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inout.f90
executable file
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inout.f90
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!**********************************************************************
! INOUT.FOR
!=======================================================================================
! Copyright 2015 Remko Duursma, Belinda Medlyn, Mathias Christina, Guerric le Maire
!---------------------------------------------------------------------------------------
! this file is part of MAESPA.
!
! MAESPA is free software: you can redistribute it and/or modify
! it under the terms of the gnu general public license as published by
! the free software foundation, either version 2 of the license, or
! (at your option) any later version.
!
! MAESPA is distributed in the hope that it will be useful,
! but without any warranty; without even the implied warranty of
! merchantability or fitness for a particular purpose. see the
! gnu general public license for more details.
!
! you should have received a copy of the gnu general public license
! along with MAESPA. if not, see <http://www.gnu.org/licenses/>.
!=======================================================================================
! This file contains all the subroutines for reading and writing to
! input and output files.
! The main subroutines (called externally) are:
! OPENINPUTF - opens the input files
! open_output_files - opens the output files
! CLOSEF - closes the files
! INPUTSTR - reads the canopy structure file str.dat
! INPUTPHY - reads the physiology file phy.dat
! INPUTTREE - reads the trees.dat file
! INPUTCON - reads the control file confile.dat
! INPUTSOIL - reads the soil/understorey file soil.dat // DOES NOT EXIST! (RAD)
! INPUTWATBAL - read the water balance / soil file watpars.dat (RAD, 2008).
! OUTPUTDY - outputs daily fluxes
! OUTPUTHR - outputs hourly fluxes
! OUTPUTLAY - outputs to layer flux file
! OUTPUTHIST - outputs PAR histogram
! SORTTREES - sorts the trees into order of distance from the target tree
! INTERPOLATEP - calls the daily interpolation routines for physiology
! INTERPOLATET - calls the daily interpolation routines for tree dimensions
! NB The subroutines to do with reading the met file are in getmet.for.
! Subsidiary subroutines are:
! INPUTSTR
! READCROWN - read crown shape
! READAERO - read aerodynamic properties (e.g. extinction of wind)
! READBETA - read leaf area density distribution
! READALLOM - read parameters for biomass vs height & diameter
! READLIA - read leaf incidence angle
! READLIA uses the following
! ANGLE - calculate the fraction of leaf area in each angle class
! AVGLIA - calculate the average LIA for a given ellipsoidal parameter
! INTEG - integrate leaf angle dist over specified range
! FANG - ellipsoidal leaf angle density function
! CALCELP - calculate ellipsoidal parameter from average LIA
! INPUTCON
! READDATES - read in start & end dates of simulation
! READMODEL - read in options for which model to use
! READZEN - read in number of angle classes & layers to use
! READHIST - read in details of PAR histogram required
! READCCSCEN - read in climate change scenario
! READOTC - read in effects of OTC on met data
! INPUTPHY
! READAGEP - read number of age classes for physiology parameters
! READPROP - read proportions of leaf area in each age class
! READABSRP - get leaf absorptance, reflectance & transmittance arrays
! READGS - read parameters of stomatal model
! READLEAFN - read in leaf nitrogen concentrations
! READJMAX - read in Jmax and Vcmax values
! READRD - read in parameters of leaf respiration
! READPHYARRAY - read array of physiological parameters
! (called by READLEAFN, READJMAX, READRD)
! READRW - read in parameters for woody respiration
! READRR - read in parameters for root respiration
! READRB - read in parameters for branch respiration
! RINTEG - convert physiology parameters spec. in layers to layers used
! (called by READBASRP, READPHYARRAY)
! INPUTTREE
! READPLOT - read dimensions of plot
! READXYZ - read co-ordinates of trees
! READTREEARRAY - read arrays of tree dimensions eg height, diameter
! GETLEAFAREA - A subroutine to read in leaf area array.
! CALCLAI - calculate plot LAI
! READZPD - read canopy dimensions (roughness length etc)
! READCONTREES - get list of target trees
! INEDGES - determine whether given tree is in plot edges or not
! INTERPOLATEP
! PHYINTERP - do interpolation of physiological parameters
! INTERPOLATET
! PHENOL - calculate leaf area from phenology parameters
! TREEINTERP - do interpolation of tree dimensions
! Unused: NOTREEGET, GETTREENO, READRSOIL
!**********************************************************************
!**********************************************************************
SUBROUTINE OPENINPUTF(CTITLE,TTITLE,PTITLE,STITLE,WTITLE,UTITLE,IWATFILE,KEEPZEN, &
IPOINTSI,ISIMUSI, in_path,out_path)
! This routine opens the input files.
! The filenames are defined in this routine.
!**********************************************************************
USE switches
USE maestcom
IMPLICIT NONE
INTEGER LEN1,IOERROR,IWATFILE, KEEPZEN, IPOINTSI,IPOINTS,ISIMUS,ISIMUSI
CHARACTER(LEN=*) CTITLE, TTITLE, PTITLE, STITLE, WTITLE, UTITLE
CHARACTER(LEN=*) in_path, out_path
CHARACTER(LEN=256) :: fin_dir, fout_dir
LOGICAL EXT
! Modified RAD
NAMELIST /CONTROL/ IOHRLY,IOTUTD,IOHIST,IORESP,IOWATBAL,IOFORMAT,ISUNLA,KEEPZEN,IPOINTS,ISIMUS,verbose,headers
NAMELIST /flocations/ fin_dir, fout_dir ! MGDK
990 FORMAT (A80) ! For reading titles in input files.
! Output file for errors and warnings
OPEN (UERROR, FILE = 'Maeserr.dat', STATUS = 'UNKNOWN')
! Read input file as tradition from confile.dat with control switches
INQUIRE(FILE = trim(in_path)//'confile.dat', EXIST=EXT)
IF(.NOT.EXT)THEN
CALL SUBERROR('ERROR: CONFILE.DAT DOES NOT EXIST' ,IFATAL,0)
ELSE
OPEN (UCONTROL, FILE = 'confile.dat', STATUS = 'OLD',IOSTAT=IOERROR)
ENDIF
READ (UCONTROL, 990) CTITLE
CTITLE = TRIM(CTITLE)
! Default
KEEPZEN = 0
IPOINTS = 0
VERBOSE = 1
headers = 1
READ (UCONTROL, CONTROL, IOSTAT = IOERROR)
IF (IOERROR.NE.0) CALL SUBERROR('WARNING: USING DEFAULT VALUES FOR CONTROL FILE', IWARN, IOERROR)
IPOINTSI = IPOINTS
ISIMUSI = ISIMUS
! get locations of input files and where to write the output files
REWIND(UCONTROL)
READ (UCONTROL, flocations, IOSTAT=IOERROR)
IF (IOERROR == -1) THEN
! i.e. it has reached the end of the file and not found the tag, I am sure
! there is a nicer way to do this
if(verbose.ge.1)print *, "***input directory set to working dir "
if(verbose.ge.1)print *, "***output directory set to working dir "
CALL SUBERROR('FLOCATIONS not set, using current directory for output.', IWARN, 0)
REWIND(UCONTROL)
else
in_path=fin_dir
out_path=fout_dir
call system("mkdir "//trim(out_path))
if(verbose.ge.1)print *, "***input directory set to: ",in_path
if(verbose.ge.1)print *, "***output directory set to: ",out_path
ENDIF
! Input file with data on tree position and size
INQUIRE(FILE = trim(in_path)//'trees.dat', EXIST=EXT)
IF (.NOT.EXT) THEN
CALL SUBERROR('ERROR: TREES.DAT DOES NOT EXIST', IFATAL, 0)
ELSE
OPEN (UTREES, FILE = trim(in_path)//'trees.dat', STATUS='OLD', IOSTAT=IOERROR)
ENDIF
! Input file with water balance parameters (RAD)
INQUIRE (FILE=TRIM(IN_PATH)//'watpars.dat', EXIST=EXT)
IF(.NOT.EXT)THEN
CALL SUBERROR('MAESTRA MODE - watpars.dat NOT FOUND. WATER BALANCE NOT SIMULATED.',IWARN,0)
IWATFILE = 0
ELSE
CALL SUBERROR('MAESPA MODE - watpars.dat FOUND. WATER BALANCE IS SIMULATED.',IWARN,0)
OPEN (UWATPARS, FILE = trim(in_path)//'watpars.dat', STATUS='OLD',IOSTAT=IOERROR)
IWATFILE = 1
ENDIF
! Input/output file with diffuse transmittances
OPEN (UTUTD, FILE = 'tutd.dat', STATUS='UNKNOWN')
! Input file for understorey parameters.
! Or if filename is missing:
INQUIRE (FILE=trim(in_path)//'USTOREY.DAT', EXIST=EXT)
IF(.NOT.EXT)THEN
CALL SUBERROR('USTOREY.DAT NOT FOUND. NO UNDERSTOREY SIMULATED.',IWARN, 0)
ISIMUSI = 0
ENDIF
IF(EXT)THEN
OPEN(USTOREYI, FILE=trim(in_path)//'ustorey.dat', STATUS='UNKNOWN',IOSTAT=IOERROR)
ENDIF
IF(ISIMUS.EQ.1.AND.IOERROR.EQ.0)THEN
UTITLE = ' ' !READ (USTOREYI, 990) UTITLE ! Why removed?
ELSE
UTITLE = ' '
ENDIF
! Read titles from input files
READ (UTREES, 990) TTITLE
IF(IWATFILE.EQ.1)THEN
READ (UWATPARS, 990) WTITLE !RAD
WTITLE = TRIM(WTITLE)
ELSE
WTITLE = ' '
ENDIF
RETURN
END SUBROUTINE OPENINPUTF
!**********************************************************************
SUBROUTINE OPEN_OUTPUT_FILES(ISIMUS,CTITLE,TTITLE,PTITLE,&
STITLE,MTITLE,VTITLE,WTITLE, &
NSPECIES,SPECIESNAMES,OUT_PATH,ISMAESPA,NOLAY)
! NOLAY added STH 2015.03.30
! This routine opens the output files.
! The filenames are defined in this routine.
! It also writes initial comments to the output files.
!**********************************************************************
USE switches
USE maestcom
IMPLICIT NONE
!INTEGER NSPECIES, IOERROR, DUMMY, ISIMUS
INTEGER NSPECIES, IOERROR, DUMMY, ISIMUS, NOLAY, I
!CHARACTER(*), INTENT(IN) :: CTITLE,TTITLE,PTITLE,STITLE,MTITLE,WTITLE,VTITLE,out_path
CHARACTER(*) :: CTITLE,TTITLE,PTITLE,STITLE,MTITLE,WTITLE,VTITLE,OUT_PATH
LOGICAL ISMAESPA
CHARACTER SPECIESNAMES(MAXSP)*30
CALL OPEN_FILE(trim(out_path)//'Met_out.dat', UMETOUT, 'write', 'asc', 'replace')
! Output file with daily fluxes
IF (IODAILY .GT. 0 .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'Dayflx.dat', UDAILY, 'write', 'asc', 'replace')
ELSE IF (IODAILY .GT. 0 .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'Dayflx.bin', UDAILY, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'Dayflx.hdr', UDAYHDR, 'write', 'asc', 'replace')
END IF
! Output file with hourly fluxes (if required).
IF (IOHRLY.GT.0 .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'hrflux.dat', UHRLY, 'write', 'asc', 'replace')
ELSE IF (IOHRLY.GT.0 .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'hrflux.bin', UHRLY, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'hrflux.hdr', UHRLYHDR, 'write', 'asc', 'replace')
ENDIF
! Output file with layer fluxes (if required).
IF (IOHRLY.GT.1 .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'layflx.dat', ULAY, 'write', 'asc', 'replace')
ELSE IF (IOHRLY.GT.1 .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'layflx.bin', ULAY, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'layflx.hdr', ULAYHDR, 'write', 'asc', 'replace')
ENDIF
! Output file with histogram (if required).
IF (IOHIST.EQ.1 .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'histo.dat', UHIST, 'write', 'asc', 'replace')
ELSE IF (IOHIST.EQ.1 .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'histo.bin', UHIST, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'histo.hdr', UHISTHDR, 'write', 'asc', 'replace')
END IF
! Output file for respiration (if required).
IF (IORESP.EQ.1 .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'resp.dat', URESP, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'resphr.dat', URESPHR, 'write', 'asc', 'replace')
ELSE IF (IORESP .EQ. 1 .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'resp.bin', URESP, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'resp.hdr', URESPHDR, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'resphr.bin', URESPHR, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'resphr.hdr', URESPHRHDR, 'write', 'asc', 'replace')
END IF
CALL OPEN_FILE(trim(out_path)//'wattest.dat', UWATTEST, 'write', 'asc', 'replace')
! Output file for water balance (if requested by setting IOWATBAL = 1 in confile.dat).
IF (ISMAESPA .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'watbal.dat', UWATBAL, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watlay.dat', UWATLAY, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'swplay.dat', USWPLAY, 'write', 'asc', 'replace') ! mathias décembre 2012
CALL OPEN_FILE(trim(out_path)//'watsoilt.dat', USOILT, 'write', 'asc', 'replace')
!CALL OPEN_FILE(trim(out_path)//'wattest.dat', UWATTEST, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watupt.dat', UWATUPT, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watbalday.dat', UWATDAY, 'write', 'asc', 'replace')
ELSE IF (ISMAESPA .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'watbal.bin', UWATBAL, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'watbal.hdr', UWATBALHDR, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watlay.bin', UWATLAY, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'watlay.hdr', UWATLAYHDR, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watsoilt.bin', USOILT, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'watsoilt.hdr', USOILTHDR, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'wattest.bin', UWATTEST, 'write', 'bin', 'replace')
!CALL OPEN_FILE(trim(out_path)//'wattest.hdr', UWATTESTHDR, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watupt.bin', UWATUPT, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'watupt.hdr', UWATUPTHDR, 'write', 'asc', 'replace')
CALL OPEN_FILE(trim(out_path)//'watbalday.bin', UWATDAY, 'write', 'bin', 'replace')
CALL OPEN_FILE(trim(out_path)//'watbalday.hdr', UWATDAYHDR, 'write', 'asc', 'replace')
END IF
! Write to sunla flux !!!!!
IF(ISUNLA.EQ.1)THEN ! Mathias 27/11/12
CALL OPEN_FILE(trim(out_path)//'Canopy_points_out.dat', USUNLA, 'write', 'asc', 'replace')
ENDIF
IF(ISIMUS.EQ.1 .AND. IOFORMAT .EQ. 0) THEN
CALL OPEN_FILE(trim(out_path)//'uspar.dat', UPARUS, 'write', 'asc', 'replace')
ELSE IF(ISIMUS.EQ.1 .AND. IOFORMAT .EQ. 1) THEN
CALL OPEN_FILE(trim(out_path)//'uspar.bin', UPARUS, 'write', 'bin', 'replace')
ENDIF
CALL WRITE_HEADER_INFORMATIO(NSPECIES,SPECIESNAMES, &
CTITLE,TTITLE,PTITLE,STITLE, &
MTITLE,WTITLE,VTITLE,ISMAESPA,ISIMUS,nolay) !STH 2015.03.30 added NOLAY
RETURN
END SUBROUTINE open_output_files
!**********************************************************************
SUBROUTINE WRITE_HEADER_INFORMATIO(NSPECIES,SPECIESNAMES, &
CTITLE,TTITLE,PTITLE,STITLE,MTITLE,WTITLE,VTITLE, &
ISMAESPA,ISIMUS,nolay)
!**********************************************************************
USE switches
USE maestcom
IMPLICIT NONE
INTEGER I,NSPECIES,ISIMUS,nolay
CHARACTER(*), INTENT(IN) :: CTITLE,TTITLE,PTITLE,STITLE,MTITLE,WTITLE,VTITLE
CHARACTER SPECIESNAMES(MAXSP)*30
LOGICAL ISMAESPA
if(verbose.ge.2)print *, "***Writing headers to output files..."
! write headers to single ascii file
IF (IOFORMAT .EQ. 0) THEN
IF (ISUNLA.EQ.1) THEN
WRITE (USUNLA,461) ! MAthias 27/11/12
END IF
if (headers.ge.1) then
WRITE (UMETOUT, 991) 'Program: ', VTITLE
WRITE (UMETOUT, 991) 'Met data: ', MTITLE
write (UMETOUT, 701)
write (UMETOUT, 704)
write (UMETOUT, 101)
write (UMETOUT, 102)
write (UMETOUT, 103)
write (UMETOUT, 104)
!write (UMETOUT, 105)
write (UMETOUT, 106)
write (UMETOUT, 107)
write (UMETOUT, 108)
write (UMETOUT, 109)
write (UMETOUT, 110)
write (UMETOUT, 111)
write (UMETOUT, 112)
write (UMETOUT, 113)
write (UMETOUT, 114)
!write (UMETOUT, 115)
write (UMETOUT, 116)
write (UMETOUT, 117)
write (UMETOUT, 118)
endif
write (UMETOUT, 125)
!Write headings to daily flux file
IF (IODAILY.GT.0) THEN
if (headers.ge.1) then
WRITE (UDAILY, 991) 'Program: ', VTITLE
WRITE (UDAILY, 991) 'Control: ', CTITLE
WRITE (UDAILY, 991) 'Trees: ', TTITLE
WRITE (UDAILY, 991) 'Structure: ', 'Multispecies' ! STITLE
WRITE (UDAILY, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (UDAILY, 991) 'Met data: ', MTITLE
IF(IOWATBAL.EQ.1)WRITE (UDAILY, 991) 'Water bal.: ', WTITLE
WRITE (UDAILY, 990) ' '
IF(NSPECIES.GT.1)THEN
WRITE(UDAILY, *)'Species codes:'
DO I = 1,NSPECIES
WRITE (UDAILY, *) I, " : " // SPECIESNAMES(I)
END DO
WRITE(UDAILY,990) ' '
ENDIF
WRITE (UDAILY,501)
WRITE (UDAILY,502)
WRITE (UDAILY,503)
WRITE (UDAILY,504)
WRITE (UDAILY,505)
WRITE (UDAILY,506)
WRITE (UDAILY,507)
WRITE (UDAILY,508)
WRITE (UDAILY,509)
WRITE (UDAILY,510)
WRITE (UDAILY,511)
WRITE (UDAILY,512)
WRITE (UDAILY,990) ' '
endif
WRITE (UDAILY,513)
END IF
!Comments to hourly output file (if required).
IF (IOHRLY.gt.0) THEN
if (headers.ge.1) then
WRITE (UHRLY, 991) 'Program: ', VTITLE
WRITE (UHRLY, 991) 'Control: ', CTITLE
WRITE (UHRLY, 991) 'Trees: ', TTITLE
WRITE (UHRLY, 991) 'Structure: ', 'Multispecies' !STITLE
WRITE (UHRLY, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (UHRLY, 991) 'Met data: ', MTITLE
IF(IOWATBAL.EQ.1)WRITE (UHRLY, 991) 'Water bal.: ', WTITLE
WRITE (UHRLY, 990) ' '
IF(NSPECIES.GT.1)THEN
WRITE(UHRLY, *)'Species codes:'
DO I = 1,NSPECIES
WRITE (UHRLY, *) I, " : " // SPECIESNAMES(I)
END DO
WRITE(UHRLY,990) ' '
END IF
WRITE (UHRLY,701)
WRITE (UHRLY,702)
WRITE (UHRLY,703)
WRITE (UHRLY,704)
WRITE (UHRLY,705)
WRITE (UHRLY,706)
WRITE (UHRLY,707)
WRITE (UHRLY,708)
WRITE (UHRLY,709)
WRITE (UHRLY,710)
WRITE (UHRLY,711)
WRITE (UHRLY,712)
WRITE (UHRLY,713)
WRITE (UHRLY,714)
WRITE (UHRLY,715)
WRITE (UHRLY,716)
! WRITE (UHRLY,717)
WRITE (UHRLY,718)
WRITE (UHRLY,719)
WRITE (UHRLY,720)
WRITE (UHRLY,721)
WRITE (UHRLY,722)
WRITE (UHRLY,723)
WRITE (UHRLY,724)
WRITE (UHRLY,726)
WRITE (UHRLY,727)
WRITE (UHRLY,728)
WRITE (UHRLY, 990) ' '
endif
WRITE (UHRLY,725)
END IF
! Comments to respiration output file (if required).
IF (IORESP.gt.0) THEN
if (headers.ge.1) then
WRITE (URESP, 991) 'Program: ', VTITLE
WRITE (URESP, 991) 'Control: ', CTITLE
WRITE (URESP, 991) 'Trees: ', TTITLE
WRITE (URESP, 991) 'Structure: ', 'Multispecies' !STITLE
WRITE (URESP, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (URESP, 991) 'Met data: ', MTITLE
WRITE (URESP, 990) ' '
WRITE (URESP,601)
WRITE (URESP,602)
WRITE (URESP,603)
WRITE (URESP,604)
WRITE (URESP,605)
WRITE (URESP,606)
WRITE (URESP,607)
WRITE (URESP,608)
WRITE (URESP,609)
WRITE (URESP,610)
WRITE (URESP,611)
WRITE (URESP, 990) ' '
endif
WRITE (URESP,612)
if (headers.ge.1) then
WRITE (URESPHR, 991) 'Program: ', VTITLE
WRITE (URESPHR, 991) 'Control: ', CTITLE
WRITE (URESPHR, 991) 'Trees: ', TTITLE
WRITE (URESPHR, 991) 'Structure: ', 'Multispecies' !STITLE
WRITE (URESPHR, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (URESPHR, 991) 'Met data: ', MTITLE
WRITE (URESPHR, 990) ' '
WRITE (URESPHR,301)
WRITE (URESPHR,302)
WRITE (URESPHR,303)
WRITE (URESPHR,304)
WRITE (URESPHR,305)
WRITE (URESPHR,306)
WRITE (URESPHR, 990) ' '
endif
WRITE (URESPHR,307)
END IF
! Write comments to layer output file (if required)
IF (IOHRLY.GT.1) THEN
if (headers.ge.1) then
WRITE (ULAY, 991) 'Program: ', VTITLE
WRITE (ULAY, 801)
WRITE (ULAY, 802)
WRITE (ULAY, 803)
WRITE (ULAY, 804)
WRITE (ULAY, 805)
WRITE (ULAY, 806)
WRITE (ULAY, 807)
write (ulay, 808)
write (ulay, 809)
write (ulay, 810)
!****STH 2015.03.30***
write (ulay, *)
endif
write(ulay,811) (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY)
!***end STH
END IF
! Write comments to water balance output file (if required). (RAD).
IF (ISMAESPA) THEN
if (headers.ge.1) then
WRITE (UWATBAL, 991) 'Program: ', VTITLE
WRITE (UWATBAL, 992) 'Water balance parameters: ', WTITLE
WRITE (UWATBAL, 990) ' '
WRITE (UWATBAL, 401)
WRITE (UWATBAL, 402)
WRITE (UWATBAL, 403)
WRITE (UWATBAL, 404)
WRITE (UWATBAL, 405)
WRITE (UWATBAL, 406)
WRITE (UWATBAL, 407)
WRITE (UWATBAL, 408)
WRITE (UWATBAL, 409)
WRITE (UWATBAL, 410)
WRITE (UWATBAL, 411)
WRITE (UWATBAL, 412)
WRITE (UWATBAL, 413)
WRITE (UWATBAL, 414)
WRITE (UWATBAL, 415)
WRITE (UWATBAL, 416)
WRITE (UWATBAL, 417)
WRITE (UWATBAL, 418)
WRITE (UWATBAL, 419)
WRITE (UWATBAL, 420)
WRITE (UWATBAL, 421)
WRITE (UWATBAL, 422)
WRITE (UWATBAL, 423)
WRITE (UWATBAL, 424)
WRITE (UWATBAL, 425)
WRITE (UWATBAL, 426)
WRITE (UWATBAL, 427)
WRITE (UWATBAL, 428)
WRITE (UWATBAL, 429)
WRITE (UWATBAL, 430)
WRITE (UWATBAL, 432)
WRITE (UWATBAL, 990) ' '
endif
WRITE (UWATBAL, 431)
!Daily water balance output file.
if (headers.ge.1) then
WRITE (UWATDAY, 991) 'Program: ', VTITLE
WRITE (UWATDAY, 992) 'Water balance parameters: ', WTITLE
WRITE (UWATDAY, 990) ' '
WRITE (UWATDAY, 441)
WRITE (UWATDAY, 442)
WRITE (UWATDAY, 443)
WRITE (UWATDAY, 444)
WRITE (UWATDAY, 445)
WRITE (UWATDAY, 446)
WRITE (UWATDAY, 447)
WRITE (UWATDAY, 448)
WRITE (UWATDAY, 449)
WRITE (UWATDAY, 450)
WRITE (UWATDAY, 451)
WRITE (UWATDAY, 452)
WRITE (UWATDAY, 453)
WRITE (UWATDAY, 454)
WRITE (UWATDAY, 455)
WRITE (UWATDAY, 456)
WRITE (UWATDAY, 990) ' '
endif
WRITE (UWATDAY, 457)
END IF
IF(ISIMUS.EQ.1)THEN
if (headers.ge.1) then
WRITE(UPARUS, 991) 'Program: ', VTITLE
WRITE(UPARUS, 990) ' '
WRITE(UPARUS, 201)
WRITE (UWATDAY, 990) ' '
WRITE(UPARUS, 203)
WRITE(UPARUS, 204)
WRITE(UPARUS, 205)
WRITE(UPARUS, 206)
WRITE(UPARUS, 207)
WRITE(UPARUS, 208)
WRITE(UPARUS, 209)
WRITE (UWATDAY, 990) ' '
endif
WRITE(UPARUS, 202)
ENDIF
! write headers to a .hdr file, binary out
ELSE IF (IOFORMAT .EQ. 1) THEN
! Write headings to daily flux file
IF (IODAILY.GT.0) THEN
if (headers.ge.1) then
WRITE (UDAYHDR, 991) 'Program: ', VTITLE
WRITE (UDAYHDR, 991) 'Control: ', CTITLE
WRITE (UDAYHDR, 991) 'Trees: ', TTITLE
WRITE (UDAYHDR, 991) 'Structure: ', 'Multispecies' ! STITLE
WRITE (UDAYHDR, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (UDAYHDR, 991) 'Met data: ', MTITLE
IF(IOWATBAL.EQ.1)WRITE (UDAYHDR, 991) 'Water bal.: ', WTITLE
WRITE (UDAYHDR, 990) ' '
IF(NSPECIES.GT.1)THEN
WRITE(UDAYHDR, *)'Species codes:'
DO I = 1,NSPECIES
WRITE (UDAYHDR, *) I, " : " // SPECIESNAMES(I)
END DO
WRITE(UDAYHDR,990) ' '
ENDIF
WRITE (UDAYHDR,501)
WRITE (UDAYHDR,502)
WRITE (UDAYHDR,503)
WRITE (UDAYHDR,504)
WRITE (UDAYHDR,505)
WRITE (UDAYHDR,506)
WRITE (UDAYHDR,507)
WRITE (UDAYHDR,508)
WRITE (UDAYHDR,509)
WRITE (UDAYHDR,510)
WRITE (UDAYHDR,511)
WRITE (UDAYHDR,512)
WRITE (UDAYHDR,990) ' '
endif
WRITE (UDAYHDR,513)
END IF
! Comments to hourly output file (if required).
IF (IOHRLY.gt.0) THEN
if (headers.ge.1) then
WRITE (UHRLYHDR, 991) 'Program: ', VTITLE
WRITE (UHRLYHDR, 991) 'Control: ', CTITLE
WRITE (UHRLYHDR, 991) 'Trees: ', TTITLE
WRITE (UHRLYHDR, 991) 'Structure: ', 'Multispecies' !STITLE
WRITE (UHRLYHDR, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (UHRLYHDR, 991) 'Met data: ', MTITLE
IF(IOWATBAL.EQ.1)WRITE (UHRLYHDR, 991) 'Water bal.: ', WTITLE
WRITE (UHRLYHDR, 990) ' '
IF(NSPECIES.GT.1)THEN
WRITE(UHRLYHDR, *)'Species codes:'
DO I = 1,NSPECIES
WRITE (UHRLYHDR, *) I, " : " // SPECIESNAMES(I)
END DO
WRITE(UHRLYHDR,990) ' '
END IF
WRITE (UHRLYHDR,701)
WRITE (UHRLYHDR,702)
WRITE (UHRLYHDR,703)
WRITE (UHRLYHDR,704)
WRITE (UHRLYHDR,705)
WRITE (UHRLYHDR,706)
WRITE (UHRLYHDR,707)
WRITE (UHRLYHDR,708)
WRITE (UHRLYHDR,709)
WRITE (UHRLYHDR,710)
WRITE (UHRLYHDR,711)
WRITE (UHRLYHDR,712)
WRITE (UHRLYHDR,713)
WRITE (UHRLYHDR,714)
WRITE (UHRLYHDR,715)
WRITE (UHRLYHDR,716)
!WRITE (UHRLYHDR,717)
WRITE (UHRLYHDR,718)
WRITE (UHRLYHDR,719)
WRITE (UHRLYHDR,720)
WRITE (UHRLYHDR,721)
WRITE (UHRLYHDR,722)
WRITE (UHRLYHDR,724)
WRITE (UHRLYHDR, 990) ' '
endif
WRITE (UHRLYHDR,725)
END IF
! Comments to respiration output file (if required).
IF (IORESP.gt.0) THEN
if (headers.ge.1) then
WRITE (URESPHDR, 991) 'Program: ', VTITLE
WRITE (URESPHDR, 991) 'Control: ', CTITLE
WRITE (URESPHDR, 991) 'Trees: ', TTITLE
WRITE (URESPHDR, 991) 'Structure: ', 'Multispecies' !STITLE
WRITE (URESPHDR, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (URESPHDR, 991) 'Met data: ', MTITLE
WRITE (URESPHDR, 990) ' '
WRITE (URESPHDR,601)
WRITE (URESPHDR,602)
WRITE (URESPHDR,603)
WRITE (URESPHDR,604)
WRITE (URESPHDR,605)
WRITE (URESPHDR,606)
WRITE (URESPHDR,607)
WRITE (URESPHDR,608)
WRITE (URESPHDR,609)
WRITE (URESPHDR,610)
WRITE (URESPHDR,611)
WRITE (URESPHDR, 990) ' '
endif
WRITE (URESPHDR,612)
if (headers.ge.1) then
WRITE (URESPHRHDR, 991) 'Program: ', VTITLE
WRITE (URESPHRHDR, 991) 'Control: ', CTITLE
WRITE (URESPHRHDR, 991) 'Trees: ', TTITLE
WRITE (URESPHRHDR, 991) 'Structure: ', 'Multispecies' !STITLE
WRITE (URESPHRHDR, 991) 'Physiology: ', 'Multispecies' !PTITLE
WRITE (URESPHRHDR, 991) 'Met data: ', MTITLE
WRITE (URESPHRHDR, 990) ' '
WRITE (URESPHRHDR,301)
WRITE (URESPHRHDR,302)
WRITE (URESPHRHDR,303)
WRITE (URESPHRHDR,304)
WRITE (URESPHRHDR,305)
WRITE (URESPHRHDR,306)
WRITE (URESPHRHDR, 990) ' '
endif
WRITE (URESPHRHDR,307)
END IF
! Write comments to layer output file (if required)
IF (IOHRLY.GT.1) THEN
if (headers.ge.1) then
WRITE (ULAY, 991) 'Program: ', VTITLE
WRITE (ULAY, 801)
WRITE (ULAY, 802)
WRITE (ULAY, 803)
WRITE (ULAY, 804)
WRITE (ULAY, 805)
WRITE (ULAY, 806)
WRITE (ULAY, 807)
write (ulay, 808)
write (ulay, 809)
write (ulay, 810)
!****STH 2015.03.30***
write (ulay, *)
endif
write(ulay,811) (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY), (I, I=1, NOLAY)
!***end STH
END IF
! Write comments to water balance output file (if required). (RAD).
IF (ISMAESPA) THEN
if (headers.ge.1) then
WRITE (UWATBALHDR, 991) 'Program: ', VTITLE
WRITE (UWATBALHDR, 992) 'Water balance parameters: ', WTITLE
WRITE (UWATBALHDR, 990) ' '
WRITE (UWATBALHDR, 401)
WRITE (UWATBALHDR, 402)
WRITE (UWATBALHDR, 403)
WRITE (UWATBALHDR, 404)
WRITE (UWATBALHDR, 405)
WRITE (UWATBALHDR, 406)
WRITE (UWATBALHDR, 407)
WRITE (UWATBALHDR, 408)
WRITE (UWATBALHDR, 409)
WRITE (UWATBALHDR, 410)
WRITE (UWATBALHDR, 411)
WRITE (UWATBALHDR, 412)
WRITE (UWATBALHDR, 413)
WRITE (UWATBALHDR, 414)
WRITE (UWATBALHDR, 415)
WRITE (UWATBALHDR, 416)
WRITE (UWATBALHDR, 417)
WRITE (UWATBALHDR, 418)
WRITE (UWATBALHDR, 419)
WRITE (UWATBALHDR, 420)
WRITE (UWATBALHDR, 421)
WRITE (UWATBALHDR, 422)
WRITE (UWATBALHDR, 423)
WRITE (UWATBALHDR, 424)
WRITE (UWATBALHDR, 425)
WRITE (UWATBALHDR, 426)
WRITE (UWATBALHDR, 427)
WRITE (UWATBALHDR, 428)
WRITE (UWATBALHDR, 429)
WRITE (UWATBALHDR, 430)
WRITE (UWATBALHDR, 990) ' '
endif
WRITE (UWATBALHDR, 431)
!Daily water balance output file.
if (headers.ge.1) then
WRITE (UWATDAYHDR, 991) 'Program: ', VTITLE
WRITE (UWATDAYHDR, 992) 'Water balance parameters: ', WTITLE
WRITE (UWATDAYHDR, 990) ' '
WRITE (UWATDAYHDR, 441)
WRITE (UWATDAYHDR, 442)
WRITE (UWATDAYHDR, 443)
WRITE (UWATDAYHDR, 444)
WRITE (UWATDAYHDR, 445)
WRITE (UWATDAYHDR, 446)
WRITE (UWATDAYHDR, 447)
WRITE (UWATDAYHDR, 448)
WRITE (UWATDAYHDR, 449)
WRITE (UWATDAYHDR, 450)
WRITE (UWATDAYHDR, 451)
WRITE (UWATDAYHDR, 452)
WRITE (UWATDAYHDR, 453)
WRITE (UWATDAYHDR, 454)
WRITE (UWATDAYHDR, 455)
WRITE (UWATDAYHDR, 456)
WRITE (UWATDAYHDR, 990) ' '
endif
WRITE (UWATDAYHDR, 457)
END IF
END IF
101 format('WIND: wind speed above the canopy (m s-1)')
102 format('TAIR: air temperature (ºC)')
103 format('TSOIL: soil temperature (ºC)')
104 format('RH: relative humidity (fraction)')
105 format('RH%: relative humidity (%)')
106 format('VPD: vapour pressure deficit (Pa)')
107 format('VMFD: vapour pressure mole fraction deficit (mmol mol-1)')
108 format('CA: atmospheric CO2 concentration (ppm)')
109 format('PAR: hourly incident photosynthetically active radiation (mmol m-2s-1)')
110 format('RAD: hourly incident total short-wave radiation (W m-2)')
111 format('FBEAM: fraction of incident PAR which is direct-beam (fraction)')
112 format('PRESS: atmospheric pressure (Pa)')
113 format('TDEW: dewpoint temperature (ºC)')
114 format('SW: soil water content (?)')
115 format('SWP: soil water potential (MPa)')
116 format('PPT: precipitation (mm)')
117 format('TMIN: minimum daily temperature (ºC)')
118 format('TMAX: maximum daily temperature (ºC)')
125 format('Columns: DOY HOUR WIND TAIR TSOIL RH VPD VMFD CA PAR RAD FBEAM PRESS TDEW SW PPT TMIN TMAX')
! Modification Mathias 27/11/12.
! Canopy XYZ STH 2015-0910. Canopy point temps STH 2015-10. Canopy point wind STH 2015-1106. Canopy point stomatal conductance STH 2015-1106.
461 format('Columns: DOY Hour Tree Canopy_Point# Canopy_Point_X Canopy_Point_Y Canopy_Point_Z Canopy_Point_Temp(°C) &
Canopy_Point_Wind_Speed(m/s) Canopy_Point_Stomatal_Conductance(mol_CO2_s-1) CI(ppm) SUNLA Area BEXT FBeam Zenithal_angle &
ABSRP_PAR ABSRP_NIR ABSRP_TH BFPAR DFPAR BFNIR DFNIR DFTHR SCLOSTPAR SCLOSTNIR SCLOSTTH DOWNTH PAR_Above NIR_Above THR_Above')
990 FORMAT (A80)
991 FORMAT (A12,A80) ! For writing comments to output files.
992 FORMAT (A25, A55)
501 FORMAT('DOY: simulation date')
502 FORMAT('Tree: tree number')
503 FORMAT('Spec: tree species number')
504 FORMAT('absPAR: absorbed PAR MJ tree-1 d-1')
505 FORMAT('absNIR: absorbed NIR MJ tree-1 d-1')
506 FORMAT('absTherm: absorbed thermal MJ tree-1 d-1')
507 FORMAT('totPs: gross photosynthesis mol tree-1 d-1')
508 FORMAT('totRf: daily foliar respiration mol tree-1 d-1')
509 FORMAT('netPs: photosyn. net of foliar resp mol tree-1 d-1')
510 FORMAT('totLE1: daily transpiration mol H2O tree-1 d-1')
511 FORMAT('totLE2: daily transpirn (CANOPY calc) mol H2O m-2 d-1')
512 FORMAT('totH: daily sensible heat flux MJ tree-1 d-1')
513 FORMAT('Columns: DOY Tree Spec absPAR absNIR absTherm', &
&' totPs totRf netPs', &
&' totLE1 totLE2 totH')
701 FORMAT('DOY: simulation date')
702 FORMAT('Tree: tree number')
703 FORMAT('Spec: tree species number')
704 FORMAT('Hour: hour of the day')
705 FORMAT('hrPAR: absorbed PAR umol tree-1 s-1')
706 FORMAT('hrNIR: absorbed NIR W tree-1')
707 FORMAT('hrTHM: absorbed thermal W tree-1')
708 FORMAT('hrPS: photosynthesis (net of leaf resp) umol tree-1 s-1')
709 FORMAT('hrRf: hourly leaf respiration umol tree-1 s-1')
710 FORMAT('hrRmW: hourly stem + branch Rm umol tree-1 s-1')
711 FORMAT('hrLE: hourly transpiration mmol tree-1 s-1')
712 FORMAT('LECAN: hourly transpirn: CANOPY calc : mmol H2O m-2 s-1')
713 FORMAT('Gscan: canopy stomatal conductance : mol CO2 tree-1 s-1')
714 FORMAT('Gbhcan: canopy boundary layer conductance to heat : mol tree-1 s-1')
715 FORMAT('hrH: hourly sensible heat flux: MJ tree-1 s-1')
716 FORMAT('TCAN: Average foliage temperature (deg C)')
! 717 FORMAT('ELMAX: Canopy maximum leaf transpiration rate (mmol m-2 s-1)')
718 FORMAT('ALMAX: Canopy maximum leaf photosynthesis rate (umol m-2 s-1)')
719 FORMAT('PSIL: Canopy average leaf water potential (MPa)')
720 FORMAT('PSILMIN: Canopy minimum leaf water potential (MPa)')
721 FORMAT('CI : Canopy average intercellular CO2 conc. (ppm)')
722 FORMAT('TAIR: Air temperature (deg C)')
723 FORMAT('VPD: vapor pressure deficit (kPa)')
724 FORMAT('PAR: Above-canopy incident PAR (umol m-2 s-1)')
726 FORMAT('ZEN: Zenithal angle (rad)') ! mathias mars 2013
727 FORMAT('AZ: Asimutal angle (rad)')
728 FORMAT('RAD: Above-canopy incident RAD (W m-2)') !STH 2015-0502
725 FORMAT('Columns: DOY Tree Spec HOUR hrPAR hrNIR hrTHM', &
' hrPs hrRf hrRmW hrLE', &
' LECAN Gscan Gbhcan hrH TCAN ALMAX PSIL PSILMIN CI TAIR VPD PAR ZEN AZ RAD') !10E-3*ECANMAX(ITAR,IHOUR),
801 FORMAT(' Fluxes for each layer on an hourly basis')
802 FORMAT(' Columns: ')
803 format(' Date: simulation date')
804 format(' Hour: hour of the day')
805 format(' Area of given layer(L) (m^2)')
806 format(' JMAX(current) in given layer(L) (umol m-2 s-1)')
807 format(' VCMAX(current) in given layer(L) (umol m-2 s-1)')
808 format(' absorbed PAR for a given layer(L) (umol m-2 leaf s-1) ')
809 FORMAT(' photosynthesis net of Rleaf for a given layer(L)(umol m-2 leaf s-1)')
810 FORMAT(' transpiration for a given layer(L) (umol m-2 leaf s-1)')
811 format (2x,('Day',1x), ('Hour',1x), ('TreeIndex#',1x), ('SpeciesID#',1x), 6('L',I1,'Area',1x), 6('L',I1,'JMAX',1x), &
6('L',I1,'VCMAX',1x), 6('L',I1,'PAR',1x), 6('L',I1,'PNetRleaf',1x), 6('L',I1,'Transpiration',1x), 6('L',I1,'Temperature',1x))
601 FORMAT('Daily maintenance and growth respiration components')
602 FORMAT('Rmf: Foliage maintenance resp. mol m-2 d-1')
603 FORMAT('Rmw: Stem maintenance resp. mol m-2 d-1')
604 FORMAT('RmB: Branch maintenance resp. mol m-2 d-1')
605 FORMAT('Rmcr: Coarse root maintenance resp. mol m-2 d-1')
606 FORMAT('Rmfr: Fine root maintenance resp. mol m-2 d-1')
607 FORMAT('Rgf: Foliage growth resp. mol m-2 d-1')
608 FORMAT('Rgw: Stem growth resp. mol m-2 d-1')
609 FORMAT('Rgb: Branch growth resp. mol m-2 d-1')
610 FORMAT('Rgcr: Coarse root growth resp. mol m-2 d-1')
611 FORMAT('Rgfr: Fine root growth resp. mol m-2 d-1')
612 FORMAT('Columns: DOY Tree Species Rmf Rmw Rmb Rmcr Rmfr Rgf Rgw Rgb Rgcr Rgfr')
301 FORMAT('Hourly maintenance respiration components')
302 FORMAT('Rmf: Foliage maintenance resp. umol m-2 s-1')
303 FORMAT('Rmw: Stem maintenance resp. umol m-2 s-1')
304 FORMAT('RmB: Branch maintenance resp. umol m-2 s-1')
305 FORMAT('Rmcr: Coarse root maintenance resp. umol m-2 s-1')
306 FORMAT('Rmfr: Fine root maintenance resp. umol m-2 s-1')
307 FORMAT('Columns: DOY, Hr, Rmf, Rmw, Rmb, Rmcr, Rmfr')
401 FORMAT('Half-hourly water and heat balance components.')
402 FORMAT('wsoil: total soil water storage mm')
403 FORMAT('wsoilroot: soil water storage in rooted zone mm')
404 FORMAT('ppt : precipitation mm')
405 FORMAT('canopystore : storage of intercepted rain mm')
406 FORMAT('evapstore : evaporation of wet canopy mm')
407 FORMAT('drainstore : drainage of wet canopy mm')
408 FORMAT('tfall : throughfall of rain mm')
409 FORMAT('et : modelled canopy transpiration mm')
410 FORMAT('etmeas: measured ET, if provided in input mm')
411 FORMAT('discharge: drainage at bottom of profile mm')
412 FORMAT('overflow: over-land flow mm')
413 FORMAT('weightedswp: soil water potential weighted by roots MPa')
414 FORMAT('ktot: soil to leaf hydr. cond. mmol m-2 s-1 MPa-1')
415 FORMAT('drythick: thickness of dry surface layer mm')
416 FORMAT('soilevap: soil evaporation mm')
417 FORMAT('soilmoist: measured soil water content (units vary)')
418 FORMAT('fsoil: soil water modifier function (0-1)')
419 FORMAT('qh: sensible heat flux W m-2')
420 FORMAT('qe: latent heat flux W m-2')
421 FORMAT('qn: net radiation W m-2')
422 FORMAT('qc: soil heat transport W m-2')
423 FORMAT('rglobund: net radiation underneath canopy W m-2')
424 FORMAT('rglobabv: net radiation above canopy W m-2')
425 FORMAT('radinterc: total radiation intercepted by canopy W m-2')
426 FORMAT('rnet: net radiation above the canopy W m-2')
427 FORMAT('totlai: leaf area index m2 m-2')
428 FORMAT('tair: air temperature deg C')
429 FORMAT('soilt1, soilt2: soil T in 1st and 2nd layer deg C')
430 FORMAT('fracw1,fracw2: water content 1st and 2nd layer m3 m-3')
431 FORMAT('Columns: day hour wsoil wsoilroot ppt canopystore &
&evapstore drainstore tfall et etmeas discharge overflow &
&weightedswp ktot drythick soilevap &
&soilmoist fsoil qh qe qn qc rglobund &
&rglobabv radinterc rnet totlai tair soilt1 soilt2 &
&fracw1 fracw2 fracaPAR')
432 FORMAT('FracaPAR: fraction of absorbed PAR')
441 FORMAT('Daily water and heat balance components.')
442 FORMAT('wsoil: total soil water storage mm')
443 FORMAT('wsoilroot: soil water storage in rooted zone mm')
444 FORMAT('swp: weighted soil water potential MPa')
445 FORMAT('ppt : precipitation mm')
446 FORMAT('tfall : throughfall of rain mm')
447 FORMAT('et : modelled canopy transpiration mm')
448 FORMAT('etmeas: measured ET, if provided in input mm')
449 FORMAT('discharge: drainage at bottom of profile mm')
450 FORMAT('soilevap: soil evaporation mm')
451 FORMAT('fsoil: soil water modifier function (0-1)')
452 FORMAT('qh: sensible heat flux MJ m-2 day-1')
453 FORMAT('qe: latent heat flux MJ m-2 day-1')
454 FORMAT('qn: net radiation MJ m-2 day-1')
455 FORMAT('qc: soil heat transport MJ m-2 day-1')
456 FORMAT('radinterc: total radiation intercepted MJ m-2 day-1')
457 FORMAT('Columns: day wsoil wsoilroot swp ppt &
&tfall et etmeas discharge soilevap &
&fsoil qh qe qn qc radinterc')
201 FORMAT('Understorey simulation results by timestep and point')
202 FORMAT('Columns: day hour point X Y Z PARbeam PARdiffuse PARtotal APAR hrPSus hrETus')
203 FORMAT('day : day of simulation (1,2,etc.)')
204 FORMAT('hour: timestep (1,2,etc.)')
205 FORMAT('X,Y,Z: spatial coordinates of understorey test point (m)')
206 FORMAT('PARbeam, PARdiffuse, PARtot : PAR reaching the top of the understorey, in direct, diffuse or total (mu mol m-2 s-1)')