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An R-package for the analysis of long-term changes in water quality and streamflow, including the water-quality method Weighted Regressions on Time, Discharge, and Season (WRTDS)

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EGRET EGRET

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Exploration and Graphics for RivEr Trends (EGRET): An R-package for the analysis of long-term changes in water quality and streamflow, including the water-quality method Weighted Regressions on Time, Discharge, and Season (WRTDS).

Look for new and improved documentation here: https://doi-usgs.github.io/EGRET/

The link for the official USGS publication user guide is here:

https://pubs.usgs.gov/tm/04/a10/

A companion package EGRETci implements a set of approaches to the analysis of uncertainty associated with WRTDS trend analysis.

If you are familiar with the traditional EGRET workflow, check out the [Overview and Updates](https://doi-usgs.github.io/EGRET/articles/Overview.html to see how all the latest updates relate.

Recent introduction to WRTDS and the EGRET package at the 12th National Monitoring Conference April 19, 2021:

<iframe width="560" height="315" src="https://www.youtube.com/embed/d58h3nIc1cc" frameborder="0" allowfullscreen> </iframe>

New capabilities

Package Installation

To install the EGRET package, you must be using R 3.0 or greater and run the following command:

install.packages("EGRET")

Background:

Evaluating long-term changes in river conditions (water quality and discharge) is an important use of hydrologic data. To carry out such evaluations, the hydrologist needs tools to facilitate several key steps in the process: acquiring the data records from a variety of sources, structuring it in ways that facilitate the analysis, routines that will process the data to extract information about changes that may be happening, and graphical techniques that can display findings about change. The R package EGRET (Exploration and Graphics for RivEr Trends) was developed for carrying out each of these steps in an integrated manner. It is designed to accept easily data from three sources: U.S. Geological Survey hydrologic data, Water Quality Portal Data (currently including U.S. Environmental Protection Agency (EPA) STORET data, and USDA STEWARDS data), and user-supplied flat files. The EGRET package has components oriented towards the description of long-term changes in streamflow statistics (high flow, average flow, and low flow) as well as changes in water quality. For the water-quality analysis, it uses Weighted Regressions on Time, Discharge and Season (WRTDS) to describe long-term trends in both concentration and flux. EGRET also creates a wide range of graphical presentations of the water-quality data and of the WRTDS results. The following report serves as a user guide, providing detailed guidance on installation and use of the software, documentation of the analysis methods used, as well as guidance on some of the kinds of questions and approaches that the software can facilitate.

EGRET includes statistics and graphics for streamflow history, water quality trends, and the statistical modeling algorithm Weighted Regressions on Time, Discharge, and Season (WRTDS). Please see the official EGRET User Guide for more information on the EGRET package:

https://doi.org/10.3133/tm4A10 The best ways to learn about the WRTDS approach is to read the User Guide and two journal articles. These articles are available, for free, from the journals in which they were published. The first relates to nitrate and total phosphorus data for 9 rivers draining to Chesapeake Bay. The URL is:

https://onlinelibrary.wiley.com/doi/full/10.1111/j.1752-1688.2010.00482.x.

The second is an application to nitrate data for 8 monitoring sites on the Mississippi River or its major tributaries. The URL is:

https://pubs.acs.org/doi/abs/10.1021/es201221s

For a thorough discussion of the generalized flow normalization method implemented in the EGRET enhancements, see the paper: “Tracking changes in nutrient delivery to western Lake Erie: Approaches to compensate for variability and trends in streamflow” (doi:10.1016/j.jglr.2018.11.012).

Sample Workflow

WRTDS on the Choptank River at Greensboro MD, for Nitrate:

library(EGRET)

############################
# Gather discharge data:
siteID <- "01491000" #Choptank River at Greensboro, MD
startDate <- "" #Gets earliest date
endDate <- "2011-09-30"
# Gather sample data:
parameter_cd<-"00631" #5 digit USGS code
Sample <- readNWISSample(siteID,parameter_cd,startDate,endDate)
#Gets earliest date from Sample record:
#This is just one of many ways to assure the Daily record
#spans the Sample record
startDate <- min(as.character(Sample$Date)) 
# Gather discharge data:
Daily <- readNWISDaily(siteID,"00060",startDate,endDate)
# Gather site and parameter information:

# Here user must input some values for
# the default (interactive=TRUE)
INFO<- readNWISInfo(siteID,parameter_cd)
INFO$shortName <- "Choptank River at Greensboro, MD"

# Merge discharge with sample data:
eList <- mergeReport(INFO, Daily, Sample)
library(EGRET)
# Sample data included in package:
eList <- Choptank_eList

boxConcMonth(eList)

boxQTwice(eList)

plotConcTime(eList)

plotConcQ(eList)

multiPlotDataOverview(eList)

# Run WRTDS model:
eList <- modelEstimation(eList)
#> 
#>  first step running estCrossVal may take about 1 minute
#>  estCrossVal % complete:
#> 0    1   2   3   4   5   6   7   8   9   10  
#> 11   12  13  14  15  16  17  18  19  20  
#> 21   22  23  24  25  26  27  28  29  30  
#> 31   32  33  34  35  36  37  38  39  40  
#> 41   42  43  44  45  46  47  48  49  50  
#> 51   52  53  54  55  56  57  58  59  60  
#> 61   62  63  64  65  66  67  68  69  70  
#> 71   72  73  74  75  76  77  78  79  80  
#> 81   82  83  84  85  86  87  88  89  90  
#> 91   92  93  94  95  96  97  98  99  
#> Next step running  estSurfaces with survival regression:
#> Survival regression (% complete):
#> 0    1   2   3   4   5   6   7   8   9   10  
#> 11   12  13  14  15  16  17  18  19  20  
#> 21   22  23  24  25  26  27  28  29  30  
#> 31   32  33  34  35  36  37  38  39  40  
#> 41   42  43  44  45  46  47  48  49  50  
#> 51   52  53  54  55  56  57  58  59  60  
#> 61   62  63  64  65  66  67  68  69  70  
#> 71   72  73  74  75  76  77  78  79  80  
#> 81   82  83  84  85  86  87  88  89  90  
#> 91   92  93  94  95  96  97  98  99  
#> Survival regression: Done

#eList:
plotConcTimeDaily(eList)
#> plotGenConc = TRUE requires running WRTDSKalman
#>               on eList. Switching to WRTDS concentration.

plotFluxTimeDaily(eList)
#> plotGenFlux = TRUE requires running WRTDSKalman
#>               on eList. Switching to WRTDS concentration.

plotConcPred(eList)

plotFluxPred(eList)

plotResidPred(eList)

plotResidQ(eList)

plotResidTime(eList)

boxResidMonth(eList)

boxConcThree(eList)

plotConcHist(eList)

plotFluxHist(eList)

# Multi-line plots:
date1 <- "1985-09-01"
date2 <- "1997-09-01"
date3 <- "2010-09-01"
qBottom<-0.2
qTop<-10
plotConcQSmooth(eList, date1, date2, date3, qBottom, qTop, 
                   concMax=2,legendTop = 0.85)

q1 <- 2
q2 <- 10
q3 <- 20
centerDate <- "07-01"
yearEnd <- 1980
yearStart <- 2010
plotConcTimeSmooth(eList, q1, q2, q3, centerDate, yearStart, yearEnd, legendTop = 0.55, legendLeft = 1990)

# Multi-plots:
fluxBiasMulti(eList)

#Contour plots:
clevel<-seq(0,2,0.5)
yearStart <- 1980
yearEnd <- 2010

plotContours(eList, yearStart,yearEnd,qBottom=0.5,
             qTop = 20, contourLevels = clevel)

plotDiffContours(eList, year0 = 1990,
                 year1 = 2010,
                 qBottom = 0.5,
                 qTop = 20,
                 maxDiff = 0.6)

Sample workflow for a flowHistory application for the entire record

library(EGRET)

# Flow history analysis
# Gather discharge data:
siteID <- "01491000" #Choptank River at Greensboro, MD
startDate <- "" # Get earliest date
endDate <- "" # Get latest date
Daily <- readNWISDaily(siteID, "00060", startDate, endDate)
#> GET: https://waterservices.usgs.gov/nwis/dv/?site=01491000&format=rdb,1.0&ParameterCd=00060&StatCd=00003&startDT=1851-01-01
#> There are 28082 data points, and 28082 days.
# Gather site and parameter information:
# Here user must input some values for
# the default (interactive=TRUE)
INFO <- readNWISInfo(siteID, "00060")
#> GET: https://waterservices.usgs.gov/nwis/site/?siteOutput=Expanded&format=rdb&site=01491000
#> Your site for streamflow data is:
#>  01491000 .
#> Your site name is CHOPTANK RIVER NEAR GREENSBORO, MD 
#> but you can modify this to a short name in a style you prefer. 
#> This name will be used to label graphs and tables. 
#> If you want the program to use the name given above, just do a carriage return,
#> otherwise enter the preferred short name(no quotes):
#> 
#> The latitude and longitude of the site are:  38.99719 ,  -75.78581 (degrees north and west).
#> 
#> The drainage area at this site is  113 square miles
#>  which is being stored as 292.6687 square kilometers.
#> 
#> It is helpful to set up a station abbreviation when doing multi-site studies,
#> enter a unique id (three or four characters should work). It is case sensitive.  
#> Even if you don't feel you need an abbreviation for your site you need to enter something(no quotes):
#> 
#> Your water quality data are for parameter number:
#> 00060 
#> which has the name:' Discharge, cubic feet per second '.
#> Typically you will want a shorter name to be used in graphs and tables.
#> The suggested short name is:' Stream flow, mean. daily '.
#> If you would like to change the short name, enter it here, 
#> otherwise just hit enter (no quotes):
#> The units for the water quality data are:  ft3/s .
#> It is helpful to set up a constiuent abbreviation, enter a unique id 
#> three or four characters should work something like tn or tp or NO3).
#> Even if you don't feel you need an abbreviation you need to enter something (no quotes):
#> 
#> Required concentration units are mg/l. 
#> The INFO dataframe indicates: ft3/s 
#> Flux calculations will be wrong if units are not consistent.
INFO$shortName <- "Choptank River at Greensboro, MD"
eList <- as.egret(INFO, Daily, NA, NA)

# Check flow history data:
plotFlowSingle(eList, istat = 7,qUnit = "thousandCfs")

plotSDLogQ(eList)

plotQTimeDaily(eList, qLower = 1, qUnit = 3)

plotFour(eList, qUnit=3)

plotFourStats(eList, qUnit=3)

Reporting bugs

Please consider reporting bugs and asking questions on the Issues page: https://github.com/DOI-USGS/EGRET/issues

Subscribe

Please email questions, comments, and feedback to: [email protected]

Additionally, to subscribe to an email list concerning updates to these R packages, please send a request to [email protected].

Package Support

The Water Mission Area of the USGS has supported the development and maintenance of the EGRET R-package. Further maintenance is expected to be stable through October 2024. Resources are available primarily for maintenance and responding to user questions. Priorities on the development of new features are determined by the EGRET development team.

Sunset date

Funding for EGRET currently expires fall 2024. Expectations are that maintenance and customer service will continue to be supported past that date.

How to cite EGRET:

citation(package = "EGRET")
#> To cite EGRET in publications, please use:
#> 
#>   Hirsch, R.M., De Cicco, L.A., Murphy, J., 2024, Exploration and
#>   Graphics for RivEr Trends (EGRET), version 3.0.10,
#>   doi:10.5066/P9CC9JEX
#> 
#> A BibTeX entry for LaTeX users is
#> 
#>   @Manual{,
#>     author = {Robert Hirsch and Laura DeCicco and Jennifer Murphy},
#>     title = {Exploration and Graphics for RivEr Trends (EGRET)},
#>     publisher = {U.S. Geological Survey},
#>     year = {2024},
#>     url = {https://pubs.usgs.gov/tm/04/a10/},
#>   }

References

See this list for WRTDS applications in print:

https://doi-usgs.github.io/EGRET/articles/References_WRTDS.html

Disclaimer

This software is preliminary or provisional and is subject to revision. It is being provided to meet the need for timely best science. The software has not received final approval by the U.S. Geological Survey (USGS). No warranty, expressed or implied, is made by the USGS or the U.S. Government as to the functionality of the software and related material nor shall the fact of release constitute any such warranty. The software is provided on the condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from the authorized or unauthorized use of the software.

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An R-package for the analysis of long-term changes in water quality and streamflow, including the water-quality method Weighted Regressions on Time, Discharge, and Season (WRTDS)

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