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README.md
View file @ 82df1085
......@@ -18,8 +18,10 @@ collaborative work, see the AUTHOR file for details.
* manuals: about "how to start" and " generate exe"
* descriptions/additional: background information documents
* descriptions/Fact_sheets: short summary of the model in English and German
* test_data_sets: test the propper working of the functions of the model with complete sets of data and control files
* publications: all relevant publications regarding the model 4C
* source_code/additional: overview on variables with their names in the 4C description and the names in the source code
flow chart of the model 4C
* test_data_sets: test the correct function mode of the model with complete sets of input data and control files
* publications: relevant publications regarding the model 4C
The source code is distributed via a git repository at:
https://gitlab.pik-potsdam.de/foresee/4C and is ready to use.
......@@ -27,7 +29,7 @@ The code language is Fortran90. Since the model development is
finished, there is no further development and no further support in model
download, setup, development or application. No merge or other development
requests will be handeled. Therefore there are no code style recommendations or
instructions on how to create source code ammendments.
instructions on how to create source code amendments.
......
descriptions/4C_ description.pdf
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descriptions/additional/4C_flag_overview.pdf
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executables/4C_22_windows.exe
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executables/4c2.2win_nogui.exe
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executables/4C_22_linux.exe executables/4c22linux.tar
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manuals/4C_initialization_manual.pdf
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manuals/4C_management_manual.pdf
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manuals/4C_statistical_evaluation_manual.pdf 0 → 100644
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publications/4C_publication_overview.pdf
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source_code/additional/4C_Flow_Chart.pdf 0 → 100644
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source_code/additional/List of Variables and code names.pdf 0 → 100644
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source_code/version2.2_windows/amod_soil.f
View file @ 82df1085
......@@ -121,7 +121,7 @@ module data_soil
! arrays of given root distribution (defined input)
real, allocatable, save, dimension(:) :: root_fr ! root fraction per soil layer
! dp_rfr ! depth of root fraction / cm
! yearly fine root loss after Rasse et al. 2001
integer :: rdepth_kind ! kind of calculation of root depth
real, allocatable, dimension(:) :: wat_left ! auxiliary variable for coh%watleft to determin annual sum of available water in soil layer boardering on root zone
......@@ -298,15 +298,15 @@ module data_soil_t
! Variables and parameters for soil temperature calculation
integer flag_surf ! calculation of soil surface temperature
! 0 - old version
! 1 - new ersion with explicit surface temperature
integer :: flag_surf = 0 ! calculation of soil surface temperature
! 0 - surface temperature equals temperature of first layer
! 1 - with explicit surface temperature
real temps_surf ! soil surface temperature
real hflux_surf ! soil heat flux at soil surface
real temps_surf ! soil surface temperature
real hflux_surf ! soil heat flux at soil surface
! model parameters
real :: C0 = 0.76, & ! Faltungskoeff.
real :: C0 = 0.76, & ! coefficients for calculation of surface temperature
C1 = 0.05, &
C2 = 0.3
......
source_code/version2.2_windows/day_ini.f
View file @ 82df1085
......@@ -50,11 +50,12 @@ if (hum .le. 0.) then
else if (hum .gt. 100.) then
hum = 100.
endif
if (press .gt. 0.) then
if (prs(i,j) .gt. 0.) then
press = prs(i,j)
else
press = 1013.
endif
rad = rd(i,j)
wind = wd(i,j)
if (wind .lt. 0.) wind = 0.5
......
source_code/version2.2_windows/initia.f
View file @ 82df1085
......@@ -118,7 +118,8 @@ SUBROUTINE INITIA
! end of declaration section
!******************************************************************************
ncl1 = 60
!ncl1 = 60
ncl1=40
allocate (zheigh(ncl1), zbhd(ncl1), zhbc(ncl1), nz(ncl1))
allocate (smaldc(ncl1), bigdc(ncl1))
print *,' '
......@@ -133,7 +134,7 @@ WRITE(*,'(A)',advance='no') ' ***Make your choice: '
READ *, data_flag
print *,' '
clwdth=2 !set diameter class-class width
clwdth=15 !set diameter class-class width
corr_la=1. !standard value for leaf area correction in stands of high sum of crown projection areas
mixed_tot_ca=0. !sum of crown projection area for mixed stands
pass = 1 !counter for number of passes through calculation loop for mixed stands
......@@ -256,7 +257,7 @@ CASE(1)
IF (datasets=='multi') THEN
select_lines=.false.
fl_num=0
if(infile=='input/hyyti_ini_0616.txt') then
ALLOCATE(ngroups(10000))
numstand= 0
......@@ -291,7 +292,6 @@ if(infile=='input/hyyti_ini_0616.txt') then
iF(baum(i).EQ.22) ngroups(nlines)%taxid=6 ! Larix
iF(baum(i).EQ.23) ngroups(nlines)%taxid=7 ! Pinus strobus
iF(baum(i).EQ.24) ngroups(nlines)%taxid=10 ! Douglasie
IF (dm(i).eq.0) dm(i) = 0.5
IF (mhoe(i).eq.0) mhoe(i) = 1.0
IF (gf(i).eq.0) gf(i) = 0.25
......@@ -310,50 +310,6 @@ if(infile=='input/hyyti_ini_0616.txt') then
3333 CONTINUE
nlines=nlines-1
WRITE(*,*) nlines,'sets of data', numstand, 'sets of stands'
ELSE
IF(select_lines) THEN
READ(listunit,*)nlines_comp
ALLOCATE(locid_comp(nlines_comp))
DO i=1,nlines_comp ! reading list of sites to be initialised
READ(listunit,*) locid_comp(i)
ENDDO ! end reading list of sites to be initialised
ENDIF ! end of reading file with sites to be selected
IF(select_lines) CLOSE(listunit)
CALL assign_DSW
CALL init_plenter_param
READ (inunit,*)nlines
ALLOCATE(ngroups(nlines))
istart=1
READ(inunit,*) ngroups(1)%locid,ngroups(1)%schicht,ngroups(1)%BRAid,ngroups(1)%alter,ngroups(1)%patchsize,ngroups(1)%mhoe,ngroups(1)%dm,ngroups(1)%volume,ngroups(1)%gf
ngroups(1)%patchsize=ngroups(1)%patchsize*10000.
ngroups(1)%baumzahl=0
ngroups(istart)%standsize=ngroups(1)%patchsize
ngroups(1)%taxid=tax_of_BRA_id(ngroups(1)%BRAid)
DO i=2,nlines
READ(inunit,*) ngroups(i)%locid,ngroups(i)%schicht,ngroups(i)%BRAid,ngroups(i)%alter,ngroups(i)%patchsize,ngroups(i)%mhoe,ngroups(i)%dm,ngroups(i)%volume,ngroups(i)%gf
WRITE(*,*) 'set no', i, 'read'
ngroups(i)%baumzahl=0
! the following line maps BRAid 770 to 779, other 'Mehlbeeren', because two
! different numbering systems existed in Brandenburg in the course of time
IF(ngroups(i)%BRAid==770) ngroups(i)%BRAid=779
ngroups(i)%patchsize=ngroups(i)%patchsize*10000.
ngroups(i)%taxid=tax_of_BRA_id(ngroups(i)%BRAid)
IF(ngroups(i)%taxid==6) ngroups(i)%taxid=3
IF(ngroups(i)%taxid==0) THEN
ELSE
ENDIF
IF(ngroups(i)%locid==ngroups(istart)%locid) THEN
ngroups(istart)%standsize=ngroups(istart)%standsize+ngroups(i)%patchsize
ngroups(i)%standsize = ngroups(istart)%standsize
ELSE
istart=i
ngroups(istart)%standsize=ngroups(i)%patchsize
fl_num=fl_num+1
ENDIF
ENDDO ! readin loop for multi data-set
ENDIF ! block for direct DSW data or brb_inv-file structure
CLOSE(inunit)
! read in file headder for description, write into ini-file
cform=1;hlp_lai=0
......@@ -571,6 +527,7 @@ if(infile=='input/hyyti_ini_0616.txt') then
! classification of single values in diameter cohorts
clwdth=1+AINT((bhdmax-bhdmin)/ncl1) !calculation of class widths
! write(4444,*) 'clwdth', clwdth, bhdmax, bhdmin, ncl1
DO i=1,ncl1
nz(i)=0
zbhd(i)=0
......@@ -771,8 +728,9 @@ CASE(6)
g=ngroups(iz)%gf !basal area/ha
gpatch=g*4. !basal area/patch
bz=ngroups(iz)%baumzahl*4. !tree numbre/patch
clwdth=dg/20.
! clwdth=dg/20.
clwdth=dg/5
! selection of uni-height curve: beech, spruce, oak calculation according to Weimann,
! other species of trees after Kuleschis (vergl. Gerold 1990)
IF (taxid==3.OR.taxid==5) THEN
......
source_code/version2.2_windows/prepsite.f
View file @ 82df1085
......@@ -165,6 +165,7 @@ do
case (8, 9, 10)
call readsoil ! reading soil parameter
IF (flag_end .gt.0) return
call readredN ! Input redN or test resp.
end select
endif
......@@ -198,7 +199,7 @@ call readlit
! Initialization of soil model with profile data
call soil_ini ! Aufruf ohne s_cn_ini
! Initialization disturbances
IF (flag_dis .eq. 1) CALL dist_ini
IF (flag_dis .eq. 1 .or. flag_dis .eq. 2) CALL dist_ini
! Initialization of stand
call prepare_stand
IF (flag_end .gt.0) return
......@@ -268,12 +269,13 @@ if (flag_eva .gt.10) call evapo_ini
subroutine readsoil ! Input of soil parameter
use data_par
use data_soil_t
use data_site
implicit none
integer :: inunit, helpnl, helpnr
integer :: inunit, helpnl, helpnr, ihelp
real helpgrw, hlong, hlat
character :: text
character(30) :: hor, boart, helpid
......@@ -283,17 +285,15 @@ if (flag_trace) write (unit_trace, '(I4,I10,A)') iday, time_cur, ' readsoil'
! Setting of flag_surf from flag_cond
select case (flag_cond)
case (0,1,2,3)
flag_surf = 0
case (10,11,12,13)
flag_surf = 1
case (0,1,2,3)
flag_surf = 0
case (20,21,22,23)
flag_surf = 2
case (10,11,12,13)
flag_surf = 1
case (30,31,32,33)
flag_surf = 3
case (30,31,32,33)
flag_surf = 3
end select
! Setting of flag_bc from flag_decomp
......@@ -479,7 +479,7 @@ IF (ex .eqv. .true.) then
if (.not.flag_mult8910) print *,' >>>FORESEE message: soil_id ', soilid(ip), ' not found'
if (.not.flag_mult8910) print *,' Check your input choice!!!'
if (help==1) call dealloc_soil
CALL error_mess(time,"soil identificator not found"//adjustl(soilid(ip))//"ip No.",real(help_ip))
CALL error_mess(time,"soil identificator not found "//adjustl(soilid(ip))//"ip No.",real(help_ip))
flag_end = 5
return
ENDIF ! ios
......@@ -535,15 +535,11 @@ IF (ex .eqv. .true.) then
endif
end do
IF (ios .ne.0) then
if (.not.flag_mult8910) print *,' >>>FORESEE message: Error during reading soil data!'
WRITE(*,'(A)',advance='no') ' Stop program (y/n)? '
read *, a
IF ( a .eq. 'y' .or. a .eq. 'Y') then
print *, ' STOP program!'
stop
endif
print *,' >>>FORESEE message: Error during reading soil data!'
print *, ' Program stopped!'
IF (help==1) call dealloc_soil
if (.not.flag_mult8910) print *,' Check your input choice!!!'
flag_end = 7
return
endif ! ios
exit
endif
......@@ -556,7 +552,7 @@ IF (ex .eqv. .true.) then
print *,' Check your input choice!!!'
endif
if (help==1) call dealloc_soil
CALL error_mess(time,"soil identificator not found"//adjustl(soilid(ip))//"ip No.",real(help_ip))
CALL error_mess(time,"soil identificator not found "//adjustl(soilid(ip))//"ip No.",real(help_ip))
flag_end = 5
return
ENDIF ! ios
......@@ -915,7 +911,7 @@ if (.not.flag_mult8910 .or. (flag_mult8910 .and. anh .eq. "1") .or. (flag_mult89
WRITE(unit_ctr,'(A66,I4)') 'Time step for photosynthesis calculations (days) - ns_pro: ',ns_pro
WRITE(unit_ctr,'(A66,I4)') 'Mortality (0-OFF,1-ON stress, 2- ON stress+intr) - flag_mort: ',flag_mort
WRITE(unit_ctr,'(A66,I4)') 'Regeneration (0-OFF,1-ON, 2-weekly growth of seedl.) - flag_reg: ',flag_reg
WRITE(unit_ctr,'(A66,I4)') 'use FORSKA for regeneration (0-OFF,1-ON) - flag_forska: ',flag_forska
WRITE(unit_ctr,'(A66,I4)') 'use FORSKA for regeneration (0-OFF,1-ON) - flag_forska: ',flag_lambda
WRITE(unit_ctr,'(A66,I4)') 'Stand initialization (0-no,1-from *.ini,2-generate) - flag_stand: ',flag_stand
WRITE(unit_ctr,'(A66,I4)') 'Ground vegetation initialization (0-no,1-generate) - flag_sveg: ',flag_sveg
WRITE(unit_ctr,'(A66,I4)') 'Stand management (0-no,1-yes, 2 - seed once) - flag_mg: ',flag_mg
......@@ -1179,22 +1175,17 @@ real hNO, hNH
if (flag_trace) write (unit_trace, '(I4,I10,A)') iday, time_cur, ' readdepo'
if (.not.allocated(NOd)) allocate (NOd (1:366,1:year))
if (.not.allocated(NHd)) allocate (NHd (1:366, 1:year))
! for areal usage standard/constant deposition is set as concentration:
if (flag_multi .eq. 8 .or. flag_mult910) then
flag_depo = 2
if (.not.allocated(NOd)) then
allocate (NOd (1:366,1:year))
NOd = NOdep(ip) ! concentration mg/l
endif
if (.not.allocated(NHd)) then
allocate (NHd (1:366,1:year))
NHd = NHdep(ip) ! concentration mg/l
endif
NOd = NOdep(ip) ! concentration mg/l
NHd = NHdep(ip) ! concentration mg/l
return
endif
if (.not.allocated(NOd)) allocate (NOd (1:366,1:year))
if (.not.allocated(NHd)) allocate (NHd (1:366, 1:year))
NOd = 0.
NHd = 0.
......@@ -1427,6 +1418,7 @@ END subroutine readdepo
SUBROUTINE readredN
use data_out
use data_site
use data_species
use data_stand
use data_simul
......
source_code/version2.2_windows/simul.f
View file @ 82df1085
......@@ -32,7 +32,6 @@ character a
character(8) actdate
character(10) acttime, helpsim, text1, text2
real time1, time2, time3
logical lhelp
unit_err=getunit()
if(flag_multi.eq.5) dirout = './'
......@@ -46,20 +45,6 @@ write (unit_trace, '(I4,I10,A)') iday, time_cur, ' sim_control'
! check daily output
if (year > 5 .and. flag_dayout .ge. 1) then
lhelp = .true.
do i = 1,outd_n
if (outd(i)%out_flag .eq. flag_dayout) then
select CASE (outd(i)%kind_name)
CASE ('day_short')
lhelp = .false.
end select
endif
enddo
if (lhelp) then
write(*,*) ' Warning: Your choice of daily output is ON with a simulation time of'
write(*,'(I6,A,I8,A)') year,' years. This option will create ',365*year,' data records per file!'
write(*,'(A)',advance='no') ' Do you really want do use daily output (y/n)? '
......@@ -67,7 +52,6 @@ if (year > 5 .and. flag_dayout .ge. 1) then
IF (a .eq. 'n' .or. a .eq. 'N') then
flag_dayout = 0
ENDIF
endif ! lhelp
ENDIF
! open file ycomp (yearly compressed output (multi run))
......@@ -136,10 +120,14 @@ time3 = 0.
case (5)
print*,ip, ' stop in readsoil, soil ID not found ', adjustl(soilid(ip))
case (6)
write(*,'(A,I5)') ' >>>foresee message: stop in read_cli - no climate data for year ',time_b
write(*,'(A,I5)') ' >>>foresee message: stop in read_cli, no climate data for year ',time_b
call finish_simul
stop
case (7)
print*,ip, ' stop in readsoil, error during reading soil data ', adjustl(soilid(ip))
call finish_simul
stop
case default
case default
print*,ip, 'flag_end = ', flag_end
end select
......@@ -228,7 +216,7 @@ if (flag_trace) write (unit_trace, '(I4,I10,A)') iday, time_cur, ' simulation_4C
DO time = 1, year
iday = 1
! Update population variable for new year if population is changed through interventions
if (flag_standup .gt. 0 .or. flag_dis==1) then
if (flag_standup .gt. 0 .or. flag_dis==1 .or. flag_dis==1) then
call stand_balance
call standup
flag_standup = 0
......@@ -239,7 +227,10 @@ if (flag_trace) write (unit_trace, '(I4,I10,A)') iday, time_cur, ' simulation_4C
! read or create Redn for areal application
IF (time.EQ.1 .and. flag_redn) CALL RedN_ini
IF (flag_dis .eq. 1) CALL dis_manag
IF (flag_dis .eq. 1 .or. flag_dis .eq. 2) then
CALL dis_manag
endif
! simulation of processes with subannual resolution (fluxes and soil)
CALL stand_daily
......
source_code/version2.2_windows/soil_tem.f
View file @ 82df1085
......@@ -453,12 +453,6 @@ CASE (0, 10, 20, 30, 40) ! de Vries
tcond0 = numera/denom * 86400. ! s --> day
CASE(2, 12, 22, 32, 42) ! sum like resistor; wie Widerstaende addieren
tcond2 = water%vf / water%tc + quarz%vf / quarz%tc + clay%vf / clay%tc + &
silt%vf / silt%tc + humus%vf / humus%tc + air%vf / air%tc + stone%vf / stone%tc + ice%vf / ice%tc
tcond2 = 86400. / tcond2
CASE(3, 13, 23, 33, 43) ! Campbell
vfm = clay%vf + silt%vf + stone%vf
vfs = vfm + quarz%vf + humus%vf
......@@ -504,13 +498,6 @@ CASE (1, 11, 21, 31, 41) ! Neusypina
hcapi = hcap1
tcondi = tcond1
CASE (2, 12, 22, 32, 42) ! sum like resitors; Widerstnde addieren
if ((tcond2 .gt. 8000.) .or. (tcond2 .le. 0.)) then
continue
endif
hcapi = hcap0
tcondi = tcond2
CASE (3, 13, 23, 33, 43) ! Campbell
hcapi = hcap0
tcondi = tcond3
......
source_code/version2.2_windows/stand_bal.f
View file @ 82df1085
......@@ -104,7 +104,12 @@ do
sumbio = sumbio + ntr * zeig%coh%totBio
sumNPP = sumNPP + ntr * zeig%coh%NPP
Ndem = Ndem + ntr * zeig%coh%Ndemc_c
autresp = autresp + ntr * zeig%coh%maintres
select case (flag_dis)
case (0,1)
autresp = autresp + ntr * zeig%coh%maintres
case (2)
autresp = autresp + ntr * (zeig%coh%maintres+zeig%coh%biocost_all)
end select
totfol = totfol + ntr * zeig%coh%x_fol
totsap = totsap + ntr * zeig%coh%x_sap
totfrt = totfrt + ntr * zeig%coh%x_frt
......@@ -498,10 +503,6 @@ svar%frt = 0.
END SELECT
Enddo
IF(spar(spec_new)%phmodel==4) THEN
svar(spec_new)%daybb = svar(spec_new)%ext_daybb
ELSE
......@@ -543,7 +544,7 @@ do i=1,nspecies
svar(i)%mean_diam = svar(i)%mean_diam / ntr
svar(i)%mean_jrb = svar(i)%mean_jrb / ntr
svar(i)%basal_area = pi*ntr*(svar(i)%med_diam*svar(i)%med_diam/40000)*10000/kpatchsize
svar(i)%basal_area = pi*(ntr-helpdiam(i))*(svar(i)%med_diam*svar(i)%med_diam/40000)*10000/kpatchsize
else
svar(i)%sum_ntreea = 0.
endif
......@@ -1083,8 +1084,14 @@ IMPLICIT NONE
DO
IF(.not.associated(zeig)) exit
if (zeig%coh%species.ne.nspec_tree+2) then ! exclude mistletoe from senescence
zeig%coh%sfol = spar(zeig%coh%species)%psf * zeig%coh%x_fol
zeig%coh%sfrt = spar(zeig%coh%species)%psr * zeig%coh%x_frt
select case (flag_dis)
! case (1,2)
! zeig%coh%sfol = spar(zeig%coh%species)%psf * zeig%coh%x_fol + zeig%coh%x_fol_loss
! zeig%coh%sfrt = spar(zeig%coh%species)%psr * zeig%coh%x_frt + zeig%coh%x_frt_loss
case (0,1,2)
zeig%coh%sfol = spar(zeig%coh%species)%psf * zeig%coh%x_fol
zeig%coh%sfrt = spar(zeig%coh%species)%psr * zeig%coh%x_frt
end select
IF (zeig%coh%height.ge.thr_height .and.zeig%coh%species.LE. nspec_tree) THEN
zeig%coh%ssap = spar(zeig%coh%species)%pss * zeig%coh%x_sap
ELSE
......
source_code/version_2.3_windows/4C_dialogs.fd 0 → 100644
View file @ 82df1085
!MS$FREEFORM
! Microsoft Developer Studio generated include file.
! Used by script1.rc
!
integer, parameter :: IDD_4C = 101
integer, parameter :: IDD_4C_ctr = 102
integer, parameter :: IDD_4C_flags = 109
integer, parameter :: IDD_4C_files = 111
integer, parameter :: IDB_BITMAP3 = 115
integer, parameter :: IDD_4C_out = 116
integer, parameter :: IDD_4C_yearly = 118
integer, parameter :: IDD_4C_daily = 119
integer, parameter :: IDD_4C_coh_yearly = 120
integer, parameter :: IDD_4C_coh_daily = 121
integer, parameter :: IDD_default_dir = 122
integer, parameter :: IDD_4C_default_dir = 122
integer, parameter :: IDD_4C_main = 123
integer, parameter :: IDD_4C_ids = 126
integer, parameter :: IDB_BITMAP1 = 131
integer, parameter :: IDC_STATIC_Control = 1005
integer, parameter :: IDC_STATIC_4C = 1017
integer, parameter :: IDC_COMBO_runv = 1019
integer, parameter :: IDC_RADIO_ctrfile = 1020
integer, parameter :: IDC_COMBO_runv3 = 1020
integer, parameter :: IDC_RADIO_ctredit = 1024
integer, parameter :: IDC_STATIC_simul = 1034
integer, parameter :: IDC_STATIC_runv = 1036
integer, parameter :: IDC_STATIC_runnr = 1037
integer, parameter :: IDC_STATIC_runv3 = 1038
integer, parameter :: IDC_EDIT_runnr = 1044
integer, parameter :: IDC_STATIC_runo = 1046
integer, parameter :: IDC_STATIC_runo3 = 1047
integer, parameter :: IDC_EDIT_yearn = 1048
integer, parameter :: IDC_EDIT_start = 1049
integer, parameter :: IDC_STATIC_yearn = 1050
integer, parameter :: IDC_STATIC_start = 1051
integer, parameter :: IDC_EDIT_patch = 1052
integer, parameter :: IDC_STATIC_patch = 1053
integer, parameter :: IDC_STATIC_model = 1055
integer, parameter :: IDC_EDIT_thickf = 1056
integer, parameter :: IDC_EDIT_timeph = 1057
integer, parameter :: IDC_STATIC_thickf = 1058
integer, parameter :: IDC_STATIC_timeph = 1059
integer, parameter :: IDC_STATIC_mort = 1060
integer, parameter :: IDC_STATIC_reg = 1061
integer, parameter :: IDC_STATIC_forska = 1062
integer, parameter :: IDC_COMBO_mort = 1063
integer, parameter :: IDC_COMBO_reg = 1064
integer, parameter :: IDC_COMBO_forska = 1065
integer, parameter :: IDC_STATIC_stand = 1066
integer, parameter :: IDC_STATIC_sveg = 1067
integer, parameter :: IDC_STATIC_mg = 1068
integer, parameter :: IDC_STATIC_dis = 1069
integer, parameter :: IDC_STATIC_light = 1070
integer, parameter :: IDC_STATIC_folhei = 1071
integer, parameter :: IDC_COMBO_stand = 1072
integer, parameter :: IDC_COMBO_sveg = 1073
integer, parameter :: IDC_COMBO_mg = 1074
integer, parameter :: IDC_COMBO_dis = 1075
integer, parameter :: IDC_COMBO_light = 1076
integer, parameter :: IDC_COMBO_folhei = 1077
integer, parameter :: IDC_COMBO_volfunc = 1078
integer, parameter :: IDC_STATIC_volfunc = 1079
integer, parameter :: IDC_STATIC_resp = 1080
integer, parameter :: IDC_STATIC_limi = 1081
integer, parameter :: IDC_STATIC_decomp = 1082
integer, parameter :: IDC_STATIC_sign = 1083
integer, parameter :: IDC_STATIC_wred = 1084
integer, parameter :: IDC_STATIC_wurz = 1085
integer, parameter :: IDC_STATIC_cond = 1086
integer, parameter :: IDC_COMBO_resp = 1088
integer, parameter :: IDC_COMBO_limi = 1089
integer, parameter :: IDC_COMBO_decomp = 1090
integer, parameter :: IDC_COMBO_sign = 1091
integer, parameter :: IDC_COMBO_wred = 1092
integer, parameter :: IDC_COMBO_wurz = 1093
integer, parameter :: IDC_COMBO_cond = 1094
integer, parameter :: IDC_COMBO_int = 1095
integer, parameter :: IDC_COMBO_eva = 1096
integer, parameter :: IDC_STATIC_int = 1097
integer, parameter :: IDC_STATIC_eva = 1098
integer, parameter :: IDC_STATIC_sort = 1099
integer, parameter :: IDC_STATIC_wpm = 1100
integer, parameter :: IDC_COMBO_CO2 = 1101
integer, parameter :: IDC_STATIC_stat = 1102
integer, parameter :: IDC_COMBO_sort = 1103
integer, parameter :: IDC_COMBO_wpm = 1104
integer, parameter :: IDC_COMBO_stat = 1105
integer, parameter :: IDC_STATIC_files = 1108
integer, parameter :: IDC_STATIC_specpar = 1109
integer, parameter :: IDC_EDIT_specpar = 1110
integer, parameter :: IDC_BUTTON_specpar = 1111
integer, parameter :: IDC_BUTTON_ini = 1112
integer, parameter :: IDC_BUTTON_sop = 1113
integer, parameter :: IDC_STATIC_dir1 = 1114
integer, parameter :: IDC_STATIC_dirin = 1114
integer, parameter :: IDC_BUTTON_soi = 1115
integer, parameter :: IDC_STATIC_dirout = 1115
integer, parameter :: IDC_STATIC_soi = 1116
integer, parameter :: IDC_EDIT_sop = 1117
integer, parameter :: IDC_EDIT_soi = 1118
integer, parameter :: IDC_STATIC_ini = 1119
integer, parameter :: IDC_EDIT_ini = 1120
integer, parameter :: IDC_STATIC_ini1 = 1121
integer, parameter :: IDC_BUTTON_man = 1122
integer, parameter :: IDC_STATIC_cli = 1123
integer, parameter :: IDC_BUTTON_dep = 1124
integer, parameter :: IDC_BUTTON_red = 1125
integer, parameter :: IDC_BUTTON_lit = 1126
integer, parameter :: IDC_RADIO_single_ini = 1127
integer, parameter :: IDC_RADIO_multi_ini = 1128
integer, parameter :: IDC_STATIC_standid = 1129
integer, parameter :: IDC_EDIT_standid = 1130
integer, parameter :: IDC_STATIC_man = 1131
integer, parameter :: IDC_EDIT_man = 1132
integer, parameter :: IDC_STATIC_dep = 1133
integer, parameter :: IDC_EDIT_dep = 1134
integer, parameter :: IDC_EDIT_red = 1135
integer, parameter :: IDC_EDIT_lit = 1136
integer, parameter :: IDC_STATIC_lit = 1137
integer, parameter :: IDC_STATIC_red = 1138
integer, parameter :: IDC_STATIC_dir2 = 1139
integer, parameter :: IDC_STATIC_sop = 1140
integer, parameter :: IDC_EDIT_cli = 1141
integer, parameter :: IDC_BUTTON_cli = 1142
integer, parameter :: IDC_BUTTON_DIR = 1143
integer, parameter :: IDC_EDIT_cli2 = 1144
integer, parameter :: IDC_EDIT_DIR = 1144
integer, parameter :: IDC_EDIT_DIR_IN = 1144
integer, parameter :: IDC_STATIC_name = 1145
integer, parameter :: IDC_EDIT_DIR_OUT = 1145
integer, parameter :: IDC_EDIT_sitename = 1147
integer, parameter :: IDC_STATIC_nameall = 1148
integer, parameter :: IDC_RADIO_idy = 1149
integer, parameter :: IDC_RADIO_idn = 1150
integer, parameter :: IDC_STATIC_id = 1151
integer, parameter :: IDC_STATIC_year = 1152
integer, parameter :: IDC_STATIC_yearly = 1153
integer, parameter :: IDC_CHECK_y1 = 1161
integer, parameter :: IDC_CHECK_y2 = 1162
integer, parameter :: IDC_CHECK_y3 = 1163
integer, parameter :: IDC_CHECK_y4 = 1164
integer, parameter :: IDC_CHECK_y5 = 1165
integer, parameter :: IDC_CHECK_y6 = 1166
integer, parameter :: IDC_CHECK_y7 = 1167
integer, parameter :: IDC_CHECK_y8 = 1168
integer, parameter :: IDC_CHECK_y9 = 1169
integer, parameter :: IDC_CHECK_y10 = 1170
integer, parameter :: IDC_CHECK_y11 = 1171
integer, parameter :: IDC_CHECK_y12 = 1172
integer, parameter :: IDC_CHECK_y13 = 1173
integer, parameter :: IDC_CHECK_y14 = 1174
integer, parameter :: IDC_CHECK_y15 = 1175
integer, parameter :: IDC_CHECK_y16 = 1176
integer, parameter :: IDC_CHECK_y17 = 1177
integer, parameter :: IDC_CHECK_y18 = 1178
integer, parameter :: IDC_CHECK_y19 = 1179
integer, parameter :: IDC_CHECK_y20 = 1180
integer, parameter :: IDC_CHECK_y21 = 1181
integer, parameter :: IDC_CHECK_y22 = 1182
integer, parameter :: IDC_CHECK_y23 = 1183
integer, parameter :: IDC_CHECK_y24 = 1184
integer, parameter :: IDC_CHECK_y25 = 1185
integer, parameter :: IDC_CHECK_y26 = 1186
integer, parameter :: IDC_CHECK_y27 = 1187
integer, parameter :: IDC_CHECK_y28 = 1188
integer, parameter :: IDC_STATIC_yfile = 1189
integer, parameter :: IDC_BUTTON_yearly = 1190
integer, parameter :: IDC_CHECK_y29 = 1190
integer, parameter :: IDC_BUTTON_daily = 1191
integer, parameter :: IDC_CHECK_y30 = 1191
integer, parameter :: IDC_BUTTON_coh_yearly = 1192
integer, parameter :: IDC_CHECK_y31 = 1192
integer, parameter :: IDC_BUTTON_coh_daily = 1193
integer, parameter :: IDC_CHECK_y32 = 1193
integer, parameter :: IDC_STATIC_choice_out = 1194
integer, parameter :: IDC_CHECK_y33 = 1194
integer, parameter :: IDC_STATIC_daily = 1195
integer, parameter :: IDC_CHECK_y34 = 1195
integer, parameter :: IDC_COMBO_daily = 1196
integer, parameter :: IDC_CHECK_y35 = 1196
integer, parameter :: IDC_STATIC_coh_daily = 1197
integer, parameter :: IDC_CHECK_y36 = 1197
integer, parameter :: IDC_COMBO_coh_daily = 1198
integer, parameter :: IDC_CHECK_y37 = 1198
integer, parameter :: IDC_CHECK_y38 = 1199
integer, parameter :: IDC_CHECK_y39 = 1200
integer, parameter :: IDC_CHECK_y40 = 1201
integer, parameter :: IDC_CHECK_y41 = 1202
integer, parameter :: IDC_CHECK_y42 = 1203
integer, parameter :: IDC_COMBO_coh_yearly = 1204
integer, parameter :: IDC_STATIC_coh_yearly = 1205
integer, parameter :: IDC_STATIC_SUM = 1206
integer, parameter :: IDC_CHECK_y43 = 1206
integer, parameter :: ID4C_BUTTON_OK = 1208
integer, parameter :: ID_CTR_BUTTON_FLAGS = 1209
integer, parameter :: ID_CTR_BUTTON_OK = 1210
integer, parameter :: ID_FILES_BUTTON_OK = 1211
integer, parameter :: ID_CTR_BUTTON_FILES = 1212
integer, parameter :: ID_OUT_BUTTON_BACK = 1213
integer, parameter :: ID_START = 1214
integer, parameter :: ID_SAVE = 1215
integer, parameter :: ID_YEARLY_BUTTON_OK = 1216
integer, parameter :: ID_DAILY_BUTTON_OK = 1217
integer, parameter :: ID_YEARLYCOH_BUTTON_OK = 1218
integer, parameter :: ID_FLAGS_BUTTON_OK = 1219
integer, parameter :: ID_DAILYCOH_BUTTON_OK = 1220
integer, parameter :: ID_CTR_BUTTON_RUNNR = 1221
integer, parameter :: ID_DEFAULT_DIR_BUTTON_OK = 1222
integer, parameter :: ID_START_4C = 1226
integer, parameter :: IDSTOP = 1227
integer, parameter :: IDC_RADIO_start = 1229
integer, parameter :: IDC_RADIO_start_dir = 1230
integer, parameter :: IDC_RADIO_edit = 1231
integer, parameter :: ID_CANCEL_FLAGS = 1232
integer, parameter :: IDC_EDIT_ID = 1233
integer, parameter :: ID_CANCEL_FILES = 1233
integer, parameter :: IDC_COMBO_standid = 1234
integer, parameter :: ID_CANCEL_IDS = 1234
integer, parameter :: IDC_STATIC_spinup = 1235
integer, parameter :: IDC_EDIT_spinup = 1236
integer, parameter :: IDC_EDIT_wpm = 1236
integer, parameter :: ID_CANCEL_OUTF = 1236
integer, parameter :: IDC_BUTTON_spinup = 1237
integer, parameter :: IDC_STATIC_mes = 1237
integer, parameter :: ID_CTR_BUTTON_IDS = 1238
integer, parameter :: IDC_EDIT_mes = 1238
integer, parameter :: IDC_COMBO_yearly = 1239
integer, parameter :: IDC_COMBO_sum = 1240
integer, parameter :: ID_IDS_BUTTON_OK = 1242
integer, parameter :: ID_YEARLY_BUTTON_SELECT = 1248
integer, parameter :: ID_YEARLY_BUTTON_DESELECT = 1249
integer, parameter :: IDC_BUTTON_wpm = 1250
integer, parameter :: ID_DAILY_BUTTON_SELECT = 1250
integer, parameter :: IDC_BUTTON_mes = 1251
integer, parameter :: ID_DAILY_BUTTON_DESELECT = 1251
integer, parameter :: ID_DAILYCOH_BUTTON_SELECT = 1252
integer, parameter :: ID_DAILYCOH_BUTTON_DESELECT = 1253
integer, parameter :: ID_YEARLYCOH_BUTTON_SELECT = 1254
integer, parameter :: ID_YEARLYCOH_BUTTON_DESELECT = 1255
integer, parameter :: IDC_CHECK_y44 = 1256
integer, parameter :: IDC_STATIC_CO2 = 1256
integer, parameter :: IDC_CHECK_y45 = 1257
integer, parameter :: IDC_CHECK_y46 = 1258
integer, parameter :: IDC_CHECK_y47 = 1259
integer, parameter :: IDC_CHECK_y48 = 1260
integer, parameter :: IDC_CHECK_y49 = 1261
integer, parameter :: IDC_REBAR1 = 1262
integer, parameter :: IDC_CHECK_y50 = 1001
integer, parameter :: IDC_CHECK_y51 = 1002