21T09:56:51Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The direction of motion determines whether fronts are \"cold\", \"warm\", etc. A front is said to be cold if it's moving in the direction of the warmer air mass it is adjacent to. From the perspective of an observer on the ground, this appears as though the colder air \"replaces\" the warmer air mass."@en) AnnotationAssertion(rdfs:label "warm front"@en) SubClassOf( ) @@ -35166,7 +35166,7 @@ SubClassOf( ) "A weather front at which warm air is ascending to high altitudes along the frontal surface."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-08-21T10:00:40Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "anafront"@en) SubClassOf( ) @@ -35175,7 +35175,7 @@ SubClassOf( ) "A weather front at which warm air is descending to lower altitudes along the frontal surface."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-08-21T10:02:08Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "katafront"@en) SubClassOf( ) @@ -35185,7 +35185,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-08-21T10:05:03Z"^^xsd:dateTime) AnnotationAssertion( "tropical front"@en) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note there is controversy if such fronts exist or at least are compatible with frontal theory."@en) AnnotationAssertion(rdfs:label "intertropical front"@en) SubClassOf( ) @@ -35196,7 +35196,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "An air mass which is part of the free atmosphere, including the troposphere and stratosphere.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-21T16:31:20Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "upper air"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35216,7 +35216,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A weather front which is part of a mass of upper air.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-21T16:44:42Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "upper front"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35227,7 +35227,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-08-21T16:49:11Z"^^xsd:dateTime) AnnotationAssertion( "occlusion") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "occluded front"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35238,7 +35238,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) Annotation( ) "An occluded front which is adjacent to a cold front 1) that is moving away from the coldest air in the vicinity, 2) where the neighbouring cold front undercuts the neighbouring warm front in the occulsion zone, and 3) where the coldest air in the vicinity replaces less cold air towards the surface of the astronomical body.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-22T08:55:43Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cold occluded front"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35248,7 +35248,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) Annotation( ) "An occluded front which is adjacent to a warm front 1) that is moving in the direction of the coldest air in the vicinity, 2) where the original cold front is forced aloft at the warm front surface, and 3) where the coldest air is replaced by less cold air at the surface of the astronomical body.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-22T08:56:14Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "warm occluded front"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35258,7 +35258,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "An occluded front which is 1) adjacent to a cold and a warm front with no appreciable difference between the temperatures of their bordering air masses and 2) which creates a pressure trough, a wind-shift line, a band of cloudiness, and precipitation at the surface of the astronomical body.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-22T08:56:31Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "neutral occluded front"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35269,7 +35269,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) Annotation( ) "A cold front which forms behind a frontal cyclone and within a cold air mass with an appreciable horizontal temperature gradient.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-30T10:00:19Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The direction of motion determines whether fronts are \"cold\", \"warm\", etc. A front is said to be cold if it's moving in the direction of the warmer air mass it is adjacent to. From the perspective of an observer on the ground, this appears as though the colder air \"replaces\" the warmer air mass.") AnnotationAssertion(rdfs:label "secondary cold front"@en) SubClassOf( ) @@ -35279,7 +35279,7 @@ SubClassOf( ) "An atmospheric wind during which cold atmospheric gas flows downwards towards the surface of an astronomical body.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-30T10:29:47Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "\"From its etymology, the term means simply \"going down\" or \"descending,\" and thus could refer to any descending flow; some authors have further generalized it to include downslope flows such as the foehn or chinook even though they do not represent a flow of cold air. This concept has given rise to the expression katafront, which indicates flow down a sloped cold-frontal surface.\"") AnnotationAssertion(rdfs:label "katabatic wind"@en) SubClassOf( ) @@ -35289,7 +35289,7 @@ SubClassOf( ) "A katabatic wind during which atmospheric gas flows down the slope of an elevation, typically during periods of light larger-scale winds.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-30T10:34:48Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "\"The many synonyms for downslope flow are sometimes used interchangeably, and this gives rise to ambiguity and confusion. Downslope can be used generically to denote any wind flow blowing down a slope, or it is used specifically for katabatic flows on any scale, such as the nocturnal slope-wind component of mountain–valley wind systems or mountain–plains wind systems.\" Note also that slope winds are typically classed separately from fall winds, which occur at larger scales.") AnnotationAssertion(rdfs:label "downslope katabatic wind"@en) SubClassOf( ) @@ -35300,7 +35300,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "A katabatic wind which is driven by the cooling and subsequent sinking of atmospheric gas masses.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-30T10:40:06Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cooling-driven katabatic wind"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -35319,7 +35319,7 @@ AnnotationAssertion( "ljuka") AnnotationAssertion( "sky sweeper") AnnotationAssertion( "zonda") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "foehn wind"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35329,7 +35329,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "An environmental process during which a system does not thermally interact with its surroundings by virtue of a temperature difference between them.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T01:35:56Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "\"In an adiabatic process any change in internal energy (for a system of fixed mass) is solely a consequence of working. For an ideal gas and for most atmospheric systems, compression results in warming, expansion results in cooling.\"") AnnotationAssertion(rdfs:label "adiabatic process"@en) SubClassOf( ) @@ -35339,7 +35339,7 @@ SubClassOf( ) "An adiabatic process during which no condensation of water vapor occurs and no liquid water is present.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T01:41:52Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "dry-adiabatic process"@en) SubClassOf( ) @@ -35349,7 +35349,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-09-02T01:42:56Z"^^xsd:dateTime) AnnotationAssertion( "saturation-adiabatic process") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "moist-adiabatic process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35364,7 +35364,7 @@ AnnotationAssertion( ) "papagayo") AnnotationAssertion(Annotation( ) "vardar") AnnotationAssertion(Annotation( ) "mistral") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "\"A fall wind is a larger-scale phenomenon than the individual-slope scale and is produced by accumulated cold air spilling down a slope or over a mountain range. The cold air often either accumulates on a plateau or other elevated terrain, or is part of an extensive cold air mass approaching a mountain range as a cold front.\"") AnnotationAssertion(rdfs:label "fall wind"@en) SubClassOf( ) @@ -35374,7 +35374,7 @@ SubClassOf( ) "A fall wind which has a source so cold that, when the atmospheric gas reaches the lowlands or coast, the dynamic warming is insufficient to raise its temperature to the normal level for the region; hence it appears as a cold wind.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T01:56:30Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "bora"@en) SubClassOf( ) @@ -35383,7 +35383,7 @@ SubClassOf( ) "An atmospheric wind which rapidly forms, lasts for a duration in the order of minutes, and then rapidly decreases in speed.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T02:04:04Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "squall wind"@en) SubClassOf( ) @@ -35392,7 +35392,7 @@ SubClassOf( ) "A storm which is nautical, localised, and of high severity local storm considered as a whole: that is, winds and cloud mass and (if any) precipitation, thunder and lightning.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T02:16:07Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nautical squall"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -35403,7 +35403,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "A wind which is driven by the acceleration of flow through a gap, constriction, or channel resulting from large-scale pressure gradient, or by Venturi acceleration through a constricting passage.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T02:35:38Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "jet-effect wind"@en) SubClassOf( ) @@ -35415,7 +35415,7 @@ AnnotationAssertion( "düsenwind") AnnotationAssertion( "kossava") AnnotationAssertion( "tehuantepecer") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mountain-gap wind"@en) SubClassOf( ) @@ -35424,7 +35424,7 @@ SubClassOf( "An atmospheric wind which moves up or down a slope and is driven by heating or cooling of that slope.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T03:28:02Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "slope flow"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -35434,7 +35434,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "An upslope wind driven by heating at the slope surface under fair-weather conditions.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-02T03:30:18Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Unlike the term \"katabatic wind\", anabatic wind has a focused meaning and suffers from less ambiguity, thus the more precise treatement of this term and its place deeper in the hierarchy.") AnnotationAssertion(rdfs:label "anabatic wind"@en) SubClassOf( ) @@ -35536,7 +35536,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-09-02T08:48:06Z"^^xsd:dateTime) AnnotationAssertion(Annotation( ) "gravity wind") -AnnotationAssertion( "envoAtmo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that slope winds are typically classed separately from fall winds, which occur at larger scales.") AnnotationAssertion(rdfs:label "drainage wind"@en) SubClassOf( ) @@ -35558,8 +35558,8 @@ SubClassOf( ) "A drainage wind which flows along the icy surface of a glacier.") AnnotationAssertion( ) AnnotationAssertion( "2019-09-05T05:11:59Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacier wind"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -35580,9 +35580,9 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-09-05T05:47:55Z"^^xsd:dateTime) AnnotationAssertion( "cyclonic rotation") -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cyclonic circulation"@en) SubClassOf( ) @@ -36039,7 +36039,7 @@ SubClassOf( "A tropical mixed forest in which dominant ecological communities have reached their climax successional state.") AnnotationAssertion( ) AnnotationAssertion( "2019-10-27T16:05:39Z"^^xsd:dateTime) -AnnotationAssertion( "wwfBiome") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "tropical mixed forest biome"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -36427,7 +36427,7 @@ SubClassOf(Annotation(rdfs:comment "QCR: 'has participant' min 2 'material entit AnnotationAssertion(Annotation( ) "A momentum transfer process which unfolds as winds generate drag at the bottom of the atmosphere,coupled to dynamical forcing at the surface of the ocean.") AnnotationAssertion( ) AnnotationAssertion( "2019-11-20T14:53:01Z"^^xsd:dateTime) -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmosphere-ocean momentum transfer process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -36439,8 +36439,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "A rate which inheres in an atmosphere-ocean momentum transfer process.") AnnotationAssertion( ) AnnotationAssertion( "2019-11-20T15:01:37Z"^^xsd:dateTime) -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ocean surface stress"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -36487,8 +36487,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2020-11-18T19:59:42.028Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Rime is denser and harder than hoarfrost, but lighter, softer, and less transparent than glaze. Rime is composed essentially of discrete ice granules and has densities as low as 0.2-0.3 g cm-3. Glaze is generally continuous but with some air pockets and has much higher densities. Factors that favor rime formation are small drop size, slow accretion, a high degree of supercooling, and rapid dissipation of latent heat of fusion. The opposite effects favor glaze formation. Both rime and glaze occur when supercooled water drops strike an object at a temperature below freezing. Such formation on terrestrial objects constitutes an ice storm; on aircraft, it is called aircraft icing (where rime is known as rime ice). Either rime or glaze may form on snow crystals, droxtals, or other ice particles in the atmosphere. When such a deposit is wholly or chiefly of rime, snow pellets result; when most or all of the deposit is glaze, ordinary hail or ice pellets result. The alternating clear and opaque layers of some hailstones represent glaze and rime, deposited under varying conditions around the growing hailstone."@en) AnnotationAssertion(rdfs:label "rime"@en) SubClassOf( ) @@ -36627,8 +36627,8 @@ SubClassOf( "The concentration of carbon dioxide when measured in air that is part of an atmosphere.") AnnotationAssertion( ) AnnotationAssertion( "2020-05-19T22:51:38Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "concentration of carbon dioxide in an atmosphere"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -36763,7 +36763,7 @@ AnnotationAssertion( "2020-08-05T13:41:33Z"^^xsd:dateTime) AnnotationAssertion( "marine transient tracer"@en) AnnotationAssertion( ) -AnnotationAssertion( "envoEOVs") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Compounds which realise this role can be used in the ocean to quantify ventilation, transit time distribution and transport time-scales. These compounds are all conservative in seawater, or have well-defined decay functions, and a well-established source function over time at the ocean surface."@en) AnnotationAssertion(rdfs:label "oceanic transient tracer"@en) SubClassOf( ) @@ -37511,7 +37511,7 @@ AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Siliceous_ooze") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:02000044") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "siliceous ooze") SubClassOf( ) @@ -37549,7 +37549,7 @@ SubClassOf( (coastal water body) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Coastal") "Coastal water is a marine water body bordering a coast.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "coastal water body") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -38624,7 +38624,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (flooding) AnnotationAssertion(Annotation( "GEMET: http://www.eionet.europa.eu/gemet/concept/3301") "A general and temporary condition of partial or complete inundation of normally dry land areas from the overflow of inland and/or tidal waters, and/or the unusual and rapid accumulation or runoff of surface waters from any source. A great flow along a watercourse or a flow causing inundation of lands not normally covered by water.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "flooding"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -38643,7 +38643,7 @@ SubClassOf( (greenhouse effect) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Greenhouse_effect"^^xsd:anyURI) "A process by which thermal radiation from a planetary surface is absorbed by atmospheric greenhouse gases, and is re-radiated in all directions. Since part of this re-radiation is back towards the surface and the lower atmosphere, it results in an elevation of the average surface temperature above what it would be in the absence of the gases.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "greenhouse effect"@en) SubClassOf( ) @@ -38662,7 +38662,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A process which consists of all photosynthesis processes instantiated in an ecosystem.") AnnotationAssertion( "See issue #275") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ecosystem-wide photosynthesis") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -38683,7 +38683,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (biogeochemical cycling) AnnotationAssertion( "A biogeochemical process during which one or more chemical compounds are sequentially converted into a series of related compounds in a regularly repeating, periodic fashion.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biogeochemical cycling") SubClassOf( ) @@ -38691,7 +38691,7 @@ SubClassOf( "A biogeochemical cycle which has carbon-bearing chemical entities as participants.") AnnotationAssertion( "carbon cycle") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "carbon cycling") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -38748,7 +38748,7 @@ AnnotationAssertion(owl:deprecated (algal bloom process) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Algal_bloom") "A process during which the populations in a community of algae in a marine or freshwater ecosystem undergo rapid growth, resulting in high concentrations of algal cells that occur only periodically and briefly in that ecosystem, relative to their concentrations through the majority of the planetary orbital period.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Algal_bloom") rdfs:comment "This class is under development. Note that cyanobacterial blooms are often confused with algal blooms. There is no globally recognised threshold beyond which community density enters a bloom state.") AnnotationAssertion(rdfs:label "algal bloom process") SubClassOf( ) @@ -38810,7 +38810,7 @@ SubClassOf( (planetary erosion) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Erosion") "An action of exogenic processes (such as water flow or wind) which remove environmental material from one part of a planet's crust, transporting it to another location where it is deposited.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "planetary erosion") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -38827,7 +38827,7 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (biogeochemical process) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Biogeochemistry") "A process during which chemicals that are involved in natural ecosystem processes are transported or transformed, and which impact the activity of biological entities") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biogeochemical process") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -38877,7 +38877,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "An environmental system process that results in the introduction of contaminants into an environment.") AnnotationAssertion( "pollution") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Pollutants may be material or immaterial (e.g. heat energy)") AnnotationAssertion(rdfs:label "environmental pollution") SubClassOf( ) @@ -38886,8 +38886,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (air pollution) AnnotationAssertion( "A pollution process during which particulates or other contaminants are released into a portion of air.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "air pollution") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -38896,8 +38896,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (soil pollution) AnnotationAssertion(Annotation( ) "A pollution process during which contaminants are released into soil.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "soil pollution") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -38907,8 +38907,8 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (water pollution) AnnotationAssertion( "A pollution process during which contaminants are released into water.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "water pollution") EquivalentClasses( ObjectIntersectionOf( ObjectUnionOf( ObjectSomeValuesFrom( )))) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -38917,9 +38917,9 @@ SubClassOf( ObjectSomeValuesFrom(< # Class: (plastic pollution) AnnotationAssertion(Annotation( ) "A pollution process during which plastic contaminants are released into an environmental material.") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPlastics") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plastic pollution") SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))))) @@ -38943,14 +38943,14 @@ EquivalentClasses( ObjectIntersect # Class: (pollution monitoring) AnnotationAssertion( "A monitoring process that assays the level of environmental pollutants to determine the presence of effect of environmental pollution.") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pollution monitoring") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) # Class: (urban pollution) AnnotationAssertion( "A pollution process that results in increased levels of pollutants in an urban environment.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "urban pollution") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -38963,7 +38963,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "névé") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Névé that survives a full season of ablation turns into firn.") AnnotationAssertion(rdfs:label "neve"@en) SubClassOf( ) @@ -38975,7 +38975,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Firn") "Granular snow which contains a proportion of fused granules formed through melting and re-thawing while being compacted by the weight of overlying material and which contains interconnected gaseous pores.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Firn derives from névé which has survived a full season of ablation and has undergone a metamorphic transition.") AnnotationAssertion(rdfs:label "firn"@en) SubClassOf( ) @@ -38988,7 +38988,7 @@ AnnotationAssertion(Annotation( "Link to mass wasting process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Often, the weight of material deposited on top of powdery snow by, for example, mass wasting, can lead to nivation.") AnnotationAssertion(rdfs:label "nivation"@en) SubClassOf( ) @@ -39003,7 +39003,7 @@ AnnotationAssertion(Annotation( "It is suggested that users complement this term with ice terms that are more descriptive of the ice itself, rather than its location/parthood.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -39013,7 +39013,7 @@ SubClassOf( "https://www.asf.alaska.edu/blog/why-is-glacier-ice-blue/") "Glacial ice which contains material liberated during a glacial erosion process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "erosionally enriched glacial ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39025,7 +39025,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "glaciation") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial erosion process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39036,7 +39036,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Blue_ice_(glacial)") Annotation( "https://en.wikipedia.org/wiki/Glacier") "Water ice containing little to no air bubbles resulting in a reduction of internal light scattering and, given sufficient volume, a blue appearance.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The blue 'appearance' is to be understood as that within the visual range of humans.") AnnotationAssertion(rdfs:label "blue ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -39048,7 +39048,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Compaction") "A physical process during which atoms, molecules, or other consituents of a material entity are forced closer together.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "compaction process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39058,7 +39058,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A process during which the mass of one or more materials, present within a given site, increases.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Experimental class for structural purposes not recommended for annotation. A material accumulation process ends a material transport process.") AnnotationAssertion(rdfs:label "material accumulation process"@en) SubClassOf( ) @@ -39070,7 +39070,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A process during which material is displaced from its original location and transported either to a new location or back to the original location.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Experimental class for structural purposes not recommended for annotation.") AnnotationAssertion(rdfs:label "material transport process"@en) SubClassOf( ) @@ -39083,7 +39083,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "accumulation of ice") AnnotationAssertion( "ice accumulation") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice gain"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39096,7 +39096,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "glacial flow") AnnotationAssertion( "glacial movement") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This must be differentiated from small ice masses simply falling or moving down slopes. In ENVO, this is a subclass of advective transport process, however, this may not be universally accepted by some which strictly limit advection to fluids.") AnnotationAssertion(rdfs:label "glacial transport process"@en) SubClassOf( ) @@ -39107,7 +39107,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://pubs.usgs.gov/of/2004/1216/text.html") "A small glacier contained within a cirque basin.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The decreased size axiom is debatable") AnnotationAssertion(rdfs:label "cirque glacier"@en) SubClassOf( ) @@ -39120,7 +39120,7 @@ AnnotationAssertion(Annotation( "The general semantics of depression and geographic basin are still to be worked out see https://github.com/EnvironmentOntology/envo/issues/486") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "geographic basin"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39131,7 +39131,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.merriam-webster.com/dictionary/decumulation") "A process during which a mass composed of one or more environmental materials, present within a given site, decreases.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Experimental class for structural purposes not recommended for annotation.") AnnotationAssertion(rdfs:label "material decumulation process"@en) SubClassOf( ) @@ -39143,7 +39143,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A process during which the mass of ice constituting a glacier decreases.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial ice loss"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39154,7 +39154,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://oxfordindex.oup.com/view/10.1093/oi/authority.20110803095752518") "A stream which is primarily composed of meltwater and which flows within a glacier or ice sheet.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "englacial stream"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -39168,7 +39168,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "eolian") AnnotationAssertion( "æolian") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aeolian transport process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39180,7 +39180,7 @@ AnnotationAssertion(Annotation( "Do not oversimplify the particulate environmental material subclasses with design patterns or similar. The materials have properties that their components do not - write full definitions including these where possible."@en) AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "soot"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39190,7 +39190,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.asf.alaska.edu/blog/why-is-glacier-ice-blue/") "Water ice which contains material liberated during an erosion process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "erosionally enriched ice"@en) SubClassOf( ) @@ -39199,7 +39199,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Types_of_snow") Annotation( "https://nsidc.org/cryosphere/snow/science/characteristics.html") "Uncompacted snow containing trapped atmospheric gases.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Described as having a fluffy appearance.") AnnotationAssertion(rdfs:label "powdery snow"@en) SubClassOf( ) @@ -39210,7 +39210,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( ) -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial ice gain"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39223,7 +39223,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "glacier calving") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Calving is usually caused by the expansion of glaciers.") AnnotationAssertion(rdfs:label "glacial ice calving process"@en) SubClassOf( ) @@ -39236,7 +39236,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "iceberg calving") AnnotationAssertion( "glacier calving") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Calving is usually caused by the expansion of glaciers.") AnnotationAssertion(rdfs:label "iceberg calving process"@en) SubClassOf( ) @@ -39248,7 +39248,7 @@ AnnotationAssertion(Annotation( "It would be ideal to express that the size of the icemass calved must be smaller than an iceberg.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "calving of ice from an iceberg"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39260,7 +39260,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "marine sediments") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Particles of marine sediment are primarily generated by 1) processes in terrestrial systems and transported to the marine realm by the action of rivers or aeolian processes (amongst other routes) , 2) marine organisms, 3) chemical processes in seawater, or 4) cosmogeneous input.") AnnotationAssertion(rdfs:label "marine sediment"@en) EquivalentClasses( ObjectUnionOf(ObjectIntersectionOf( ObjectSomeValuesFrom( )) ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -39277,7 +39277,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "shallow marine sediments") AnnotationAssertion( "neritic marine sediment") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "shallow marine sediment"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39289,7 +39289,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "supraglacial lakes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "supraglacial lake"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39299,7 +39299,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A material accumulation process during which solid particles are pulled through a water body by gravitation or centrifugal force and which ends when they settle on a solid surface.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sedimentation in a water body"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39317,7 +39317,7 @@ AnnotationAssertion(Annotation(rdfs:comment "SWEET asserts this to be a subclass AnnotationAssertion( "area of glacial ablation") AnnotationAssertion( "glacial ablation area") AnnotationAssertion( "glacial ice ablation area") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "This class is more fully defined as: \"The part of the glacier, usually at lower elevations, where ablation exceeds accumulation in magnitude, that is, where the cumulative mass balance relative to the start of the mass-balance year is negative. Unless qualified, for example by giving a date within the year, references to the ablation zone refer to its extent at the end of the mass-balance year. The extent of the ablation zone can vary strongly from year to year. A synonym of ablation area.\" - GCW Terminology and Vocabulary Assessment Report 2018”, GCW report #23/2018") AnnotationAssertion(rdfs:label "glacial ice ablation zone"@en) SubClassOf( ) @@ -39332,7 +39332,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0001-5812-6405") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cryoconite deposit"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39347,7 +39347,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "cryoconite holes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This class doesn't refer to the site but instead the depression or hole and therefore the adjacency to the cryoconite itself.") AnnotationAssertion(rdfs:label "cryoconite hole"@en) SubClassOf( ) @@ -39362,7 +39362,7 @@ AnnotationAssertion( "melt ponds") AnnotationAssertion( "meltpond") AnnotationAssertion( "meltponds") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "melt pond"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39375,7 +39375,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "brine channels") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "brine channel"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39387,7 +39387,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://nsidc.org/cryosphere/glossary/term/frazil") "A material accumulation process during which brine droplets, trapped between ice crystals formed during seawater freezing, form brine channels.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This process may be considered a material accumulation process as it is the accumulation of brine droplets which form the channels.") AnnotationAssertion(rdfs:label "brine channel formation process"@en) SubClassOf( ) @@ -39402,7 +39402,7 @@ AnnotationAssertion( "A different material transformation process class (or similarly named class) pertaining to the conversion of a specific chemical into another belongs in CHEBI and or REX ontologies.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Experimental class for structural purposes not recommended for annotation. A material transformation process only refers to ENVO:environmental material classes (e.g. bulk and typically impure substances), rather than transformations converting a specific chemical into another.") AnnotationAssertion(rdfs:label "material transformation process"@en) SubClassOf( ) @@ -39414,7 +39414,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://www.waterencyclopedia.com/Re-St/Sea-Water-Freezing-of.html") "A material transformation process during which seawater freezes into sea ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea ice formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39425,7 +39425,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Brine_rejection") "A material transformation process during which brine is formed due to the expulsion of salt during frazil formation or a seawater freezing process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Expelled salt accumulates in brine droplets, which remain in a liquid state due to their increased salinity.") AnnotationAssertion(rdfs:label "brine rejection from seawater"@en) SubClassOf( ) @@ -39442,7 +39442,7 @@ Currently the new ice classes are not specific to sea water as they may form in AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "http://sweetontology.net/realmCryo/FrazilIce") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Typically 3 to 4 millimeters in diameter. These new ice classes refer to both marine water and fresh water ice. If using this term for annotation, use it in conjunction with another envo term to express whether the ice is in a marine, freshwater, or other system.") AnnotationAssertion(rdfs:label "frazil ice"@en) SubClassOf( ) @@ -39457,7 +39457,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Frazil_ice#Formation") Annotation( "https://nsidc.org/cryosphere/glossary/term/frazil") "A new ice formation process during which small, needle-like crystals consisting of nearly pure fresh water, form due to the freezing of open, turbulent, supercooled water.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "frazil ice formation"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39469,7 +39469,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "thaw holes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "thaw hole"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39481,7 +39481,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0001-5812-6405") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmosphere-exposed melt pond"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) SubClassOf( ) @@ -39496,7 +39496,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0001-5812-6405") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "In practice, there may be some openings which are small relative to the surface footprint of the meltpond.") AnnotationAssertion(rdfs:label "ice-encased melt pond"@en) SubClassOf( ) @@ -39512,7 +39512,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "intraglacial lakes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "intraglacial lake"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39523,7 +39523,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Deposition_(geology)") "A process during which material entities are added to a landform or to a feature upon the landform.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "depositional process"@en) SubClassOf( ) @@ -39532,7 +39532,7 @@ SubClassOf( "A desublimation process during which water vapour is frozen into water ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "desublimation of water vapour into ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39543,7 +39543,7 @@ AnnotationAssertion(Annotation( "Make this class the union of the following processes: frazil ice formation, grease ice formation process, slush formation process, and shuga formation process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "new ice formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39555,7 +39555,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "ENVO:03000044") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "obsolete sea ice formation process"@en) AnnotationAssertion(owl:deprecated "true"^^xsd:boolean) @@ -39564,7 +39564,7 @@ AnnotationAssertion(owl:deprecated "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") Annotation( "https://nsidc.org/cryosphere/glossary/term/nilas") "A sea ice formation process during which new ice crystals freeze together, forming nilas, a thin, elastic, continuous, ice sheet of a transparent gray color.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nilas formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39575,7 +39575,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "A sea ice formation process during which water freezes to the bottom of an existing nilas ice floe creating a thicker ice floe known as young ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "young ice formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ))) @@ -39586,7 +39586,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "A sea ice formation process during which seawater freezes onto young ice during the cold season, forming first year ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "First year ice that survives melting during spring and summer can transition to second year ice.") AnnotationAssertion(rdfs:label "first year ice formation process"@en) SubClassOf( ) @@ -39598,7 +39598,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "A sea ice formation process during which seawater freezes onto first year ice during the cold season, forming second year sea ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Second year ice forms from first year ice which has previously survived one melt season.") AnnotationAssertion(rdfs:label "second year ice formation"@en) SubClassOf( ) @@ -39610,7 +39610,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "A sea ice formation process during which seawater freezes into second year ice during the cold season, forming multiyear ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Multiyear ice forms from second year ice which has previously survived at least two melt seasons.") AnnotationAssertion(rdfs:label "multiyear ice formation process"@en) SubClassOf( ) @@ -39623,7 +39623,7 @@ AnnotationAssertion(Annotation(rdfs:comment "https://nsidc.org/cryosphere/glossa AnnotationAssertion( "Currently the new ice classes are not specific to sea water as they may form in non marine systems, but it would be good to confirm this especially for frazil ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "sea ice types include frazil, grease ice, slush, and shuga. These new ice classes refer to both marine water and fresh water ice. If using this term for annotation, use it in conjunction with another envo term to express whether the ice is in a marine, freshwater, or other system.") AnnotationAssertion(rdfs:label "new ice"@en) SubClassOf( ) @@ -39636,7 +39636,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "ice floes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "http://hdl.handle.net/11329/394") rdfs:comment "Ice floes can exist in sea ice, in rivers or lakes. The WMO offers the following extent-based classification. Floe giant: Over 10 km across. Floe vast: 2-10 km across. Floe big: 500-2000 m across. Floe medium: 100-500 m across. Floe small: 20-100 m across. Ice cake: Less than 20 m across. Small ice cake: Less than 2 m across.") AnnotationAssertion(rdfs:label "ice floe"@en) @@ -39654,7 +39654,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "http://sweetontology.net/realmCryo/Floe") AnnotationAssertion( "sea ice floes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "sea ice floe"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39666,7 +39666,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Pancake_ice") Annotation( "https://web.archive.org/web/20040712022508/http://ice-glaces.ec.gc.ca:80/App/WsvPageDsp.cfm?ID=10992&Lang=eng") "A sea ice floe which has a rounded or circular shape and raised rims.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "pancake ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39679,7 +39679,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://encyclopedia2.thefreedictionary.com/nilas") Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") Annotation( "https://nsidc.org/cryosphere/glossary/term/nilas") "A sea ice floe which is thin, elastic, continuous, and of a transparent gray color, which results from the freezing of new ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "nilas"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39694,7 +39694,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "A sea ice floe which is inflexible and thicker than nilas.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "young ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39710,7 +39710,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "http://sweetontology.net/realmCryo/SeasonalIce") AnnotationAssertion(Annotation(rdfs:comment "First year ice which melts before the next freezing season is often referred to as seasonal ice. By definition, seasonal ice cannot become second year ice.") "seasonal ice") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://orcid.org/0000-0003-4808-4736") rdfs:comment "Sea ice develops from young ice; thickness from 0.3 to 2 meters (1 to 6.6 feet). Sea ice be subdivided into thin first-year ice (white ice), medium first-year ice, and thick first-year ice. First-year ice is distinguished from older ice primarily by having a higher salinity. Undeformed first-year ice differs from older ice in that it is smoother and lacks refrozen melt ponds. Characteristically level where undisturbed by pressure, but where ridges occur, they distinguished by being larger, more angular, and more porous than multiyear ridges.") AnnotationAssertion(rdfs:label "first year ice"@en) SubClassOf( ) @@ -39723,7 +39723,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "Sea ice which is thicker than first year ice, and has survived a seasonal melting process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "second year ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39734,7 +39734,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Sea_ice#New_ice.2C_nilas_and_young_ice") "Sea ice which is thicker than second year ice, and has survived more than two seasonal melting process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "multiyear ice"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39745,7 +39745,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://nsidc.org/cryosphere/glossary/term/grease-ice") "A layer which consists of a thin aggregate of frazil ice crystals, which float upon the surface of a water body.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Within a marine system, grease ice makes the ocean surface resemble an oil slick.") AnnotationAssertion(rdfs:label "grease ice layer"@en) SubClassOf( ) @@ -39757,7 +39757,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://encyclopedia2.thefreedictionary.com/shuga") Annotation( "https://nsidc.org/cryosphere/glossary/term/shuga") "New ice, which is spongy, lumpy and opaque, and forms from water which freezes in an agitated water body.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "These new ice classes refer to both marine water and fresh water ice. If using this term for annotation, use it in conjunction with another envo term to express whether the ice is in a marine, freshwater, or other system.") AnnotationAssertion(rdfs:label "shuga"@en) SubClassOf( ) @@ -39768,7 +39768,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Slush") Annotation( "https://nsidc.org/cryosphere/glossary/term/slush") "A slurry of frazil, snow, and liquid water.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "These new ice classes refer to both marine water and fresh water ice. If using this term for annotation, use it in conjunction with another envo term to express whether the ice is in a marine, freshwater, or other system.") AnnotationAssertion(rdfs:label "slush ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( )))) @@ -39779,7 +39779,7 @@ SubClassOf( "https://en.wikipedia.org/wiki/Slush") "A layer which consists of slush ice.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "slush ice layer"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39790,7 +39790,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A new ice formation process in which slush ice is formed.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "slush formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ))) @@ -39801,7 +39801,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A new ice formation process in which shuga is formed.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "shuga formation process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39815,7 +39815,7 @@ AnnotationAssertion( "cave-in lake") AnnotationAssertion( "thaw lake") AnnotationAssertion( "thermokarst lakes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Continued thawing of the permafrost substrate can lead to the drainage and eventual disappearance of thermokarst lakes, leaving only the landform, thermokarst depression behind.") AnnotationAssertion(rdfs:label "thermokarst lake"@en) SubClassOf( ) @@ -39829,7 +39829,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://www.sciencealert.com/photos-reveal-more-than-200-bright-blue-arctic-lakes-have-started-bubbling-with-methane-gas") "A thermokarst lake through which methane gas released from thawing permafrost, or other methane stores, rises and escapes to the atmosphere.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "On Earth, the bright blue appearance, in the light spectrum visible to humans, is due to increased abundances of microorganisms attracted to sulfur compounds associated with the methane release.") AnnotationAssertion(rdfs:label "methane-releasing thermokarst lake"@en) SubClassOf( ) @@ -39842,7 +39842,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation(rdfs:comment "https://en.wikipedia.org/wiki/Thermokarst") "A geographic basin which is formed due to the erosion of thermokarst by meltwater released from thawing permafrost.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "thermokarst depression"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39853,7 +39853,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Thermokarst") "An irregular land surface which consists of marshy hollows, hummocks, thermokarst depressions and thermokarst lakes formed from the erosion of ice-rich thawing permafrost areas.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Thermokarst is usually found in Arctic or mountainous areas.") AnnotationAssertion(rdfs:label "thermokarst"@en) SubClassOf( ) @@ -39865,7 +39865,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Permafrost") "A permafrost thawing process during which water-based ice or snow present in permafrost is converted into meltwater.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ice-bearing permafrost thawing process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39880,7 +39880,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "bulgunyakh") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Other hydrocarbon gasses such as carbon dioxide may also be present. These pockets can be sufficently large that the permafrost surface will undulate when pressure is applied.") AnnotationAssertion(rdfs:label "methane-laden permafrost"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -39892,7 +39892,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "gigantic funnel") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "permafrost crater derived from a methane explosion"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39903,7 +39903,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "explosion") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Supersonic explosions are known as detonations and subsonic explosions as deflagrations.") AnnotationAssertion(rdfs:label "explosion process"@en) SubClassOf( ) @@ -39916,8 +39916,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://www.nature.com/news/mysterious-siberian-crater-attributed-to-methane-1.15649") Annotation( "http://www.sciencealert.com/7-000-huge-gas-bubbles-have-formed-under-siberia-and-could-explode-at-any-moment") "An explosion during which methane-rich gas trapped in permafrost combusts.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "permafrost methane explosion"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -39930,7 +39930,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Greenhouse_gas") "A material transport process during which a portion of gaseous environmental material is transported into the atmosphere.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "gas emission process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectComplementOf(ObjectSomeValuesFrom( ))))) @@ -39941,7 +39941,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.epa.gov/ghgemissions/overview-greenhouse-gases") "A gas emission process during which a portion of hydrocarbon gas is transported into the atmosphere.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Some hydrocarbon gasses within the atmosphere contribute to the planetary green house gas effect by increasing absorption of solar energy.") AnnotationAssertion(rdfs:label "hydrocarbon gas emission process"@en) SubClassOf( ) @@ -39953,7 +39953,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.epa.gov/ghgemissions/overview-greenhouse-gases") "A hydrocarbon gas emission process during which a portion of methane gas is transported into the atmosphere.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Methane is emitted during the production and transport of coal, natural gas, and oil. Methane emissions also result from livestock and other agricultural practices and by the decay of organic waste in municipal solid waste landfills.") AnnotationAssertion(rdfs:label "methane gas emission process"@en) SubClassOf( ) @@ -39964,7 +39964,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A process during which the intesity of stellar radiation received by a planet's surface varies in a cyclical regime due to the planet's orbital motion around the barycentre of a planetary system and/or the tilt of its rotational axis relative to its orbital plane.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The seasons that are generated by this process are divisions of time between warm (maximal radiation exposure) and cold (minimum radiation exposure) extremes. Depending on the planet's makeup, the resulting seasonal dynamics may include ecological and meteorological cycles which may form the basis for further divisions of the cycle (e.g. rainy season, dry season, wildfire season).") AnnotationAssertion(rdfs:label "season generating process"@en) SubClassOf( ) @@ -39978,8 +39978,8 @@ AnnotationAssertion( "Season could be implemented as a subclass of one-dimensional temporal region, however, this will need further thought and discussion with BFO editors.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoAstro") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "season"@en) SubClassOf( ) @@ -39988,7 +39988,7 @@ SubClassOf( "A season during which the average temperature of a planetary part exceeds that of all other seasons it endures during a season generating process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The boundaries of seasons are typically fiat and should be defined on a data/information layer. This also pertains to the amount of time included when averaging measured values of qualities like temperature.") AnnotationAssertion(rdfs:label "warm season"@en) SubClassOf( ) @@ -39998,7 +39998,7 @@ SubClassOf( "A season during which the average temperature of a planetary part is below that of all other seasons it endures during a season generating process.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The boundaries of seasons are typically fiat and should be defined on a data/information layer. This also pertains to the amount of time included when averaging measured values of qualities like temperature.") AnnotationAssertion(rdfs:label "cold season"@en) SubClassOf( ) @@ -40008,7 +40008,7 @@ SubClassOf( "A material transformation process during which a material entity melts during a warm season.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "seasonal melting process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40021,7 +40021,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "solid-phase sintering"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -40033,7 +40033,7 @@ AnnotationAssertion( ) AnnotationAssertion( "") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "glacial sintering"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40045,7 +40045,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Snow#Drifting") "An aeolian transport process during which powdery snow is displaced and moved.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "aeolian transport of snow"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40057,7 +40057,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "drifting of unsintered snow") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snow drift formation"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40068,8 +40068,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Snow#Avalanche") "A mass wasting process during which slab snow rapidly moves down a sloping surface.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Slab avalanches account for most back-country fatalities.") AnnotationAssertion(rdfs:label "slab avalanche"@en) SubClassOf( ) @@ -40080,8 +40080,8 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "powder snow avalanche") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "powdery snow avalanche"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -40091,8 +40091,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Snow#Avalanche") "An avalanche during which a suspension of water and snow flows down a sloping surface.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "environmental_hazards") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Wet snow avalanches travel at a lower velocity than other types of avalanches.") AnnotationAssertion(rdfs:label "wet snow avalanche"@en) SubClassOf( ) @@ -40103,7 +40103,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "http://www.fsavalanche.org/slab") "Snow which is cohesive, hard and overlies weaker snow.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "slab snow"@en) SubClassOf( ) @@ -40113,7 +40113,7 @@ AnnotationAssertion( "Place holder class. Also the axiom should be changed to something along the lines of 'primairly composed of’ some ‘environmental material’ and ‘has quality’ frozen once PATO:frozen is imported.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "cryoform"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectUnionOf( )))) @@ -40125,7 +40125,7 @@ AnnotationAssertion( "accumulation of snow") AnnotationAssertion( "snow accumulation") AnnotationAssertion( "http://sweetontology.net/phenCryo/Accumulation") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snow mass"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -40137,7 +40137,7 @@ AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "snowdrift") AnnotationAssertion( "unsintered snow") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snow drift"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40149,7 +40149,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "snowpatch") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "snow patch"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40163,7 +40163,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "seasonal snowpatch") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "seasonal snow patch"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40178,7 +40178,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "perennial snowpatch") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "A snow patch is defined as perennial if it survives two or more melt seasons.") AnnotationAssertion(rdfs:label "perennial snow patch"@en) SubClassOf( ) @@ -40203,8 +40203,8 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) AnnotationAssertion( "snow pack"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Snowpack is found in geographic regions experiencing cold weather for extended periods of time.") AnnotationAssertion(rdfs:comment "The GCW analysis of multiple glossaries found eight definitions of snowpack, with many commonalities but also disagreements. Please see the corresponding report \"WMO GCW Nomenclature Assessment\" for more information."@en) AnnotationAssertion(rdfs:label "snowpack"@en) @@ -40218,7 +40218,7 @@ AnnotationAssertion(Annotation( "Intended to be a top level class for wide variety of channel-like entities. It’s particulars may change once more subclasses are accumulated. This is distinct from 'channel of a watercourse', which is a depression.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "channel"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40231,7 +40231,7 @@ AnnotationAssertion( "http://orcid.org/0000-0001-5812-6405") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "open melt pond") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "atmosphere and water column exposed melt pond"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40243,7 +40243,7 @@ AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0001-5812-6405") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "water column exposed melt pond"@en) SubClassOf( ) @@ -40253,7 +40253,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "subglacial lakes") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "subglacial lake"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40264,7 +40264,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.merriam-webster.com/dictionary/nivation") "An erosion process during which rock or soil is removed or degraded due to alternative thawing and freezing of meltwater beneath and at the margins of snowbanks.") AnnotationAssertion( ) AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "erosion through nivation"@en) SubClassOf( ) SubClassOf( ObjectUnionOf(ObjectIntersectionOf( ObjectSomeValuesFrom( )) ObjectSomeValuesFrom( ))) @@ -40346,7 +40346,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.publish.csiro.au/book/5971/") Annotation(rdfs:comment "http://gfmc.online/wp-content/uploads/AFAC-Bushfire-Glossary-Indexed-2012.pdf") "A fire which occurs in a grassland, combusting biomass stored in grasses as its primary fuel.") AnnotationAssertion( "http://orcid.org/0000-0002-3410-4655") AnnotationAssertion( "https://orcid.org/0000-0002-3884-3420") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "grass fire"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40383,8 +40383,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2020-10-14T20:13:10.917Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Blizzards typically reduces visibility to less than 1 km"@en) AnnotationAssertion(rdfs:label "WMO blizzard"@en) SubClassOf( ) @@ -40399,8 +40399,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2020-10-14T20:13:10.917Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The original definition has been edited to conform to ENVO's textual pattern. Subjective/observer-based differentia (e.g. visibility) have been moved to comments. The NSIDC definition notes that blizzards involve snow reducing visibility to less than one-quarter mile (0.4 km) and are associated with dangerous blizzard conditions."@en) AnnotationAssertion(rdfs:label "NSIDC blizzard"@en) SubClassOf( ) @@ -40415,8 +40415,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2020-10-14T20:13:10.917Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The original definition has been edited to conform to ENVO's textual pattern. Subjective/observer-based differentia (e.g. visibility) have been moved to comments."@en) AnnotationAssertion(rdfs:label "winter blizzard"@en) SubClassOf( ) @@ -40432,8 +40432,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2020-10-14T20:13:10.917Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( "https://www.treehugger.com/what-is-freezing-fog-4863382") rdfs:comment "Freezing fog forms when the air temperature is below freezing and the water droplets in the fog become supercooled.") AnnotationAssertion(rdfs:label "freezing fog"@en) SubClassOf( ) @@ -40457,8 +40457,8 @@ AnnotationAssertion( "snow granule"@en) AnnotationAssertion( "snow particle"@en) AnnotationAssertion( "granular snow"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Precipitation in the form of very small, white opaque particles of ice; the solid equivalent of drizzle. They resemble snow pellets in external appearance, but are more flattened and elongated, and generally have diameters of less than 1 mm; they neither shatter nor bounce when they hit a hard surface. Descriptions of the physical structure of snow grains vary widely and include very fine, simple ice crystals; tiny, complex snow crystals; small, compact bundles of rime; and particles with a rime core and a fine glaze coating. It is agreed that snow grains usually fall in very small quantities, mostly from stratus clouds or from fog, and never in the form of a shower."@en) AnnotationAssertion(rdfs:label "particle of snow"@en) SubClassOf( ) @@ -40487,8 +40487,8 @@ AnnotationAssertion( "frost flakes"@en) AnnotationAssertion( "frost fog"@en) AnnotationAssertion( "rime fog"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "The suspended particles may be partly ice crystals 20 to 100 micron in diameter, but chiefly, especially when dense, droxtals 12-20 micron in diameter. Ice fog is formed by direct freezing of supercooled water droplets with little growth directly from the vapor. It occurs at very low temperatures, and usually in clear, calm weather in high latitudes. The sun is usually visible and may cause halo phenomena or luminous pillars. Ice fog is rare at temperatures warmer than -30 °C, and increases in frequency with decreasing temperature until it is almost always present at air temperatures of -45 °C in the vicinity of a source of water vapor. Such sources are the open water of fast-flowing streams or of the sea, herds of animals, volcanoes, and especially products of combustion for heating or propulsion. At temperatures warmer than -30 °C, these sources can cause steam fog of liquid water droplets, which may turn into ice fog when cooled."@en) AnnotationAssertion(rdfs:label "ice fog"@en) SubClassOf( ) @@ -40506,8 +40506,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2020-11-18T21:04:41.822Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "In W. Köppen's 1936 climatic classification it is one of the polar climates, defined as having a mean temperature for the warmest month of less than 10°C (50°F) (in contrast to snow forest and temperate rainy climates) but higher than 0°C (32°F) (which is the limit of perpetual frost climate). Tundra is designated ET. Tundra climate appears as a temperature province in C. W. Thornthwaite's 1931 classification."@en) AnnotationAssertion(rdfs:label "tundra climate"@en) SubClassOf( ) @@ -40525,8 +40525,8 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) AnnotationAssertion( "snow cover"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Follows from the GCW's snow cover definition 2: In general, a layer of snow on the ground surface. Compare snowfield, snowpack. Given the SWEET terms location in its heirarchy I think only the 3rd definition is meant."@en) @@ -40547,8 +40547,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The quantification of snow water equivalent can be done through direct melting of snow in a defined area, or through the derivation of such a value from the processing of remote sensing data of, e.g., snow density and coverage."@en) AnnotationAssertion(rdfs:label "snow water equivalent"@en) SubClassOf( ) @@ -40568,8 +40568,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "The term generally refers to the portions of the Earth where water is in solid form, including snow cover, floating ice, glaciers, ice caps, ice sheets, seasonally frozen ground and perennially frozen ground (permafrost). The Cryosphere may be divided into the cryoatmosphere, the cryohydrosphere (snow cover, glaciers, and river, lake and sea Ice) and the cryolithosphere (perennially and seasonally cryotic ground, rock glacier). Some definitions consider the cryosphere to include any area of Earth which is sufficiently cold for pure water to freeze for at least a part of each year. It should be noted that \"Some authorities exclude the earth's atmosphere from the Earth's Cryosphere; others restrict the term Cryosphere to the regions of the earth's crust where Permafrost exists.\" Definitions of Cryosphere come from several glossaries including: @@ -40597,8 +40597,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "planetary cryosphere"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40617,8 +40617,8 @@ AnnotationAssertion( AnnotationAssertion( "area of snow cover"@en) AnnotationAssertion( "land covered by snow"@en) AnnotationAssertion( "snow covered land"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "The threshold at which land is considered covered by snow varies. Please define such thresholds on the instance level, or request a subclass of this class if a threshold you know of is used by a large community of practice or in an official definition. This is one of three classes representing the idea of snow cover in the GCW glossary in addition to depth of snow and snow cover. In the GCW this refers to 1. The areal extent of snow-covered ground, usually expressed as percent of total area in a given region."@en) AnnotationAssertion(rdfs:label "snow-covered land"@en) SubClassOf( ) @@ -40670,8 +40670,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "1. The areal extent of snow-covered ground, usually expressed as percent of total area in a given region. 2. In general, a layer of snow on the ground surface. Compare snowfield, snowpack. 3. The depth of snow on the ground, usually expressed in inches or centimeters."@en) AnnotationAssertion(rdfs:label "snow cover"@en) SubClassOf( ) @@ -40691,8 +40691,8 @@ AnnotationAssertion( "intense snowfall"@en) AnnotationAssertion( "heavy snow"@en) AnnotationAssertion( "intense snow"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "This generally means snowfall accumulating to 4 inches or more in depth in 12 hours or less; or snowfall accumulating to 6 inches or more in depth in 24 hours or less. In forecasts, snowfall amounts are expressed as a range of values, e.g., \"8 to 12 inches.\" However, in heavy snow situations where there is considerable uncertainty concerning the range of values, more appropriate phrases are used, such as \"...up to 12 inches...\" or alternatively \"...8 inches or more...\"."@en) AnnotationAssertion(rdfs:label "heavy snowfall"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -40714,8 +40714,8 @@ AnnotationAssertion( "ice grain"@en) AnnotationAssertion( "sleet"@en) AnnotationAssertion( "small hail"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "They may be spherical, irregular, or (rarely) conical in shape. Ice pellets usually bounce when hitting hard ground and make a sound upon impact. They can fall as continuous precipitation or in showers. Now internationally recognized, ice pellets includes two basically different types of precipitation, known in the United States as 1) sleet or grains of ice, generally transparent, globular, solid grains of ice that have formed from the freezing of raindrops or the refreezing of largely melted snowflakes when falling through a below-freezing layer of air near the earth's surface; and 2) small hail, generally translucent particles, consisting of snow pellets encased in a thin layer of ice. The ice layer may form either by the accretion of droplets upon the snow pellet or by the melting and refreezing of the surface of the snow pellet."@en) AnnotationAssertion(rdfs:label "ice pellet"@en) SubClassOf( ) @@ -40737,8 +40737,8 @@ AnnotationAssertion( AnnotationAssertion( ) AnnotationAssertion( "lake effect snow"@en) AnnotationAssertion( "lake-effect snow"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) Annotation( ) rdfs:comment "The formation of lake-effect snow depends on multiple factors, effecting the thresholds of temperature needed in the air and water masses. In the United States this phenomenon is most noted along the south and east shores of the Great Lakes during arctic cold-air outbreaks."@en) AnnotationAssertion(rdfs:label "lake-effect snowfall"@en) SubClassOf( ) @@ -40761,8 +40761,8 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) AnnotationAssertion( "lake effect snow storm"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Please see \"lake-effect snowfall\" for further definition. A lake effect snowstorm is a snowstorm occurring near or downwind from the shore of a lake resulting from the warming (destabilization) and moistening of relatively cold air during passage over a warm body of water."@en) AnnotationAssertion(rdfs:label "lake-effect snow storm"@en) SubClassOf( ) @@ -40785,8 +40785,8 @@ AnnotationAssertion( "lamb storm"@en) AnnotationAssertion( "lamb-blasts"@en) AnnotationAssertion( "lamb-showers"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "This term is primarily used in England and refers to snowfall in lambing season. It is referred to as a \"storm\" as it may adversly affect or kill newborn lambs."@en) AnnotationAssertion(rdfs:label "lambing storm"@en) SubClassOf( ) @@ -40804,8 +40804,8 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( "sleet"@en) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "WMO METEOTERM notes that other regions define this as a sudden brief rainfall with wind and hail but they don't state what those other regions are. WMO, METEOTERM is available at https://www.wmo.int/pages/prog/lsp/meteoterm_wmo_en.html, Last accessed [26/01/2016]."@en) @@ -40829,8 +40829,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "There are communities which consider rain with droplets above the liquid-solid phase transition point of water to be freezing rain should they freeze on contact with a supercooled surface."@en) AnnotationAssertion(rdfs:label "freezing rain"@en) SubClassOf( ) @@ -40847,8 +40847,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Individual units of hail are called hailstones. Thunderstorms that are characterized by strong updrafts, large liquid water contents, large cloud-drop sizes, and great vertical height are favorable to hail formation. The destructive effects of hailstorms upon plant and animal life, buildings and property, and aircraft in flight render them a prime object of weather modification studies. In aviation weather observations, hail is encoded A. Smaller particles of similar origin, formerly called small hail, may be classed as either ice pellets or snow pellets."@en) AnnotationAssertion(rdfs:label "hail"@en) SubClassOf( ) @@ -40865,8 +40865,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Nearly always formed within cumulonimbus clouds. Typically have a diameter ranging between 5 and 50 millimeters.") AnnotationAssertion(rdfs:label "hail stone"@en) SubClassOf( ) @@ -40884,8 +40884,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( "snowfall"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "falling snow"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40904,8 +40904,8 @@ AnnotationAssertion( AnnotationAssertion( "sleet"@en) AnnotationAssertion( ) AnnotationAssertion( "sleet fall"@en) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "In nature, water-based precipitation will likely always have some liquid and solid/frozen components (especially in higher atmospheric layers) - sleet is generally composed of these phases in comparable proportions. Note that formation processes differ between sleet and other frozen precipitation. For example, hail, being larger in size than sleet or ice pellets, is formed by the accumulation of layers of freezing water in the clouds. Sleet, however, is formed due to temperature difference in the atmosphere"@en) AnnotationAssertion(rdfs:label "precipitation of sleet"@en) SubClassOf( ) @@ -40923,8 +40923,8 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( "sleet"@en) AnnotationAssertion( ) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "The size of sleet pellets are considered to be, at most, the size of a pea, although thresholds vary across cultures."@en) AnnotationAssertion(rdfs:label "sleet pellet"@en) SubClassOf( ) @@ -40941,8 +40941,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "area of ice cover"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -40958,8 +40958,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "depth of water ice"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) @@ -41009,7 +41009,7 @@ AnnotationAssertion( "rifiuti antropogenici"@it) AnnotationAssertion( "anthropogener Abfall"@de) AnnotationAssertion( "menschengemachter Abfall"@de) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Very large objects that are discarded are typically considered \"debris\", but this term is loosely defined and there are no standard size classifications which can be used to distinguish debris from litter."@en) AnnotationAssertion(rdfs:label "anthropogenic litter"@en) SubClassOf( ) @@ -45407,8 +45407,8 @@ SubClassOf( "https://www.merriam-webster.com/dictionary/adfreezing") "Adfreezing is a freezing process during which two objects adhere to each other via ice.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-04T18:47:34Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "adfreezing"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45419,8 +45419,8 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) Annotation( "https://en.wikipedia.org/wiki/Frost_heaving") "Frost heaving is a process during which an upwards swelling of soil occurs due to freezing conditions caused by an increasing presence of ice as it grows towards the surface.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-04T20:17:35Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "frost heaving process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45435,9 +45435,9 @@ AnnotationAssertion( "ocean surface temperature") AnnotationAssertion( "sea surface temperature") AnnotationAssertion( "temperature of the ocean surface") -AnnotationAssertion( "envoEOVs") -AnnotationAssertion( "envoMarine") -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The exact meaning of surface varies according to the measurement method used, but it is between 1 millimetre (0.04 in) and 20 metres (70 ft) below the sea surface.") AnnotationAssertion(rdfs:label "temperature of sea surface"@en) SubClassOf( ) @@ -45448,7 +45448,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "The concentration of carbon dioxide when measured in soil.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-14T21:13:30Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "concentration of carbon dioxide in soil"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -45457,7 +45457,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "The concentration of carbon dioxide when measured in air.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-14T21:24:04Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "concentration of carbon dioxide in air"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -45466,7 +45466,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "The concentration of carbon dioxide when measured in freshwater.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-14T21:29:50Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "concentration of carbon dioxide in freshwater"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -45475,7 +45475,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "The concentration of carbon dioxide when measured in seawater.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-14T21:35:30Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "concentration of carbon dioxide in seawater"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( ))))) @@ -45484,7 +45484,7 @@ EquivalentClasses( ObjectIntersect AnnotationAssertion( "Water which is part of a lake.") AnnotationAssertion( ) AnnotationAssertion( "2019-03-20T20:15:54Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "lake water"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45494,7 +45494,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Soil_organic_matter") "Organic material in soil, which consists of plant and animal residues at various stages of decomposition, cells and tissues of soil organisms, and substances synthesized by soil organisms.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-05T00:53:06Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "soil organic matter"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45506,8 +45506,8 @@ AnnotationAssertion( ) AnnotationAssertion( "2019-04-08T05:22:28Z"^^xsd:dateTime) AnnotationAssertion( "active layer of permafrost") -AnnotationAssertion( "envoNceas") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "active permafrost layer"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45518,7 +45518,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "A surface layer which is composed primarily of soil.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-12T17:35:13Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "soil surface layer"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ObjectSomeValuesFrom( )) @@ -45528,7 +45528,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.nrcs.usda.gov/wps/portal/nrcs/detail/tx/home/?cid=stelprdb1254158") "A soil surface which is exposed to the troposphere, with no appreciable cover from vegetation or other material.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-12T17:57:08Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "bare soil surface layer"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45539,7 +45539,7 @@ AnnotationAssertion(Annotation( "Do not oversimplify the particulate environmental material subclasses with design patterns or similar. The materials have properties that their components do not - write full definitions including these where possible."@en) AnnotationAssertion( ) AnnotationAssertion( "2019-04-30T18:33:18Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "particulate organic matter"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45549,7 +45549,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://serc.carleton.edu/microbelife/research_methods/biogeochemical/organic_carbon.html") "Particulate organic matter which is composed primarily of carbon.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-30T18:33:35Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "particulate organic carbon"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45559,7 +45559,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion( "Particulate organic matter which is composed primarily of nitrogen.") AnnotationAssertion( ) AnnotationAssertion( "2019-04-30T18:33:45Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "particulate organic nitrogen"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45569,7 +45569,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "https://www.usgs.gov/faqs/what-carbon-sequestration?qt-news_science_products=0#qt-news_science_products") "A material accumulation process during which atmospheric carbon dioxide is captured and stored.") AnnotationAssertion( ) AnnotationAssertion( "2019-06-07T23:28:29Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "carbon sequestration process"@en) EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -45580,7 +45580,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( ) "A carbon sequestration process during which atmospheric carbon dioxide is captured and stored by biological processes.") AnnotationAssertion( ) AnnotationAssertion( "2019-06-07T23:33:27Z"^^xsd:dateTime) -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biotic carbon sequestration"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45591,7 +45591,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-06-07T23:33:38Z"^^xsd:dateTime) AnnotationAssertion( "abiotic carbon sequestration") -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "geological carbon sequestration"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45602,7 +45602,7 @@ AnnotationAssertion(Annotation( ) AnnotationAssertion( "2019-06-11T20:49:49Z"^^xsd:dateTime) AnnotationAssertion( "SDGIO:00010072") -AnnotationAssertion( "envoNceas") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "carbon sequestration by the ocean carbonate system"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -45617,7 +45617,7 @@ AnnotationAssertion( "2021-04-27T09:10:14Z"^^xsd:dateTime) AnnotationAssertion( "termoplasticità"@it) AnnotationAssertion( "熱塑性"@zh) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "thermoplasticity"@en) SubClassOf( ) @@ -45628,7 +45628,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-27T09:45:29Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "thermoplastic material"@en) SubClassOf( ) @@ -45654,7 +45654,7 @@ AnnotationAssertion( "thermoset material"@en) AnnotationAssertion( "thermoset"@en) AnnotationAssertion( "thermoset plastic"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Prior to curing, thermoset materials often occur as a soft solid or viscous liquid prepolymer or resin. In the literature, those are often referred to thermosetting resins. During curing process, well-defined and irreversible chemical networks form in three dimensions thus giving the thermosets a strong and rigid structure that can be added to other materials to increase strength."@en) AnnotationAssertion(rdfs:label "thermoset polymer"@en) @@ -45670,7 +45670,7 @@ AnnotationAssertion( "2021-05-04T13:42:05Z"^^xsd:dateTime) AnnotationAssertion( "Plastikschaumstück"@de) AnnotationAssertion( "Schaumstoffstück"@de) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Depending on the type of plastic used and the organisation of the foam, a piece of plastic foam can show elastic properties (even if the plastic it is made out of does not have elastic properties)."@en) AnnotationAssertion(rdfs:label "piece of plastic foam"@en) SubClassOf( ) @@ -45688,7 +45688,7 @@ AnnotationAssertion( "Kunststofffolie"@de) AnnotationAssertion( "plastic membrane"@en) AnnotationAssertion( "plastic sheet"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "The edge can be either smooth or angular."@en) AnnotationAssertion(rdfs:label "plastic film"@en) SubClassOf( ) @@ -45705,7 +45705,7 @@ AnnotationAssertion( "frammento di plastica"@it) AnnotationAssertion( "plastic flake"@en) AnnotationAssertion( "plastic granule"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "To avoid ambiguity, we are being stricter with the \"has broken off of a larger piece of plastic\" aspect compared to the GESAMP report, which originally stated \"having appearance of being broken down from a larger piece of litter\"."@en) AnnotationAssertion(rdfs:label "plastic fragment"@en) SubClassOf( ) @@ -45720,7 +45720,7 @@ AnnotationAssertion( "plastic fibre"@en) AnnotationAssertion( "plastic filament"@en) AnnotationAssertion( "plastic strand"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plastic line"@en) SubClassOf( ) @@ -45735,7 +45735,7 @@ AnnotationAssertion( "pellet de plástico"@es) AnnotationAssertion( "pellet di plastica"@it) AnnotationAssertion( "resin bead"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plastic pellet"@en) SubClassOf( ) @@ -45750,7 +45750,7 @@ AnnotationAssertion( "colonna d'acqua"@it) AnnotationAssertion( "columna de agua"@es) AnnotationAssertion( "水層"@zh) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "water column"@en) SubClassOf( ) @@ -45765,7 +45765,7 @@ AnnotationAssertion( "Biota"@de) AnnotationAssertion( "biota"@es) AnnotationAssertion( "biota"@it) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biota"@en) SubClassOf( ) @@ -45783,7 +45783,7 @@ AnnotationAssertion( "marine life"@en) AnnotationAssertion( "ocean life"@en) AnnotationAssertion( "sea life"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "marine biota"@en) SubClassOf( ) @@ -45799,7 +45799,7 @@ AnnotationAssertion( "biodegradación"@es) AnnotationAssertion( "biodegradazione"@it) AnnotationAssertion( "生物分解"@zh) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biodegradation"@en) SubClassOf( ) @@ -45814,7 +45814,7 @@ AnnotationAssertion( "biodegradación del plástico"@es) AnnotationAssertion( "biodegradazione della plastica"@it) AnnotationAssertion( "biological degradation of plastics"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "Biodegradation of plastic will lead to reduce molecular weight of that plastic."@en) AnnotationAssertion(rdfs:label "biodegradation of plastic"@en) SubClassOf( ) @@ -45830,7 +45830,7 @@ AnnotationAssertion( "expanded polymers"@en) AnnotationAssertion( "geschäumter Kunststoff"@de) AnnotationAssertion( "plastic foam"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "foamed plastic"@en) SubClassOf( ) @@ -45843,7 +45843,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-11T11:07:53Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "quality of a foam"@en) SubClassOf( ) @@ -45859,7 +45859,7 @@ AnnotationAssertion( "ingestione"@it) AnnotationAssertion( "ingestión"@es) AnnotationAssertion( "攝食"@zh) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Note that ingestion is not limited to materials which provide nutrition to an organism; indigestible or otherwise biologically inaccessible particles may also be ingested by organisms. Ingestion is also not limited to organisms with a mouth and digestive tract, as single-celled organisms like amoebae ingest material with their cell membrane. https://github.com/EnvironmentOntology/envo/pull/1153"@en) AnnotationAssertion(rdfs:label "ingestion"@en) @@ -45876,7 +45876,7 @@ AnnotationAssertion( "adsorbimento"@it) AnnotationAssertion( "adsorción"@es) AnnotationAssertion( "吸附"@zh) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "adsorption"@en) SubClassOf( ) @@ -45890,7 +45890,7 @@ AnnotationAssertion( "Fouling"@de) AnnotationAssertion( "incrostazione"@it) AnnotationAssertion( "incrustación"@es) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Following BFO:function semantics, this suggests that the functions of the object of which the surface is a part are affected in their realisation in one or more processes."@en) AnnotationAssertion(rdfs:label "fouling"@en) SubClassOf( ) @@ -45908,7 +45908,7 @@ AnnotationAssertion( "Makrofouling"@de) AnnotationAssertion( "Mikrofouling"@de) AnnotationAssertion( "Bewuchs"@de) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "The biological matter can be microscale (e.g. biofilms created by microorganism) and macroscale (created by macroorganism)."@en) AnnotationAssertion(rdfs:label "biofouling"@en) SubClassOf( ) @@ -45948,7 +45948,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-13T14:28:02Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "These granules are usually white or opaque but can be any color."@en) AnnotationAssertion(rdfs:label "granule of plastic foam"@en) SubClassOf( ) @@ -45964,7 +45964,7 @@ AnnotationAssertion( "Fragmentierung"@de) AnnotationAssertion( "fragmentación"@es) AnnotationAssertion( "frammentazione"@it) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fragmentation process"@en) SubClassOf( ) @@ -45976,7 +45976,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-13T14:48:17Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) Annotation( ) rdfs:comment "Some example of materials that undergo fragmentation due to weathering are rocks and plastics."@en) AnnotationAssertion(rdfs:label "fragmentation due to weathering"@en) SubClassOf( ) @@ -45992,7 +45992,7 @@ AnnotationAssertion( "plastica"@it) AnnotationAssertion( "塑膠"@zh) AnnotationAssertion(Annotation(rdfs:comment "In German \"Kunststoff\" connotes those plastics which have intentionally been shaped by some art, thus \"Kunst\"."@en) "Kunststoff"@de) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "\"High molecular mass\" can be ambiguous as it does not set a threshold for what is considered \"high\". Here we make no commitment to a threshold."@en) AnnotationAssertion(rdfs:label "plastic"@en) SubClassOf( ) @@ -46004,7 +46004,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-08T13:55:24Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This classification is based on the thresholds detailed in GESAMP report # 99 on recommendation from the SDG 14 indicator team."@en) AnnotationAssertion(rdfs:label "megaplastic particle"@en) SubClassOf( ) @@ -46016,7 +46016,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-08T14:01:58Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This classification is based on the thresholds detailed in GESAMP report # 99 on recommendation from the SDG 14 indicator team. While the definition is in accordance with the common use of this term (as per GESAMP report # 99), alternative size classifications exist and are detailed in the same report. An alternative classification is a piece of plastic which is between 25 and 50 millimetres in its longest dimension."@en) AnnotationAssertion(rdfs:label "macroplastic particle"@en) SubClassOf( ) @@ -46028,7 +46028,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-08T14:04:53Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This classification is based on the thresholds detailed in GESAMP report # 99 on recommendation from the SDG 14 indicator team. While the definition is in accordance with the common use of this term (as per GESAMP report # 99), alternative size classifications exist. Alternatives classifications are a piece of plastic which is less than 25 millimetres in its longest dimension, or a piece of plastic which is between 1 and 25 millimetres in its longest dimension."@en) AnnotationAssertion(rdfs:label "mesoplastic particle"@en) SubClassOf( ) @@ -46040,7 +46040,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-04-08T14:07:41Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "This classification is based on the thresholds detailed in GESAMP report # 99 on recommendation from the SDG 14 indicator team. While the definition is in accordance with the common use of this term (as per GESAMP report # 99), alternative size classifications exist. An alternative classification is a piece of plastic which has a diameter less than 100 nanometres. The GESAMP report states that it assumes a spherical shape for this size classification, which was understood to mean the generalised form of diameter, i.e. the largest distance between two points belonging to an object."@en) AnnotationAssertion(rdfs:label "nanoplastic particle"@en) SubClassOf( ) @@ -46055,7 +46055,7 @@ AnnotationAssertion( "Plastiksphäre"@de) AnnotationAssertion( "plastisfera"@es) AnnotationAssertion( "plastisfera"@it) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plastisphere"@en) SubClassOf( ) @@ -46067,7 +46067,7 @@ AnnotationAssertion( ) AnnotationAssertion( "2021-05-04T14:07:44Z"^^xsd:dateTime) AnnotationAssertion( "海洋廢棄物"@zh) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Very large objects that are discarded are typically considered \"debris\", but this term is loosely defined and there are no standard size classifications which can be used to distinguish debris from litter."@en) AnnotationAssertion(rdfs:label "marine anthropogenic litter"@en) SubClassOf( ) @@ -46080,7 +46080,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-04T14:13:18Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Very large objects that are discarded are typically considered \"debris\", but this term is loosely defined and there are no standard size classifications which can be used to distinguish debris from litter."@en) AnnotationAssertion(rdfs:label "littering"@en) SubClassOf( ) @@ -46094,7 +46094,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-05T14:15:43Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "litter role"@en) SubClassOf( ) @@ -46105,7 +46105,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-06T12:41:22Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "manufactured plastisphere"@en) SubClassOf( ) @@ -46117,7 +46117,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-07T09:09:37Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "natural plastic"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectUnionOf( ))) @@ -46134,8 +46134,8 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "manufactured plastic"@en) -AnnotationAssertion( "envoPlastics") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "synthetic plastic"@en) SubClassOf( ) @@ -46150,7 +46150,7 @@ AnnotationAssertion( "fischen"@de) AnnotationAssertion( "pesca"@es) AnnotationAssertion( "pesca"@it) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fishing"@en) SubClassOf( ) @@ -46162,7 +46162,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-07T18:00:11Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ghost fishing"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -46181,7 +46181,7 @@ AnnotationAssertion( "equipo de pesca"@es) AnnotationAssertion( "fishing tackle"@en) AnnotationAssertion( "漁具"@zh) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "fishing gear"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -46200,7 +46200,7 @@ AnnotationAssertion( "weggeworfene Angelausrüstung"@de) AnnotationAssertion( "weggeworfene Fischerreiausrüstung"@de) AnnotationAssertion( "weggeworfenes Angelzubehör"@de) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "In the literature, including GESAMP Report #99, this term is often referenced as part of abandoned, lost or otherwise discarded fishing gear (ALDFG)."@en) AnnotationAssertion(rdfs:label "discarded fishing gear"@en) SubClassOf( ) @@ -46213,7 +46213,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-07T18:11:07Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "In the literature, including GESAMP Report #99, this term is often referenced as part of abandoned, lost or otherwise discarded fishing gear (ALDFG)."@en) AnnotationAssertion(rdfs:label "abandoned fishing gear"@en) SubClassOf( ) @@ -46229,7 +46229,7 @@ AnnotationAssertion( "attrezzo di pesca perso"@it) AnnotationAssertion( "equipo de pesca perdido"@es) AnnotationAssertion( "verschollene Angelausrüstung"@de) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(Annotation( ) rdfs:comment "In the literature, including GESAMP Report #99, this term is often referenced as part of abandoned, lost or otherwise discarded fishing gear (ALDFG)."@en) AnnotationAssertion(rdfs:label "lost fishing gear"@en) SubClassOf( ) @@ -46245,7 +46245,7 @@ AnnotationAssertion( "meteorización"@es) AnnotationAssertion( "meteorizzazione"@it) AnnotationAssertion( "風化(作用)"@zh) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "The term \"weathering\" should not be confused with \"erosion\", which is the removal and transport of environmental material away from a site via exogenic processes."@en) AnnotationAssertion(rdfs:label "weathering"@en) SubClassOf( ) @@ -46262,7 +46262,7 @@ AnnotationAssertion( "Verstrickung"@de) AnnotationAssertion( "proceso de enredamiento"@es) AnnotationAssertion( "processo di impigliamento"@it) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "entanglement process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( ObjectIntersectionOf( ObjectSomeValuesFrom( )))) @@ -46275,7 +46275,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-07T18:47:14Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Examples of marine debris include boating gear, or fishing gear (active or derelict). Marine debris may be in water or on land."@en) AnnotationAssertion(rdfs:label "entanglement of organisms in marine debris"@en) SubClassOf( ) @@ -46290,7 +46290,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-10T10:54:01Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "biopolymer"@en) SubClassOf( ) @@ -46301,7 +46301,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-10T10:56:03Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "synthetic polymer"@en) SubClassOf( ) @@ -46312,7 +46312,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-10T11:07:40Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:comment "Very large objects that are discarded are typically considered \"debris\", but this term is loosely defined and there are no standard size classifications which can be used to distinguish debris from litter."@en) AnnotationAssertion(rdfs:label "coastal anthropogenic litter"@en) SubClassOf( ) @@ -46329,7 +46329,7 @@ AnnotationAssertion( "plastic production"@en) AnnotationAssertion( "producción de plástico"@es) AnnotationAssertion( "produzione di plastica"@it) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "plastic manufacturing process"@en) SubClassOf( ) SubClassOf( ObjectSomeValuesFrom( )) @@ -46341,7 +46341,7 @@ AnnotationAssertion( ) AnnotationAssertion( ) AnnotationAssertion( "2021-05-12T14:28:52Z"^^xsd:dateTime) -AnnotationAssertion( "envoPlastics") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "weathering of plastic"@en) SubClassOf( ) @@ -46795,7 +46795,7 @@ SubClassOf( ObjectSomeValuesFrom(< AnnotationAssertion(Annotation( "GOC:TermGenie") "An environment that is determined by an axilla skin.") AnnotationAssertion( "TermGenie") AnnotationAssertion( "2014-12-15T22:32:00Z") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "axilla skin environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf(Annotation( "true") ) @@ -46806,7 +46806,7 @@ SubClassOf(Annotation( AnnotationAssertion(Annotation( "GOC:TermGenie") "An environment that is determined by a mouth.") AnnotationAssertion( "TermGenie") AnnotationAssertion( "2015-04-10T23:34:03Z") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "mouth environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf(Annotation( "true") ) @@ -46853,8 +46853,8 @@ AnnotationAssertion(owl:deprecated "A one-dimensional temporal region during which an entity is exposed to stellar radiation."@en) AnnotationAssertion( "sunshine hours") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "hours of sunshine") SubClassOf( ) @@ -46862,7 +46862,7 @@ SubClassOf( "A hydrological precipitation process with a reduced rate relative to some historical average, typically resulting in ecosystemic perturbations.") AnnotationAssertion( "Drought is often defined as a temporal period of below-average precipitation, however, representing it as a temporal entity seems insufficient.") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "drought"@en) SubClassOf( ) @@ -46974,7 +46974,7 @@ AnnotationAssertion( "2013-04-27T04:28:27Z") AnnotationAssertion( "ENVO") AnnotationAssertion( "ENVO:2000005") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "freshwater algal bloom") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -47334,7 +47334,7 @@ SubClassOf( ObjectSomeValuesFrom( (intestine environment) AnnotationAssertion( "An environmental system determined by an intestine.") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "intestine environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -47342,7 +47342,7 @@ SubClassOf( (skin environment) AnnotationAssertion( "An environment determined by an area or zone of skin tissue.") -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "skin environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -47355,14 +47355,14 @@ SubClassOf( (face skin environment) -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "face skin environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) # Class: (feather environment) -AnnotationAssertion( "envoMeo") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "feather environment") EquivalentClasses( ObjectIntersectionOf( ObjectSomeValuesFrom( ))) SubClassOf( ) @@ -47410,7 +47410,7 @@ AnnotationAssertion(Annotation( "To be expanded to account for subtypes.") AnnotationAssertion( "UV radiation") AnnotationAssertion( "ENVO") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "ultraviolet radiation") SubClassOf( ) @@ -47422,7 +47422,7 @@ AnnotationAssertion( "X ray radiation") AnnotationAssertion( "ENVO") AnnotationAssertion(Annotation( "NCIT:C17262") "X-ray") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "X-ray radiation") SubClassOf( ) @@ -47431,7 +47431,7 @@ SubClassOf( ) AnnotationAssertion(Annotation( "https://en.wikipedia.org/wiki/Gamma_ray") "A radiation process during which penetrating electromagnetic radiation is emitted from the radioactive decay (gamma decay) of atomic nuclei.") AnnotationAssertion( "ENVO") -AnnotationAssertion( "environmental_hazards") +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "gamma-ray radiation") SubClassOf( ) @@ -47862,8 +47862,8 @@ ObjectPropertyAssertion( ) "A polar front between the deep, cold Arctic air and the shallower, warmer polar air of northern latitudes on Earth.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-20T13:47:18Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "Arctic front"@en) ClassAssertion( ) @@ -47872,8 +47872,8 @@ ClassAssertion( ) "A polar front between the deep, cold Antarctic air and the shallower, warmer polar air of southern latitudes on Earth.") AnnotationAssertion( ) AnnotationAssertion( "2019-08-20T13:48:44Z"^^xsd:dateTime) -AnnotationAssertion( "envoAtmo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "Antarctic front"@en) ClassAssertion( ) @@ -47974,13 +47974,13 @@ ClassAssertion( ) -AnnotationAssertion( "envoPlastics"@en) -AnnotationAssertion( "envoPlastics"@en) -AnnotationAssertion( "envoPlastics"@en) -AnnotationAssertion( "envoPlastics") -AnnotationAssertion( "envoPlastics"@en) -AnnotationAssertion( "envoPlastics"@en) -AnnotationAssertion( "envoPlastics"@en) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion( "soil pH"@en) AnnotationAssertion( ) AnnotationAssertion( ) @@ -47992,8 +47992,8 @@ AnnotationAssertion( "2021-04-14T18:57:18.275Z"^^xsd:dateTime) AnnotationAssertion( ) AnnotationAssertion( "snow cover") -AnnotationAssertion( "envoCryo") -AnnotationAssertion( "envoPolar") +AnnotationAssertion( ) +AnnotationAssertion( ) AnnotationAssertion(rdfs:label "editor preferred term~editor preferred label") AnnotationAssertion(rdfs:label "imported from") AnnotationAssertion(rdfs:label "expand expression to")