[Swift-commit] r7103 - in SwiftApps/Swift-MapRed/psims: . campaigns campaigns/pdssat campaigns/pdssat/common.isimip campaigns/pdssat/ggcmi.maize
ketan at ci.uchicago.edu
ketan at ci.uchicago.edu
Sun Sep 22 20:00:27 CDT 2013
Author: ketan
Date: 2013-09-22 20:00:26 -0500 (Sun, 22 Sep 2013)
New Revision: 7103
Added:
SwiftApps/Swift-MapRed/psims/bin/
SwiftApps/Swift-MapRed/psims/campaigns/
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/CO2045.WDA
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DATA.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DETAIL.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DSSATPRO.L45
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/ECONOMIC.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GCOEFF.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GRSTAGE.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/JDATE.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MODEL.ERR
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.CUL
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.ECO
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.SPE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/OUTPUT.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/PEST.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RESCH045.SDA
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.CUL
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.SPE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.CUL
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.ECO
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.SPE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SIMULATION.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOIL.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFR045.SDA
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFX045.SDA
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/TILOP045.SDA
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WEATHER.CDE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.CUL
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.ECO
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.SPE
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/Campaign.nc4
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/exp_template.json
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params
SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params2
SwiftApps/Swift-MapRed/psims/data/
Modified:
SwiftApps/Swift-MapRed/psims/swiftcommand.sh
Log:
adding campaigns
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/CO2045.WDA
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/CO2045.WDA (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/CO2045.WDA 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,1982 @@
+*Atmospheric CO2 Historical Data
+
+@ NAME
+ CO2 data
+@ SITE
+ NASA GISS compiled
+! http://data.giss.nasa.gov/modelforce/ghgases/Fig1A.ext.txt
+
+!Base CO2 for default fixed value option (ICO2 = 'D')
+ at CO2BAS
+380.
+
+!Monthly values (ICO2 = 'M')
+@ YEAR DOY CO2
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+ 2000 315 371.02
+ 2000 345 371.15
+ 2001 15 371.32
+ 2001 45 371.48
+ 2001 75 371.65
+ 2001 105 371.82
+ 2001 135 371.98
+ 2001 165 372.15
+ 2001 195 372.32
+ 2001 225 372.48
+ 2001 255 372.65
+ 2001 285 372.82
+ 2001 315 372.98
+ 2001 345 373.15
+ 2002 15 373.36
+ 2002 45 373.57
+ 2002 75 373.77
+ 2002 105 373.98
+ 2002 135 374.19
+ 2002 165 374.40
+ 2002 195 374.60
+ 2002 225 374.81
+ 2002 255 375.02
+ 2002 285 375.22
+ 2002 315 375.43
+ 2002 345 375.64
+ 2003 15 375.79
+ 2003 45 375.94
+ 2003 75 376.09
+ 2003 105 376.24
+ 2003 135 376.39
+ 2003 165 376.54
+ 2003 195 376.69
+ 2003 225 376.84
+ 2003 255 376.99
+ 2003 285 377.14
+ 2003 315 377.29
+ 2003 345 377.44
+ 2004 15 377.61
+ 2004 45 377.78
+ 2004 75 377.95
+ 2004 105 378.11
+ 2004 135 378.28
+ 2004 165 378.45
+ 2004 195 378.62
+ 2004 225 378.79
+ 2004 255 378.96
+ 2004 285 379.12
+ 2004 315 379.29
+ 2004 345 379.46
+ 2005 15 379.64
+ 2005 45 379.82
+ 2005 75 379.99
+ 2005 105 380.17
+ 2005 135 380.35
+ 2005 165 380.53
+ 2005 195 380.70
+ 2005 225 380.88
+ 2005 255 381.06
+ 2005 285 381.24
+ 2005 315 381.41
+ 2005 345 381.59
+ 2006 15 381.74
+ 2006 45 381.89
+ 2006 75 382.04
+ 2006 105 382.18
+ 2006 135 382.33
+ 2006 165 382.48
+ 2006 195 382.63
+ 2006 225 382.78
+ 2006 255 382.93
+ 2006 285 383.07
+ 2006 315 383.22
+ 2006 345 383.37
+ 2007 15 383.54
+ 2007 45 383.72
+ 2007 75 383.89
+ 2007 105 384.07
+ 2007 135 384.24
+ 2007 165 384.42
+ 2007 195 384.59
+ 2007 225 384.76
+ 2007 255 384.94
+ 2007 285 385.11
+ 2007 315 385.29
+ 2007 345 385.46
+ 2008 15 385.58
+ 2008 45 385.71
+ 2008 75 385.83
+ 2008 105 385.96
+ 2008 135 386.08
+ 2008 165 386.21
+ 2008 195 386.33
+ 2008 225 386.45
+ 2008 255 386.58
+ 2008 285 386.70
+ 2008 315 386.83
+ 2008 345 386.95
+ 2009 15 387.14
+ 2009 45 387.33
+ 2009 75 387.52
+ 2009 105 387.70
+ 2009 135 387.89
+ 2009 165 388.08
+ 2009 195 388.27
+ 2009 225 388.46
+ 2009 255 388.65
+ 2009 285 388.83
+ 2009 315 389.02
+ 2009 345 389.21
+ 2010 15 389.37
+ 2010 45 389.53
+ 2010 75 389.70
+ 2010 105 389.86
+ 2010 135 390.02
+ 2010 165 390.18
+ 2010 195 390.34
+ 2010 225 390.50
+ 2010 255 390.67
+ 2010 285 390.83
+ 2010 315 390.99
+ 2010 345 391.15
+ 2011 15 391.32
+ 2011 45 391.49
+ 2011 75 391.66
+ 2011 105 391.83
+ 2011 135 392.00
+ 2011 165 392.17
+ 2011 195 392.34
+ 2011 225 392.51
+ 2011 255 392.68
+ 2011 285 392.85
+ 2011 315 393.02
+ 2011 345 393.19
+ 2012 15 393.37
+ 2012 45 393.54
+ 2012 75 393.72
+ 2012 105 393.89
+ 2012 135 394.07
+ 2012 165 394.25
+ 2012 195 394.42
+ 2012 225 394.60
+ 2012 255 394.77
+ 2012 285 394.95
+ 2012 315 395.12
+ 2012 345 395.30
+ 2013 15 395.47
+ 2013 45 395.65
+ 2013 75 395.83
+ 2013 105 396.00
+ 2013 135 396.18
+ 2013 165 396.35
+ 2013 195 396.53
+ 2013 225 396.70
+ 2013 255 396.88
+ 2013 285 397.06
+ 2013 315 397.23
+ 2013 345 397.41
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DATA.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DATA.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DATA.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,1082 @@
+*Codes for Field and Simulated Data
+! DSSAT Version 4.5; 05/05/2011
+
+! Codes currently used for both simulated and field data are listed in sections
+! relating to specific model output files. Codes currently only used for field
+! data are listed in a section headed Expdata.
+! Codes are assigned as far as possible in accord with the following convention:
+! 1st letter: Plant component (eg. C for canopy; H for harvest product)
+! 2nd letter: Measurement aspect (eg. W for dry weight; N for nitrogen weight)
+! 3rd letter: Basis of measurement (eg. A for unit area; P for plant)
+! 4th letter: Time or stage of measurement (eg. D for specific day)
+! For some aspects, however, this convention has been modified by dropping one
+! of the letters and using the first 2 letters for the specific component(s).eg
+! SU for sucrose.
+! Codes for dates have letters for the stage first and then a D or DAT.
+!
+! Codes added for use with models other than those from DSSAT (eg.the ORYZA1
+! model of the SARP network) are listed in the OTHER MODELS section.
+!
+! The fields in the file are as follows:
+! CDE The 'universal' code used to facilitate data interchange.
+! LABEL A short description used when labelling graphs.
+! DESCRIPTION A 55 character description of the aspect.
+! SYNONYMS Additional codes that may be used locally (eg. YIELD for HWAM)
+
+*SUMMARY
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+ADAP Anthesis day Anthesis day (dap) .
+ADAT Anthesis date Anthesis date (YrDoy) Z60D ANTH FL1D ADAY ADOY
+AMDY Anth to matur Anthesis to maturity (days) .
+BWAH Byproduct kg/ha By-product removed during harvest (kg [dm]/ha) .
+BWAM Byproduct kg/ha By-product produced (stalk) at maturity (kg[dm]/ha) .
+CFAH F cane yl kg/ha Fresh cane yield (kg/ha) .
+CHTA Canopy height m Canopy height (m) .
+CNAA Tops N,anthesis Tops N at anthesis (kg/ha) .
+CNAM Tops N kg/ha Tops N at maturity (kg/ha) .
+CO2A Avg CO2 (ppm) Average atmospheric CO2 (ppm), planting to harvest .
+CPAM Tops P kg/ha Tops P at maturity (kg/ha) .
+CWAA Tops wt,anthsis Tops weight at anthesis (kg [dm]/ha) .
+CWAM Tops wt kg/ha Tops weight at maturity (kg [dm]/ha) .
+DMPEM DM-ET Prod Dry matter-ET productivity (kg[DM]/ha/mm[ET]) .
+DMPIM DM-Irrig Prod Dry matter-irrigation productivity (kg[DM]/ha/mm[irrig]) .
+DMPPM DM-Rain Prod Dry matter-rainfall productivity (kg[DM]/ha/mm[rain]) .
+DMPTM DM-Transp Prod Dry matter-transp. productivity (kg[DM]/ha/mm[EP]) .
+DPNAM DM-N fert Prod Dry matter-N fertilizer productivity (kg[DM]/kg[N fert] .
+DPNUM DM-N upt Prod Dry matter-N uptake productivity (kg[DM]/kg[N uptake] .
+DRCM Drainage mm Season water drainage (mm) .
+DWAP Sowing wt kg/ha Planting material weight (kg [dm]/ha) .
+DAYLA Avg day (hr) Average daylength (hr/d), planting to harvest .
+E#AM Number #/m2 Eye number at maturity (no/m2) .
+E#UM Number #/unit Eye number at maturity (no/fruit) .
+EDAP Emergence day Emergence day (dap) .
+EDAT Emergence date Emergence date (YrDoy) .
+EPCM EP total mm Total season transpiration (mm) .
+ESCM ES total mm Total season soil evaporation (mm) .
+ETCM ET total mm Total season evapotranspiration, Simulation-harvest (mm) .
+ETCP ET plant seas Total evapotranspiration (mm), planting to harvest .
+EWAM Ear wt. kg/ha Ear (grain+chaff) or eye weight at maturity (kg [dm]/ha) .
+EWUM Eye wt. (g) Eye weight (g) .
+FDAT Forcing date Forcing date (YrDoy) .
+FNAM Field name Field name .
+FWAH Fresh wt. harv Fresh weight at harvest (t/ha) .
+GL%M Grain oil%,matu Grain oil at maturity (%) .
+GN%M Grain N%,mature Grain N at maturity (%) .
+GNAM Grain N kg/ha Grain N at maturity (kg/ha) .
+H#AM Number #/m2 Number at maturity (no/m2) .
+H#GM Number #/m2 Number at maturity (no/m2) .
+H#UM Number #/unit Number at maturity (no/unit) .
+HDAP Harvest day Harvest day (dap) .
+HDAT Harvest date Harvest date (YRDOY) .
+HIAM Harvest index Harvest index at maturity .
+HINM N harvest index Nitrogen harvest index at maturity (fr) .
+HIPM Pod index Pod harvest index at maturity .
+HPRH Purity % Purity immediately after harvest (%) .
+HWAH Harvested yield Harvested yield (kg [dm]/ha) .
+HWAM Mat Yield kg/ha Yield at harvest maturity (kg [dm]/ha) .
+HWUM Weight g/unit Unit wt at maturity (g [dm]/unit) .
+HYAH Field wt Mg/ha Field weight at harvest (Mg [fm]/ha) .
+IDAP Panicle in day Panicle Initiation day (dap) .
+IDAT Panicle in date Panicle Initiation date (YrDoy) .
+IR#M Irrig apps # Irrigation applications (no) .
+IRCM Irrig mm Season irrigation (mm) .
+KI#M K application # Number of K applications (no) .
+KICM K applied kg/ha Inorganic K applied (kg/ha) .
+KUPC K uptake kg/ha Seasonal cumulative K uptake (kg[K]/ha) .
+L#SM Leaf number # Leaf number per stem at maturity .
+L#SX Leaf number # Leaf number per stem, maximum .
+LAIH LAI harvest Leaf area index, at harvest .
+LAIX LAI maximum Leaf area index, maximum .
+LIWAM Lint Yld kg/ha Lint Yield at maturity (kg [dm]/ha) .
+MDAP Maturity day Physiological maturity day (dap) .
+MDAT Maturity date Physiological maturity date (YrDoy) .
+NDCH Days to harvest Number of days from planting to harvest (d) .
+NFXM N fixed kg/h N fixed during season (kg/ha) .
+NI#M N application # N applications (no) .
+NIAM Soil N kg/ha Inorganic N at maturity (kg [N]/ha) .
+NICM Tot N app kg/ha Inorganic N applied (kg [N]/ha) .
+NLCM N leached kg/ha N leached during season (kg [N]/ha) .
+NUCM N uptake kg/ha N uptake during season (kg [N]/ha) .
+OCAM Organic C kg/ha Organic soil C at maturity (kg/ha) .
+OCTAM Tot Org C kg/ha Total Organic C at maturity, soil and surface (kg/ha) .
+ONAM Organic N kg/ha Organic soil N at maturity (kg/ha) .
+ONTAM Tot Org N kg/ha Total Organic N at maturity, soil and surface (kg/ha) .
+OPAM Organic P kg/ha Organic soil P at maturity (kg/ha) .
+OPTAM Tot Org P kg/ha Total Organic P at maturity, soil and surface (kg/ha) .
+P#AM Pod/Panicle#/m2 Pod or panicle number (no/m2) .
+PD1P 1st pod day yd First pod day (dap) .
+PD1T 1st pod date yd First pod date (YrDoy) .
+PDAT Planting date Planting date (YrDoy) .
+PDFP 1st seed day First seed day (dap) .
+PDFT 1st seed date First seed date (YrDoy) .
+PI#M P application # Number of P applications (no) .
+PICM P applied kg/ha Inorganic P applied (kg/ha) .
+PM%M Mature pods % Mature Pods (%) .
+PRCM Precip mm Total season precipitation (mm), simulation - harvest .
+PRCP Precip, plant Total season precipitation (mm), planting to harvest .
+PUPC P uptake kg/ha Seasonal cumulative P uptake (kg[P]/ha) .
+PWAM Pod/Ear w kg/ha Pod/Ear/Panicle weight at maturity (kg [dm]/ha) .
+R1AT First bloom Beginning Bloom Stage .
+R2AT First peg Beginning Peg Stage .
+R3AT First pod Beginning Pod Stage .
+R4AT Full pod Full Pod Stage .
+R5AT First seed Beginning Seed Stage .
+R6AT Full seed Full Seed Stage .
+R7AT First maturity Beginning Maturity Stage .
+R8AP Harv maturity Harvest maturity day (dap) .
+R8AT Harv maturity Date of Harvest Maturity Stage (YrDoy) .
+R9AT Over-mature Over-Mature Pod Stage .
+RECM Residue kg/ha Residue applied (kg/ha) .
+RNAH Rt N upt kg/ha Root N uptake (kg/ha) .
+ROCM Runoff mm Season surface runoff (mm) .
+SDAH Dead stem wt Dead stem weight at harvest (kg/ha) .
+SDAT Simulation date Simulation start date (YrDoy) .
+SKAM Soil K kg/ha Soil K at maturity (kg/ha) .
+SNAM Stem n,maturity Stem N at maturity (kg/ha) .
+SPAM Soil P kg/ha Soil P at maturity (kg/ha) .
+SRADA Avg solar rad Average solar radiation (MJ/m2/d), planting - harvest .
+SWAH Stem wt kg/ha Stem weight at harvest (kg/ha) .
+SWXM Extr water mm Extractable water at maturity (mm) .
+T#AM Tiller no #/m2 Tiller number at maturity (no/m2) .
+TDAP Tuber init day Tuber initiation day (dap) .
+TDAT Tuber init date Tuber initiation date (YrDoy) .
+THAM Threshing % Threshing % at maturity .
+TMINA Minimum temp °C Avg minimum air temperature (°C) TMNA
+TMAXA Maximum temp °C Avg maximum air temperature (°C) TMXA
+TN%H Tuber N % Tuber N at harvest (%) .
+TNAH Biomass N kg/ha Tuber+stem+leaf N at harvest (kg/ha) .
+TNAM Treatment name Treatment title .
+TWAH Total wt kg/ha Total wt, harvest (kg [dm]/ha) .
+UN%H Tuber N % Tuber N at harvest (%) .
+UNAM Tuber N kg/ha Tuber N at harvest (kg/ha) .
+UWAH Tuber kg dm/ha Tuber dry weight (kg [dm]/ha) harvest .
+UYAH Tuber Mg fm/ha Tuber fresh weight (Mg [fm]/ha) harvest .
+VN%M Veg N% @ matur. Vegetative above-ground material N at maturity (%) .
+WSTA Weather station Weather station .
+YPEM Yd-ET Prod Yield-ET productivity (kg[yield]/ha/mm[ET]) .
+YPIM Yd-Irrig Prod Yield-irrigation productivity (kg[yield]/ha/mm[irrig]) .
+YPNAM Yd-N fert Prod Yield-N fertilizer productivity (kg[yield]/kg[N fert] .
+YPNUM Yd-N upt Prod Yield-N uptake productivity (kg[yield]/kg[N uptake] .
+YPPM Yd-Rain Prod Yield-rainfall productivity (kg[yield]/ha/mm[rain]) .
+YPTM Yd-EP Prod Yield-transpiration productivity (kg[yield]/ha/mm[EP]) .
+
+*GROWTH
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+A#PD Apex number Apex number per plant (#) .
+BADMH Aerial t[dm]/ha Aerial biomass (green+dead), dm at harvest (t/ha) .
+BWAD Basal weight Basal weight (kg [dm]/ha) .
+CAID Canopy area ix Canopy area index (Laminae+sheaths+stems+ear+??) .
+CDAD Dead canopy Dead canopy weight (kg [dm]/ha) .
+CDAY Crop age days Crop age (days from planting) .
+CDVD Crop age vdays Crop age (Vegetative days) .
+CFAD F cane yl kg/ha Fresh cane yield (kg [fm]/ha) .
+CHTD Canopy height m Canopy height (m) .
+CRAD Crown weight Crown weight (kg [dm]/ha) .
+CWAD Tops wt kg/ha Tops weight (kg [dm]/ha) .
+CWID Canopy width m Canopy width (m;for 1 row) .
+CWPD Tops wt g/pl Tops weight (g [dm]/pl) .
+DAP Days after pl Days after planting (#) .
+DAS Days after st Days after start of simulation (#) .
+DLAID LAI-dead Leaf area index, dead leaves .
+DLW_1 Dead Lf wt stk1 Dead leaf weight, primary stalk (g[dm]/stk) .
+DTTD Grow deg-days Growing degree days (°C-d/d) .
+DU Develpm units Developmental units (PVC.d) .
+DYLFD Daylength fac. Daylength factor for development (0-1) .
+E#AD Ear no./m2 Ear number (no/m2) .
+EAID Ear area index Ear area index (ha [ear]/ha [ground]) .
+EWAD Ear wt. kg/ha Ear (grain+chaff) or eye weight (kg [dm]/ha) .
+EWSD Excess H20 str Excess Water Stress - (0-1) .
+FWAD Fruit weight Fresh Fruit Weight (kg/ha) .
+G#AD Grain no #/m2 Grain number (no/m2) .
+GL%D Grain oil % Grain oil (%) .
+GSTD Growth stage Growth stage .
+GWAD Grain wt kg/ha Grain weight (kg [dm]/ha) .
+GWGD Grain wt mg Unit grain weight (mg [dm]/grain) .
+H#AD Number #/m2 Number (no/m2) .
+HCRD Comm cane sugar Commercial cane sugar .
+HIAD Harvest index Harvest index (grain/top) .
+HIDC Harvest index Harvest index (sucrose/(stalk dm + sucrose)) .
+HIPD Pod index Pod harvest index (pod/top) .
+HWAD Harvest wt Harvest product wt (kg [dm]/ha .
+HWUD Harvest wt/unit Harvest wt (wt/unit) .
+HYAD Field wt Mg/ha Field weight (Mg [fm]/ha) .
+KSTD K stress factor Potassium stress factor (0-1) .
+L#S1D Leaf# stalk 1 Leaf number primary stalk .
+L#SD Leaf number Leaf number per stem .
+LAD_1 Green leaf cm2 Green leaf area, primary stalk (cm2 /stalk) .
+LAID LAI Leaf area index .
+LAITD Total LAI Total leaf area index (green+dead) .
+LAWD SLA cm2/g Specific leaf area (cm2/g) .
+LDAD Dead leaf kg/ha Dead leaf weight (kg [dm]/ha) .
+LLAID LAI-green Leaf area index, green leaves .
+LN%D Leaf N % Leaf nitrogen concentration (%) .
+LN_1 Leaf # stk 1 Leaf number, primary stalk .
+LNUM Leaf number Leaf number (Haun stage) .
+LRSD Leaf app rate Leaf appearance rate (#/bday) .
+LWAD Leaf wt kg/ha Leaf weight (kg [dm]/ha) .
+LWD_1 Leaf wt stk 1 Green leaf weight, primary stalk (g[dm]/stk) .
+NFTID N factor till N factor for tillering (0-1) .
+NSPAV N stress (av) Nitrogen stress (av) - photosynthesis (0-1, 0=none) .
+NSTD N stress factor Nitrogen stress factor (0-1) .
+NDEMD N demand kg/ha N demand (kg/ha) .
+NUPRD N upt demand N uptake to demand ratio (#) .
+NWAD Nodule wt kg/ha Nodule weight (kg [dm]/ha) .
+O#AD Corm no #/m2 Corm (no/m2) .
+OWAD Corm kg dm/ha Corm dry weight (kg/ha) .
+OWGD Corm wt g Unit corm weight (g [dm]/corm) .
+P#AD Pod no #/m2 Pod number (no/m2) .
+PMWD Planting wt Planting material wt (kg/ha) .
+PRSD Shoot fraction Partitioning of wt to shoot (ratio) .
+PWAD Pod wt kg/ha Pod weight (kg [dm]/ha) .
+PWDD Det pod kt/ha Detached pod mass (kg [dm]/ha) .
+PWTD Pod wt kg/ha Total pod weight (kg [dm]/ha) .
+RDAD Dead root kg/ha Dead root weight (kg [dm]/ha) .
+RDPD Root depth m Root depth (m) .
+RGRD Relative gr (%) Relative growth rate (g/100g.day) .
+RL10D RLD layer 10 Root density, soil layer 10(cm/cm3) .
+RL1D RLD layer 1 Root density, soil layer 1 (cm/cm3) .
+RL2D RLD layer 2 Root density, soil layer 2 (cm/cm3) .
+RL3D RLD layer 3 Root density, soil layer 3 (cm/cm3) .
+RL4D RLD layer 4 Root density, soil layer 4 (cm/cm3) .
+RL5D RLD layer 5 Root density, soil layer 5 (cm/cm3) .
+RL6D RLD layer 6 Root density, soil layer 6 (cm/cm3) .
+RL7D RLD layer 7 Root density, soil layer 7 (cm/cm3) .
+RL8D RLD layer 8 Root density, soil layer 8 (cm/cm3) .
+RL9D RLD layer 9 Root density, soil layer 9 (cm/cm3) .
+RSCD Reserves conc. Reserves concentration (fr) .
+RSPD Rt senesce g/pl Root senescence (g [dm]/pl) .
+RSTD Reproductive st Reproductive development stage (0-9 for cereals) .
+RWAD Root wt kg/ha Root weight (kg [dm]/ha) .
+SDAD Dead stem kg/ha Dead stem weight (kg [dm]/ha) .
+SEAD Senesce kg/ha.d Senescence,tops (kg [dm]/(ha.day)) .
+SH%D Shelling % Shelling % (seed wt/pod wt*100) .
+SHAD Shell wt kg/ha Shell weight (kg [dm]/ha) .
+SLAD SLA cm2/g Specific leaf area (cm2/g) .
+SSTKH Stalk t[dm]/ha Stalk (structural) dry mass at harvest (t/ha) .
+STD_1 Stk1+Suc g [dm] Primary stalk dry weight with sucrose (g [dm]/stalk) .
+STTD Leaf exp °C-day Sum of heat units, emrg & leaf expansion °C-day TB(1) .
+STTG Tillering°C-day Sum of heat units, tillering °C-day TB(2) .
+SUAD Sucrose kg/ha Sucrose weight (kg [dm]/ha) .
+SUGD Sucker weight Sucker weight (kg [dm]/ha) .
+SUID Sucrose index Sucrose harvest index (sucrose/top) .
+SUW_1 Sucrose stk 1 Sucrose weight, primary stalk (g /stk) .
+SWAD Stem wt kg/ha Stem weight (kg [dm]/ha) .
+SWD_1 Stalk 1 g[dm] Primary stalk dry weight - no sucrose (g [dm]/stalk) .
+SWF_1 Stalk 1 fresh g Primary stalk fresh weight - with sucrose (g /stalk) .
+T#AD Tiller no #/m2 Tiller number (no/m2) .
+T#SD Leaf tip no Leaf tip number per stem .
+TDIF Temp difference Temperature difference, canopy - air (°C) .
+TDRW Total biomass Total crop biomass (kg [dm]/ha) .
+TKILL Pl death tmp °C Temperature for plant death (°C) .
+TLA_1 Leaf area stk 1 Total green+dead leaf area, primary stalk only (cm2) .
+TLW_1 Leaf wt stalk 1 Total green+dead leaf+sheath prim stalk (g [dm]/stalk) .
+TRAD Trash DM kg/ha Trash weight (kg [dm]/ha) .
+TT Thermal time Daily thermal (°C.d) .
+UWAD Tuber kg dm/ha Tuber dry weight (kg [dm]/ha) .
+UYAD Tuber Mg fm/ha Tuber fresh weight (Mg [fm]/ha) .
+VRNFD Vernalize fac. Vernalization factor (0-1) .
+VWAD Veg wt kg/ha Vegetative weight (stem+leaf)(kg/ha) .
+WAVRD H2O av to dm Water available to demand ratio (#) .
+WFGD H20 factor,gr Water factor for growth (0-1) .
+WFPD H20 factor,ph Water factor for photosynthesis (0-1) .
+WFTID H2O factor, til Water factor tillering (0-1) .
+WLVG Green lf kg/ha Dry weight of green leaves (kg/ha) .
+WSGD H20 stress,ex Water stress - expansion/partioning/development (0-1) .
+WSPAV H2O stress (av) Water stress (avg) - photosynthesis (0-1,0=none) .
+WSPD H20 stress,ph Water stress - photosynthesis (0-1) .
+WUPRD H2O upt to dem Water uptake to demand ratio (#) .
+TWUPD Pot H2O uptake Potential water uptake (mm/d) .
+TFDD Temp.factor,dev Temperature factor for development (0-1) .
+RSFPD Reserves factor Reserves factor for photosynthesis (0-1) .
+
+*NITROGEN
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+AMLC NH3vol kgN/ha Cumulative ammonia volatilization (kg [N]/ha) .
+AMLS NH3vol kgN/ha/d Ammonia volatilization rate (kg [N]/(ha.day)) .
+CNAD Crop N kg/ha Tops N (kg/ha) .
+GN%D Grain N % Grain N concentration (%) .
+GNAD Grain N kg/ha Grain N (kg/ha) .
+LCNF Leaf Crit N Fac Leaf critical N factor (ratio) .
+LN%RD LeafN% relative Leaf tissue relative (to critical) N conc. (%) .
+LNAD Leaf N kg/ha Leaf N (kg/ha) .
+NAPC N Applied kg/ha Inorganic N applied (kg/ha) .
+NDNC Denitrification Cumulative denitrification (kg [N]/ha) .
+NFXC N Fixed kg/ha N fixed (kg/ha) .
+NFXD N Fixed kg/ha.d N fixation rate (kg/(ha.day)) .
+NH10 NH4 layer 10 NH4, soil layer 10(ug [N]/g [soil]) .
+NH1D NH4 layer 1 NH4, soil layer 1 (ug [N]/g [soil]) .
+NH2D NH4 layer 2 NH4, soil layer 2 (ug [N]/g [soil]) .
+NH3D NH4 layer 3 NH4, soil layer 3 (ug [N]/g [soil]) .
+NH4D NH4 layer 4 NH4, soil layer 4 (ug [N]/g [soil]) .
+NH5D NH4 layer 5 NH4, soil layer 5 (ug [N]/g [soil]) .
+NH6D NH4 layer 6 NH4, soil layer 6 (ug [N]/g [soil]) .
+NH7D NH4 layer 7 NH4, soil layer 7 (ug [N]/g [soil]) .
+NH8D NH4 layer 8 NH4, soil layer 8 (ug [N]/g [soil]) .
+NH9D NH4 layer 9 NH4, soil layer 9 (ug [N]/g [soil]) .
+NHTD Total NH4 kg/ha Total soil NH4 (kg [N]/ha) .
+NI10 NO3 layer 10 NO3, soil layer 10(ug [N]/g [soil]) .
+NI1D NO3 layer 1 NO3, soil layer 1 (ug [N]/g [soil]) .
+NI2D NO3 layer 2 NO3, soil layer 2 (ug [N]/g [soil]) .
+NI3D NO3 layer 3 NO3, soil layer 3 (ug [N]/g [soil]) .
+NI4D NO3 layer 4 NO3, soil layer 4 (ug [N]/g [soil]) .
+NI5D NO3 layer 5 NO3, soil layer 5 (ug [N]/g [soil]) .
+NI6D NO3 layer 6 NO3, soil layer 6 (ug [N]/g [soil]) .
+NI7D NO3 layer 7 NO3, soil layer 7 (ug [N]/g [soil]) .
+NI8D NO3 layer 8 NO3, soil layer 8 (ug [N]/g [soil]) .
+NI9D NO3 layer 9 NO3, soil layer 9 (ug [N]/g [soil]) .
+NIAD Tot soil N kg/haTotal soil NO3+NH4 (kg [N]/ha) .
+NIMC N Immobilize Cumulative N immobilization (kg [N]/ha) .
+NITC Nitrification Cumulative nitrification (kg [N]/ha) .
+NITD Total NO3 kg/ha Total soil NO3 (kg [N]/ha) .
+NLCC N Leached kg/ha N leached (kg [N]/ha) .
+NMNC N Mineralize Cumulative N mineralization (kg [N]/ha) .
+NNMNC Net N mineraliz Cumulative net N mineralization (miner - immob) .
+NOAD Organic N kg/ha Organic N in soil (kg [N]/ha) .
+NUAC N Uptake kg/ha N uptake, cumulative (kg [N]/ha) .
+NUAD N Uptake kg/ha N uptake (kg [N]/ha) .
+NUPC N Uptake kg/ha N uptake (kg [N]/ha) .
+OXRN Oxnitr kgN/ha/d Ox Layer Nitrif Rt (kg [N]/ha/d) .
+R#AC Res Applic # Number of organic matter applications .
+RCNF Roots Crit N Fc Roots critical [N] factor (ratio) .
+RN%CD RootN% critical Root tissue critical N conc. (%) .
+RN%D Root N % Root N concentration (%) .
+RN%LD Root N% minimum Root tissue minimum N conc. (%) .
+RN%RD RootN% relative Root tissue relative (to critical) N conc. (%) .
+RNUA NUptake kg/ha.d N uptake (kg [N]/(ha.d)) .
+RSNAD Reserve N kg/ha Reserve N (kg/ha) .
+RSVN Reserve N g/p Reserve N (g/p) .
+SCNF Stem Crit N Fac Stem critical N factor (ratio) .
+SENC0 Sen C to lit Senesced C added to litter (kg/(ha.d)) .
+SENCS Sen C to soil Senesced C added to soil (kg/(ha.d)) .
+SENL0 Sen lign to lit Senesced lignin added to litter (kg/(ha.d)) .
+SENLS Sen lign to sl Senesced lignin added to soil (kg/(ha.d)) .
+SENN0 Sen N to litter Senesced N added to litter (kg/(ha.d)) .
+SENNS Sen N to soil Senesced N added to soil (kg/(ha.d)) .
+SENNT Sen N kg/ha.d Senesced N added to litter+soil (kg/(ha.d)) .
+SENWT Sen wt kg/ha.d Senesced wt added to litter+soil (kg/(ha.d)) .
+SHND Shell N % Shell N concentration (%) .
+SN%D Stem N % Stem N concentration (%) .
+SN%RD ShootN% relativ Shoot tissue relative (to critical) N conc. (%) .
+SNAD Stem N kg/ha Stem N (kg/ha) .
+SNNPD Dead N kg/ha N in dead material retained on plant (kg[N]/ha) .
+SNWPD Dead wt kg/ha Dead material retained on plant (kg [dm]/ha) .
+TUNA Total N kg/ha Tuber+stem+leaf N (kg/ha) .
+UN%D Tuber N % Tuber N concentration (%) .
+UNAD Tuber N kg/ha Tuber N (kg/ha) .
+VN%D Veg N % Veg (stem+leaf) N concentration (%) .
+VNAD Vege N kg/ha Veg (stem+leaf) N (kg/ha) .
+
+*WATER
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+DA3D Daylength h Daylength (h;3 deg basis) .
+DAYD Daylength h Daylength (h;sunrise to sunset) .
+DRNC Drainage Mm Cumulative drainage (mm) .
+DTR Shortwave RAD Daily shortwave radiation (J/(m2.d)) .
+DTWT Water table cm Water table depth (cm) .
+EFAA Flood evap mm/d Avg flood evaporation (mm/d) .
+EMAA Mulch EVAP mm/d Average mulch evaporation (mm/d) .
+EMAC Mulch EVAP mm Cumulative mulch evaporation (mm) .
+EOAA Pot ET mm/d Avg pot.evapotranspiration (mm/d) .
+EOAC Pot ET mm Cumulative potential evapotranspiration (mm) .
+EOAD Pot ET mm/d Potential evapotranspiration (mm/d) .
+EOPA Pot transpir Avg pot. transpiration (mm/d) .
+EOPD Pot transpir Potential transpiration (mm/d) .
+EOSA Pot soil evap Average potential soil evaporation per day (mm/day) .
+EPAA Transpir mm/d Avg plant transpiration (mm/d) .
+EPAC Transpiration Cumulative transpiration (mm) .
+EPAD Transpir mm/d Plant transpiration (mm/d) .
+ES10 Evap layer 10 Soil evaporation, layer 10 (mm/d) .
+ES1D Evap layer 1 Soil evaporation, layer 1 (mm/d) .
+ES2D Evap layer 2 Soil evaporation, layer 2 (mm/d) .
+ES3D Evap layer 3 Soil evaporation, layer 3 (mm/d) .
+ES4D Evap layer 4 Soil evaporation, layer 4 (mm/d) .
+ES5D Evap layer 5 Soil evaporation, layer 5 (mm/d) .
+ES6D Evap layer 6 Soil evaporation, layer 6 (mm/d) .
+ES7D Evap layer 7 Soil evaporation, layer 7 (mm/d) .
+ES8D Evap layer 8 Soil evaporation, layer 8 (mm/d) .
+ES9D Evap layer 9 Soil evaporation, layer 9 (mm/d) .
+ESAA Soil EVAP mm/d Avg soil evaporation (mm/d) .
+ESAC Soil EVAP mm Cumulative soil evaporation (mm) .
+ESAD Soil EVAP mm/d Soil evaporation (mm/d) .
+ETAA Evapotrans mm/d Avg evapotranspiration (mm/d) .
+ETAC Evapotrans mm Cumulative evapotranspiration (mm) .
+ETAD Evapotrans mm/d Evapotranspiration (mm/d) .
+H2OA H2O in root zn Water available in root zone (mm) .
+IR#C Irrigation # Irrigation applications (no) .
+IRRC Irrigation mm Cumulative irrigation (mm) .
+MCFD Mulch coverage Fraction of soil covered by mulch .
+MDEPD Mulch thick cm Thickness of mulch layer (cm) .
+MWAD Mulch mass k/h Mass of mulch layer (kg/ha) .
+MWTD Mulch water mm Water stored in mulch layer (mm) .
+PREC Precipitation Cumulative precipitation (mm) .
+ROFC Cum Runoff mm Cumulative runoff (mm) .
+ROFD Surface runoff Total daily surface runoff (mm/d) .
+ROSD Sat surf runoff Daily surface runoff due to sl saturation excess (mm/d) .
+SEDM Sediment LOSS Sediment loss .
+SNOWD Snow accum (mm) Snow accumulation (mm water) .
+SRAA SRAD MJ/m2.day Avg solar radiation (MJ/(m2.day)) .
+SW10 SWC layer 10 Soil water, soil layer 10(cm3/cm3) .
+SW1D SWC layer 1 Soil water, soil layer 1 (cm3/cm3) .
+SW2D SWC layer 2 Soil water, soil layer 2 (cm3/cm3) .
+SW3D SWC layer 3 Soil water, soil layer 3 (cm3/cm3) .
+SW4D SWC layer 4 Soil water, soil layer 4 (cm3/cm3) .
+SW5D SWC layer 5 Soil water, soil layer 5 (cm3/cm3) .
+SW6D SWC layer 6 Soil water, soil layer 6 (cm3/cm3) .
+SW7D SWC layer 7 Soil water, soil layer 7 (cm3/cm3) .
+SW8D SWC layer 8 Soil water, soil layer 8 (cm3/cm3) .
+SW9D SWC layer 9 Soil water, soil layer 9 (cm3/cm3) .
+SWTD Total water Total soil water in profile (mm) .
+SWXD Extr water mm Extractable water (mm) .
+TCADD Canopy-air temp Canopy-air temperature difference (oC) .
+TDFC Cum. tile drain Cumulative water lost to tile drain (mm) .
+TDFD Tile drainage Water lost to tile drain (mm/d) .
+TMINA Minimum temp °C Avg minimum air temperature (°C) TMNA
+TMAXA Maximum temp °C Avg maximum air temperature (°C) TMXA
+TS0D Surface temp °C Soil surface temperature (°C) .
+TS10 S-TMP layer 10 Soil temperature, soil layer 10(°C) .
+TS1D S-TMP layer 1 Soil temperature, soil layer 1 (°C) .
+TS2D S-TMP layer 2 Soil temperature, soil layer 2 (°C) .
+TS3D S-TMP layer 3 Soil temperature, soil layer 3 (°C) .
+TS4D S-TMP layer 4 Soil temperature, soil layer 4 (°C) .
+TS5D S-TMP layer 5 Soil temperature, soil layer 5 (°C) .
+TS6D S-TMP layer 6 Soil temperature, soil layer 6 (°C) .
+TS7D S-TMP layer 7 Soil temperature, soil layer 7 (°C) .
+TS8D S-TMP layer 8 Soil temperature, soil layer 8 (°C) .
+TS9D S-TMP layer 9 Soil temperature, soil layer 9 (°C) .
+
+
+*CARBON
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+CGRD CGR g/m2.d Crop growth rate (g [top+store]/(m2.d)) .
+CHAD CH2O g/m2.d Carbohydrate accumulation (g [CH2O]/(m2.d)) .
+CL%D LEAF CH2O % Carbohydrate in leaf (%) .
+CMAD CH2O MOB g/m2.d Carbohydrate mobilization (g [CH2O]/(m2.d)) .
+CS%D STEM C % Carbohydrate in stem (%) .
+GC%D GRAIN CH2O % Seed carbohydrate concentration (%) .
+GRAD GR RESP g/m2.d Growth respiration (g [CH2O]/(m2.d)) .
+HUM1 SOIL C1 kg/ha Soil carbon in layer 1 (kg/ha) .
+HUM2 SOIL C2 kg/ha Soil carbon in layer 2 (kg/ha) .
+HUM3 SOIL C3 kg/ha Soil carbon in layer 3 (kg/ha) .
+HUM4 SOIL C4 kg/ha Soil carbon in layer 4 (kg/ha) .
+HUM5 SOIL C5 kg/ha Soil carbon in layer 5 (kg/ha) .
+LI%D LIGHT INTER % Light (PAR) interception (%) .
+LI%N NOON LIGHT IN % Noon light (PAR) interception (%) .
+LMHN NOON PMAX,SHADE Noon Pmax shaded leaves (mg/(m2.s)) .
+LMLN NOON PMAX,LIGHT Noon Pmax sunlit leaves (mg/(m2.s)) .
+MRAD M RESP g/m2.d Maintenance resp (g [CH2O]/(m2.d)) .
+N%HN NOON N,SHADE % Noon N shaded leaves (%) .
+N%LN NOON N,LIGHT % Noon N sunlit leaves (%) .
+NHU1 SOIL N1 kg/ha Soil nitrogen in layer 1 (kg/ha) .
+NHU2 SOIL N2 kg/ha Soil nitrogen in layer 2 (kg/ha) .
+NHU3 SOIL N3 kg/ha Soil nitrogen in layer 3 (kg/ha) .
+NHU4 SOIL N4 kg/ha Soil nitrogen in layer 4 (kg/ha) .
+NHU5 SOIL N5 kg/ha Soil nitrogen in layer 5 (kg/ha) .
+OMAC OM APPL kg/ha Cumulative organic matter applied (kg [dm]/ha) .
+ONAC ON APPL kg/ha Cumulative N in applied organic matter (kg [N]/ha) .
+OPAC OP APPL kg/ha Cumulative P in applied organic matter (kg [P]/ha) .
+PHAD P GROSS g/m2.d Gross photosynthesis (g [CH2O]/(m2.d)) .
+PHAN PG,NOON mg/m2.s Gross photosyn.,noon (mg CO2/(m2.s)) .
+SCDD SOIL ORG C Stable soil org. C @ user depth (kg/ha) .
+SLHN NOON SLW,SHADE SLW in shaded leaves,noon (mg [dm]/cm2) .
+SLLN NOON SLW,Light SLW in sunlit leaves,noon (mg [dm]/cm2) .
+SNDD SOIL ORG N Stable soil org. N @ user depth (kg/ha) .
+SOCD SOIL OC kg/ha Soil plus surface organic carbon (kg/ha) .
+SOND SOIL ON kg/ha Soil plus surface organic nitrogen (kg/ha) .
+SOPD SOIL OP kg/ha Soil plus surface organic phosphorus (kg/ha) .
+SPDD SOIL ORG P Stable soil org. P @ user depth (kg/ha) .
+TFOM RESIDUE kg/ha Plant residue remaining (kg [dm]/ha) .
+TFON RESIDUE N kg/ha Plant residue N remaining (kg/ha) .
+TGAV AVG CAN TMP °C Daily average canopy temp (°C) .
+TGNN NOON CAN TMP °C Noon canopy temperature (°C) .
+TWAD TOTAL WT kg/ha Tops+roots+storage wt (kg [dm]/ha) .
+
+*PESTS
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+CASM ASSIM g CH2O Cumulative assimilate reduction .
+CEW CEW #/row-m Corn Earworm .
+CLAI DIS LAI m2/m2 Cumulative leaf area consumed .
+CLFM DIS LEAF kg/ha Cumulative leaf mass consumed .
+CPO% DIS PLTPOP % Cumulative pl population reduction .
+CRLF DIS ROOT cm/cm2 Cumulative root length consumed .
+CRLV DIS ROOT cm/cm2 Cumulative root ln density consumed .
+CRTM DIS ROOT kg/ha Cumulative root mass consumed .
+CSD# DIS SEED #/m2 Cumulative seed number consumed .
+CSDM DIS SEED kg/ha Cumulative seed mass consumed .
+CSH# DIS SHELL #/m2 Cumulative shell number consumed .
+CSHM DIS SHELL kg/ha Cumulative shell mass consumed .
+CSTM DIS STEM kg/ha Cumulative stem mass consumed .
+DASM ASSIM g CH2O/d Daily carbohydrate pool reduction .
+DLA DIS. LAI cm2/m2 Daily diseased leaf area increase .
+DLA% DIS. LAI %/d Daily % diseased leaf area increase .
+DLAI DIS LAI m2/m2.d Daily leaf area consumed .
+DLFM DIS. LF kg/ha.d Daily leaf mass consumed .
+DPO% DIS PLPOP %/day Daily plant population reduction .
+DRLF DIS RT cm/cm2.d Daily total root length consumed .
+DRLV DIS RT cm/cm3.d Daily root length density consumed .
+DRTM DIS RT kg/ha.d Daily root mass consumed .
+DSD# DIS SEED #/m2.d Daily seed number consumed .
+DSDM DIS SEED kg/ha Daily seed mass consumed .
+DSH# DIS SHL #/m2.d Daily shell number consumed .
+DSHM DIS SHL kg/ha.d Daily shell mass consumed .
+DSTM DIS STEM kg/ha Daily stem mass consumed .
+FAW FAW #/m Fall armyworm .
+RTWM RTWM #/m Root worm .
+SGSB SGSB #/m Southern green stinkbug .
+SL SB LOOPER #/m Soybean looper .
+VBC5 VBC5 #/m 5 instar velvetbean caterpillar .
+VBC6 VBC6 #/m 6 instar velvetbean caterpillar .
+
+*EXPERIMENTAL DATA
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+AP1D APEX 1cm day Apex 1cm date (YrDoy) .
+BR1D Branch 1 date Date of first branching (YrDoy) B1DAT
+BR2D Branch 2 date Date of second branching (YrDoy) B2DAT
+BR3D Branch 3 date Date of third branching (YrDoy) B3DAT
+BR4D Branch 4 dap Date of fourth branching (YrDoy) B4DAT
+BR1P Branch 1 dap Days after planting to the first branch B1DAP
+BR2P Branch 2 dap Days after planting to the second branch B2DAP
+BR3P Branch 3 dap Days after planting to the third branch B3DAP
+BR4P Branch 4 dap Days after planting to the fourth branch B4DAP
+CDWA CANOPY+D kg/ha Tops+dead wt (kg [dm]/ha .
+CHN% CHAFF N % Chaff N (%) .
+CHWA CHAFF WT kg/ha Chaff weight (kg [dm]/ha) .
+DRID DOUBLE RIDGES d Double ridges date (YrDoy) .
+DWAD DEAD WT kg/ha Dead material weight (kg [dm]/ha) .
+EDAT0 PRIMARY EMERGE Primary stalk emergence day (dap) .
+EDAT1 TILLR 1 EMERGE First tiller emergence day (dap) .
+EDAT2 TILLR 2 EMERGE Second tiller emergence day (dap) .
+EEMD EAR EMERGENCE d Ear emergence date (YrDoy) .
+EGWA EAR+GRAIN kg/ha Ear plus grain weight (kg [dm]/ha) .
+EGWS EAR+GRAIN g/s Ear+grain weight (g [dm]/shoot .
+G#PD GRAIN NO #/pl Grain number (no/plant) .
+G#SD GRAIN NO #shoot Grain number (no/shoot) .
+GW%M GRAIN H20 % Grain moisture at maturity (%) .
+GWAM GRAIN WT kg/ha Grain wt at maturity (kg [dm]/ha) .
+GWGM GRAIN WT mg Unit wt at maturity (mg [dm]/grain) .
+GWPM GRAIN WT g/pl Grain wt at maturity (g [dm]/plan .
+GYAM GRAIN YLD kg/ha Grain yield at maturity (kg [fm]/ha) .
+GYPM GRAIN YLD g/pl Grain yld at maturity (g [fm]/plan .
+GYVM TEST WT kg/hl Test weight at maturity (kg [fm]/hl) .
+HWAC COR YIELD kg/ha Corrected yield (kg [dm]/ha) .
+HYAM HARVEST kg/ha Harvest yld at maturity (kg [fm]/ha) .
+L#IR LEAF # INCREASE Leaf number increase rate (#/day) .
+LAASH LEAF cm2/stalk Total leaf area/stalk (avg) at harvest(cm2/stalk) .
+LAFD FLAG AREA cm2 Flag leaf area (cm2/leaf) .
+LAIXD LAI max date Day at which maximum leaf area index occurs (dap) .
+LAIXT LAI at stalkmax LAI at maximum tiller population .
+LALD LEAF AREA cm2 Leaf area (cm2/leaf) .
+LALN LEAF AREA,NEW Leaf area,new leaves (cm2/[leaf]) .
+LAPD LEAF AREA cm2/p Leaf area (cm2/plant) .
+LARD LEAF APPEARANCE Leaf appearance rate (#/day) .
+LF3D LEAF 3 FULL day Full expansion, leaf 3 (Yrdoy) .
+LF5D LEAF 5 FULL day Full expansion, leaf 5 (Yrdoy) .
+LLFD LAST LEAF day Last leaf date (YrDoy) .
+LWAM LEAF WT kg/ha Leaf weight (kg/ha) .
+LWASH LEAF WT g/stalk Total leaf weight/stalk (avg) at harvest(g/stalk) .
+LWPD LEAF WT g/plant Leaf weight (g/plant) .
+NAPSH NODE #/stalk Average nodes per stalk at harvest (nodes/stalk) .
+PARID PAR INTERCEPT % PAR interception (%) .
+RLAD ROOT LN cm/cm2 Root length (cm/cm2) .
+RLWD ROOT L/W cm/g Root length/weight (cm/g) .
+RWLD ROOT W/L g/cm Root weight/length (g/cm) .
+S#AD SHOOT NO #/m2 Shoot (apex) number (no/m2) .
+S#PD SHOOT NO #/pl Shoot (apex) number (no/plant) .
+S#AH STALK HARV POP Stalk population at harvest (stalks/m2) .
+SCWA STM+CHAFF kg/ha Stem plus chaff (kg/ha) .
+SDWT SEED WT g/pl Seed weight (g/plant) .
+SHTH STALK HARV HT Average height of stalks at harvest (m) .
+SP#P SPIKELETS #/pl Spikelet number (no/plant) .
+SPDAP SPROUT DAY Primary stalk bud sprouts from sett (dap) .
+SPDAT SPROUT DAY Primary stalk bud sprouts from sett (YrDoy) .
+SWPD STEM WT g/plant Stem weight (g [dm]/plant) .
+T#AD1 TILLER # DATE 1 Tiller population at user-determined date 1 (YrDoy) .
+T#AD2 TILLER # DATE 2 Tiller population at user-determined date 2 (YrDoy) .
+T#AD3 TILLER # DATE 3 Tiller population at user-determined date 3 (YrDoy) .
+T#MX TILLER MAX POP Tiller maximum population (stalks/m2) .
+T#MXD MAX POP DATE Tiller maximum population day (dap) .
+T#PD TILLER NO.#/pl Tiller number (no/plant) .
+TDECD TLR DECLINE DAY Initiation of tiller population decline (dap) .
+TDWA TOTAL+D kg/ha Tops+roots+storage+dead (kg [dm]/ha) .
+TNIM TOTAL N kg/ha Total N at maturity (kg [N]/ha) .
+TSPD TERMINAL SPKL d Terminal spikelet date (YrDoy) .
+TWAM TOTAL WT kg/ha Total wt, maturity (kg [dm]/ha) .
+VWAM VEG WT kg/ha Veg (leaf+stemt) wt,maturity (kg [dm]/ha) .
+Z21D ZADOKS 21 day Zadoks 21 date (YrDoy) .
+Z30D ZADOKS 30 day Zadoks 30 date (YrDoy) .
+Z31D ZADOKS 31 day Zadoks 31 date (YrDoy) .
+Z37D ZADOKS 37 day Zadoks 37 date (YrDoy) .
+Z39D ZADOKS 39 day Zadoks 39 date (YrDoy) .
+
+*USER
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+ABUND BUND HT mm Bund height (mm) .
+EFAC CUM FLD EVAP mm Cumulative floodwater evaporation (mm) .
+EFAD FLD EVAP mm/d Floodwater evaporation rate (mm/d) .
+FALG ALGAL ACTIVITY Floodwater Photosynth. Act. Index (0 to 1) .
+FALI FLOOD LT INDX Floodwater Light Index (0 to 1) .
+FDEN DNITRF kgN/ha/d Floodwater Denitrification Rate (kg [N]/(ha.day)) .
+FL3C FLD NH3 mg N/l Floodwater Aqueous Ammonia (NH3) Conc. (mg [N]/l) .
+FL3N FLD NO3 mg N/l Floodwater Nitrate N (NO3) Conc. (mg [N]/l) .
+FL4N FLD NH4 kgN/ha Floodwater Ammoniacal N (kg [N]/ha) .
+FL4C FLD NH4 mg N/l Floodwater Ammonium N (NH4) Conc. (mg [N]/l) .
+FLBD Puddle BD g/cc Puddled Soil Surface Layer Bulk Density (g/cc) .
+FLDD FLOOD DEPTH mm Flood water depth (mm) .
+FLNI FLOOD NIT INDX Floodwater Nitrogen Index (0 to 1) .
+FLPH FLOOD pH Maximum Daytime Floodwater pH .
+FLTI FLOOD TMP INDX Floodwater Temperature Index (0 to 1) .
+FLUR FLD UREA kgN/ha Floodwater Urea N (kg N/Ha) .
+FROD FLOOD RO mm/d Flood water runoff over bund (mm/d) .
+FUHY UREA HYD kgN/ha Urea Hydrolysis Rate in Floodwater (kg [N]/(ha.day)) .
+INFD INFILT mm/d Infiltration rate (mm/d) .
+IRRD IRRIG mm/d Irrigation (mm/d) .
+TL#C TILLAGE # Number of tillage operations .
+TLDD TILL DEP cm Depth of last tillage operation (cm) .
+
+*WEATHER
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+CLDD CLOUD FRAC Relative cloudiness factor (0-1) .
+CO2D CO2 ppm Atmospheric CO2 concentration (ppm) .
+DAYLD DAYLENGTH hr Day length sunrise to sunset (hr) .
+PARD PAR Daily PAR or photon flux density (moles[quanta]/(m2.d)) .
+PRED PRECIP mm/d Precipitation depth (mm/d) .
+SRAD SRAD MJ/m2.d Solar radiation (MJ/(m2.d)) .
+TAVD AVG TEMP °C Average daily temperature (°C) .
+TDWD DEWPOINT °C Dewpoint temperature (°C) .
+TDYD AV DAY TMP °C Average temperature during daylight hours (°C) .
+TGAD AV GRWTH TMP °C Average daily air temperature for growth (°C) .
+TGRD AV GRWTH TMP °C Average air temp. daylight hours for growth (°C) .
+TMEAN MEAN TEMP °C Mean Temperature (TMAX+TMIN/2; °C) .
+TMND MIN TEMP °C Minimum daily temperature (°C) .
+TMXD MAX TEMP °C Maximum daily temperature (°C) .
+TWLD TWILIGHT hr Twilight to twilight day length (hr) .
+WDSD WIND SPEED km/d Wind speed (km/d) .
+
+*OTHER MODELS
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+ACO2 AMBIENT CO2 Ambient CO2 level (ppm) .
+AWAD ASSIM kg/ha.d Assimilate production (kg/(ha.d)) .
+CHNAD CHAFF N kh/ha Chaff N (kg/ha) .
+CHWAD CHAFF WT kg/ha Chaff weight (kg/ha) .
+CN%D TOPS N % Tops (ie.canopy) N (%) .
+CNAD CROP N kg/ha Tops N (kg/ha) .
+CO2FD CO2 FACTOR CO2 factor for photosynthesis (0-10) .
+DAYLF DAYLENGTH FAC Daylength factor (0-1) .
+DNAG DEAD N kg/ha.d Dead N increment (kg/(ha.d)) .
+DOY DAY OF YEAR Day of year .
+DWAG DEAD WT kg/ha.d Dead material increase (kg [dm]/(ha.d)) .
+HIND HARVEST N INDEX Harvest index fo N (grain [N]/tops [N]) .
+HNAD Harvest N kg/ha Harvest product (eg.,grain,storage root) N (kg/ha) .
+HNAM Harvest N kg/ha Harvest product (eg.,grain,tuber) N at maturity (kg/ha) .
+HNCD Harvest N conc. Harvest product (eg.,grain,storage root) N conc (fr) .
+HN%D Harvest N % Harvest product (eg.,grain,storage root) N conc (%) .
+HN%M Harvest N % Harvest product (eg.,grain,tuber) N conc at maturity (%) .
+
+LA%D ABSORBED PAR Absorbed PAR (%) .
+LAIPD LAI produced Leaf area index produced to the present time (m2/m2) .
+LAISD LAI senesced Leaf area index senesced to the present time (m2/m2) .
+
+NFGD N FACTOR,GROWTH N factor for leaf growth (0-1) .
+NFPD N FACTOR,PHOTSN N factor for photosynthesis (0-1) .
+NFSD N FACTOR,SENES N factor for senescence (0-1) .
+NFTD N FACTOR,TILLER N factor for tillering (0-1) .
+NFUD N FACTOR,UPTAKE N factor for N uptake (fr) .
+NSTD N STRESS FACTOR Nitrogen stress factor (0-1) .
+PARUD PAR UTIZATION PAR utilization efficiency (g/MJ) .
+PMAD PANICLE WT g/m2 Panicle weight (grain+structural;g/m2 or kg/ha) .
+PTF SHOOT FRACTION Partition fraction of assimilates to shoot (0-1) .
+PTFD SHOOT FRACTION Partition fraction of assimilates to shoot (0-1) .
+RNAD ROOT N kg/ha Root N (kg/ha) .
+RNCD ROOT N % Root nitrogen concentration on a specific day % .
+
+RS%D RESERVES % Reserves concentration (%) .
+RSAD STEM RESERVES Stem reserves weight (g/m2 or kg/ha) .
+RSFP RESERVES FACTOR Reserves factor for photosynthesis (0-1) .
+RSWAD RESERVES kg/ha Reserves weight (kg/ha) .
+SAID STEM AREA INDEX Stem area index (m2/m2) .
+SDNAD SEED N kg/ha Seed (ie.what sown) N (kg/ha) .
+SDNCD SEED N % Seed (ie.what sown) N concentration % .
+
+SDWAD SEED WT kg/ha Seed (ie.what sown) weight (kg/ha) .
+SDN%D SEED N % Seed (ie.what sown) N concentration (%) .
+SGDMD Grn Leaf Sheath Green leaf sheath weight (t/ha) .
+SLND SPECIFIC LF N Specific leaf N (g [N]/cm2 [leaf]) .
+SNCD STEM N % Stem nitrogen concentration on a specific day % .
+
+SNN0C Senes Surf N Cumulative senesced N to surface (kg[N]/ha) .
+SNN0D Senes Surf N Senesced N to surface (kg[N]/ha.d) .
+SNN1C Senes Soil N Cumulative senesced N to soil (kg[N]/ha) .
+SNN1D Senes Soil N Senesced N to soil (kg[N]/ha.d) .
+SNNTC Senes Soil N Senesced N to soil and surface (kg[N]/ha) .
+SNPTC Senes Soil P Senesced P to soil and surface (kg[P]/ha) .
+SNW0C Senes Surf Wt. Cumulative senesced dry matter to surface (kg/ha) .
+SNW0D Senes Surf Wt. Senesced dry matter to surface (kg/ha.d) .
+SNW1C Senes Soil Wt. Cumulative senesced dry matter to soil (kg/ha) .
+SNW1D Senes Soil Wt. Senesced dry matter to soil (kg/ha.d) .
+SNXD Extr. N kg/ha Extractable soil N (kg[N]/ha) .
+SSAD STRUCTURAL STEM Structural stem weight (g/m2 or kg/ha) .
+TFGD TEMP FAC GROWTH Temperature factor for leaf growth (0-1) .
+TFPD TEMP FAC PHS Temperature factor for photosynthesis (0-1) .
+TNAD TOPS N kg/ha Tops (ie canopy) N (kg/ha) .
+TRRD TRANSLOC RESP Translocation respiration (g/(m2.d) or kg/(ha.d)) .
+TWUPD Pot H2O uptake Potential root water uptake (cm) .
+VNCD Veg N conc. fr Vegetative above-ground tissue N concentration (fr) .
+VN%D Veg N% Vegetative above-ground tissue N concentration (%) .
+VN%LD Veg N% minimum Vegetative above-ground tissue minimum N conc. (%) .
+VN%CD Veg N% critical Vegetative above-ground tissue critical N conc. (%) .
+
+VRNF VERNALIZE FAC Vernalization factor (0-1) .
+WFSD WATER FAC SENES Water factor for senescence (0-1) .
+WFTD WATER FAC TRANS Water factor for transpiration (0-1) .
+WSTD H2O STRESS,TILR Water stress - tillering (0-1) .
+YEAR YEAR Year (4 digits) .
+
+*SOIL ORGANIC MATTER
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+CO20C SurfCO2 (kg/ha) Accumulated surface CO2 (kg/ha) .
+CO2SC SoilCO2 (kg/ha) Accumulated soil CO2 (kg/ha) .
+HRNH N harvest res N in harvest residue (kg [N]/ha) .
+HRPH P harvest res P in harvest residue (kg [P]/ha) .
+LC0D LitC L0 (kg/ha) Litter C on surface (kg/ha) .
+LC1D LitC L1 (kg/ha) Litter C - soil layer 1 (kg/ha) .
+LC2D LitC L2 (kg/ha) Litter C - soil layer 2 (kg/ha) .
+LC3D LitC L3 (kg/ha) Litter C - soil layer 3 (kg/ha) .
+LC4D LitC L4 (kg/ha) Litter C - soil layer 4 (kg/ha) .
+LC5+D LitC L5+(kg/ha) Litter C - soil layer 5 thru bottom of profile (kg/ha) .
+LCTD LitC (kg/ha) Total soil litter carbon (kg/ha) .
+LN0D LitN L0 (kg/ha) Litter N on surface (kg/ha) .
+LN1D LitN L1 (kg/ha) Litter N - soil layer 1 (kg/ha) .
+LN2D LitN L2 (kg/ha) Litter N - soil layer 2 (kg/ha) .
+LN3D LitN L3 (kg/ha) Litter N - soil layer 3 (kg/ha) .
+LN4D LitN L4 (kg/ha) Litter N - soil layer 4 (kg/ha) .
+LN5+D LitN L5+(kg/ha) Litter N - soil layer 5 thru bottom of profile(kg/ha) .
+LNTD LitN (kg/ha) Total soil litter N (kg/ha) .
+LP0D LitP L0 (kg/ha) Litter P on surface (kg/ha) .
+LP1D LitP L1 (kg/ha) Litter P - soil layer 1 (kg/ha) .
+LP2D LitP L2 (kg/ha) Litter P - soil layer 2 (kg/ha) .
+LP3D LitP L3 (kg/ha) Litter P - soil layer 3 (kg/ha) .
+LP4D LitP L4 (kg/ha) Litter P - soil layer 4 (kg/ha) .
+LP5+D LitP L5+(kg/ha) Litter P - soil layer 5 thru bottom of profile(kg/ha) .
+LPTD LitP (kg/ha) Total soil litter P (kg/ha) .
+MEC0D MLitC-0 (kg/ha) Metabolic litter C surface (kg/ha) .
+MEC1D MLitC-1 (kg/ha) Metabolic litter C layer 1 (kg/ha) .
+MEC2D MLitC-2 (kg/ha) Metabolic litter C layer 2 (kg/ha) .
+MEC3D MLitC-3 (kg/ha) Metabolic litter C layer 3 (kg/ha) .
+MEC4D MLitC-4 (kg/ha) Metabolic litter C layer 4 (kg/ha) .
+MEC5+D MLitC-5+(kg/ha) Metabolic litter C layer 5 thru bottom of profile(kg/ha) .
+MECTD MetLitC (kg/ha) Total soil metabolic litter C (kg/ha) .
+MEN0D MLitN-0 (kg/ha) Metabolic litter N surface (kg/ha) .
+MEN1D MLitN-1 (kg/ha) Metabolic litter N layer 1 (kg/ha) .
+MEN2D MLitN-2 (kg/ha) Metabolic litter N layer 2 (kg/ha) .
+MEN3D MLitN-3 (kg/ha) Metabolic litter N layer 3 (kg/ha) .
+MEN4D MLitN-4 (kg/ha) Metabolic litter N layer 4 (kg/ha) .
+MEN5+D MLitN-5+(kg/ha) Metabolic litter N layer 5 thru bottom of profile(kg/ha) .
+MENTD MetLitN (kg/ha) Total soil metabolic litter N (kg/ha) .
+MEP0D MLitP-0 (kg/ha) Metabolic litter P surface (kg/ha) .
+MEP1D MLitP-1 (kg/ha) Metabolic litter P layer 1 (kg/ha) .
+MEP2D MLitP-2 (kg/ha) Metabolic litter P layer 2 (kg/ha) .
+MEP3D MLitP-3 (kg/ha) Metabolic litter P layer 3 (kg/ha) .
+MEP4D MLitP-4 (kg/ha) Metabolic litter P layer 4 (kg/ha) .
+MEP5+D MLitP-5+(kg/ha) Metabolic litter P layer 5 thru bottom of profile(kg/ha) .
+MEPTD MetLitP (kg/ha) Total soil metabolic litter P (kg/ha) .
+RESC CumRes (kg/ha) Cumulative residue added (kg/ha) .
+RESNC CumResN (kg/ha) Cumulative residue N added (kg[N]/ha) .
+RESPC CumResP (kg/ha) Cumulative residue P added (kg[P]/ha) .
+S1C0D SOC1 L0 (kg/ha) Active organic C on surface (kg/ha) .
+S1C1D SOC1 L1 (kg/ha) Active organic C - layer 1 (kg/ha) .
+S1C2D SOC1 L2 (kg/ha) Active organic C - layer 2 (kg/ha) .
+S1C3D SOC1 L3 (kg/ha) Active organic C - layer 3 (kg/ha) .
+S1C4D SOC1 L4 (kg/ha) Active organic C - layer 4 (kg/ha) .
+S1C5+D SOC1 L5+(kg/ha) Active organic C - layer 5 thru bottom of profile(kg/ha) .
+S1CTD SOC1 (kg/ha) Total active soil organic C (kg/ha) .
+S1N0D SON1 L0 (kg/ha) Active organic N on surface (kg/ha) .
+S1N1D SON1 L1 (kg/ha) Active organic N - layer 1 (kg/ha) .
+S1N2D SON1 L2 (kg/ha) Active organic N - layer 2 (kg/ha) .
+S1N3D SON1 L3 (kg/ha) Active organic N - layer 3 (kg/ha) .
+S1N4D SON1 L4 (kg/ha) Active organic N - layer 4 (kg/ha) .
+S1N5+D SON1 L5+(kg/ha) Active organic N - layer 5 thru bottom of profile(kg/ha) .
+S1NTD SON1 (kg/ha) Total active soil organic N (kg/ha) .
+S1P0D SOP1 L0 (kg/ha) Active organic P on surface (kg/ha) .
+S1P1D SOP1 L1 (kg/ha) Active organic P - layer 1 (kg/ha) .
+S1P2D SOP1 L2 (kg/ha) Active organic P - layer 2 (kg/ha) .
+S1P3D SOP1 L3 (kg/ha) Active organic P - layer 3 (kg/ha) .
+S1P4D SOP1 L4 (kg/ha) Active organic P - layer 4 (kg/ha) .
+S1P5+D SOP1 L5+(kg/ha) Active organic P - layer 5 thru bottom of profile(kg/ha) .
+S1PTD SOP1 (kg/ha) Total active soil organic P (kg/ha) .
+S2C1D SOC2 L1 (kg/ha) Intermed. org. C - layer 1 (kg/ha) .
+S2C2D SOC2 L2 (kg/ha) Intermed. org. C - layer 2 (kg/ha) .
+S2C3D SOC2 L3 (kg/ha) Intermed. org. C - layer 3 (kg/ha) .
+S2C4D SOC2 L4 (kg/ha) Intermed. org. C - layer 4 (kg/ha) .
+S2C5+D SOC2 L5+(kg/ha) Intermed. org. C - layer 5 thru bottom of profile(kg/ha) .
+S2CTD SOC2 (kg/ha) Total intermed. soil organic C (kg/ha) .
+S2N1D SON2 L1 (kg/ha) Intermed. org. N - layer 1 (kg/ha) .
+S2N2D SON2 L2 (kg/ha) Intermed. org. N - layer 2 (kg/ha) .
+S2N3D SON2 L3 (kg/ha) Intermed. org. N - layer 3 (kg/ha) .
+S2N4D SON2 L4 (kg/ha) Intermed. org. N - layer 4 (kg/ha) .
+S2N5+D SON2 L5+(kg/ha) Intermed. org. N - layer 5 thru bottom of profile(kg/ha) .
+S2NTD SON2 (kg/ha) Total intermed. soil organic N (kg/ha) .
+S23P1D SOP23 L1(kg/ha) Intermediate and stable organic P - layer 1 (kg/ha) .
+S23P2D SOP23 L2(kg/ha) Intermediate and stable organic P - layer 2 (kg/ha) .
+S23P3D SOP23 L3(kg/ha) Intermediate and stable organic P - layer 3 (kg/ha) .
+S23P4D SOP23 L4(kg/ha) Intermediate and stable organic P - layer 4 (kg/ha) .
+S23P+D SOP23 L5+(kg/h) Intermed. & stable org. P - bottom layers (kg/ha) .
+S23PTD SOP23 (kg/ha) Total intermed. soil organic P (kg/ha) .
+S3C1D SOC3 L1 (kg/ha) Passive organic C - layer 1 (kg/ha) .
+S3C2D SOC3 L2 (kg/ha) Passive organic C - layer 2 (kg/ha) .
+S3C3D SOC3 L3 (kg/ha) Passive organic C - layer 3 (kg/ha) .
+S3C4D SOC3 L4 (kg/ha) Passive organic C - layer 4 (kg/ha) .
+S3C5+D SOC3 L5+(kg/ha) Passive organic C - layer 5 -> bottom of profile(kg/ha) .
+S3CTD SOC3 (kg/ha) Total passive soil organic C (kg/ha) .
+S3N1D SON3 L1 (kg/ha) Passive organic N layer 1 (kg/ha) .
+S3N2D SON3 L2 (kg/ha) Passive organic N layer 2 (kg/ha) .
+S3N3D SON3 L3 (kg/ha) Passive organic N layer 3 (kg/ha) .
+S3N4D SON3 L4 (kg/ha) Passive organic N layer 4 (kg/ha) .
+S3N5+D SON3 L5+(kg/ha) Passive organic N layer 5 thru bottom of profile(kg/ha) .
+S3NTD SON3 (kg/ha) Total passive soil organic N (kg/ha) .
+SC%20D SOC 0-20cm (%) Organic C (SOM) in top 20 cm (%) .
+SC%40D SOC 20-40cm (%) Organic C (SOM) between 20 and 40 cm depth (%) .
+SC0D SOC L0 (kg/ha) Organic C on surface (kg/ha) .
+SC1D SOC L1 (kg/ha) Organic C in soil layer 1 (kg/ha) .
+SC2D SOC L2 (kg/ha) Organic C in soil layer 2 (kg/ha) .
+SC3D SOC L3 (kg/ha) Organic C in soil layer 3 (kg/ha) .
+SC4D SOC L4 (kg/ha) Organic C in soil layer 4 (kg/ha) .
+SC5+D SOC L5+(kg/ha) Organic C in soil layer 5 thru bottom of profile(kg/ha) .
+SCS20D SOC 0-20cm kg/h Organic C (SOM) in top 20 cm (kg/ha) .
+SCS40D SOC20-40cm kg/h Organic C (SOM) between 20 and 40 cm depth (kg/ha) .
+SCTD SOC (kg/ha) Total soil organic carbon (kg/ha) .
+SL%20D TOC 0-20cm (%) Organic C (SOM + litter) in top 20 cm (%) .
+SL%40D TOC 20-40cm (%) Organic C (SOM + litter) between 20 and 40 cm depth (%) .
+SLC20D TOC 0-20cm kg/h Organic C (SOM + litter) in top 20 cm (kg/ha) .
+SLC40D TOC20-40cm kg/h Organic C (SOM + litter) from 20 to 40 cm depth (kg/ha) .
+SN%20D SON % 0-20 cm Organic N in top 20 cm of soil (%) .
+SN%40D SON % 20-40 cm Organic N in 20-40 cm of soil (%) .
+SN0D SON L0 (kg/ha) Organic N on surface (kg/ha) .
+SN1D SON L1 (kg/ha) Organic N in soil layer 1 (kg/ha) .
+SN2D SON L2 (kg/ha) Organic N in soil layer 2 (kg/ha) .
+SN3D SON L3 (kg/ha) Organic N in soil layer 3 (kg/ha) .
+SN4D SON L4 (kg/ha) Organic N in soil layer 4 (kg/ha) .
+SN5+D SON L5+(kg/ha) Organic N in soil layer 5 thru bottom of profile(kg/ha) .
+SNS20D SON top 20 cm Organic N in top 20 cm of soil (kg/ha) .
+SNS40D SON 20-40 cm Organic N in 20-40 cm of soil (kg/ha) .
+SNTD SON (kg/ha) Soil organic N (kg/ha) .
+SOMCT Soil SOMC kg/ha C in stable organic matter in soil profile (kg/ha) .
+SOMNT Soil SOMN kg/ha N in stable organic matter in soil profile (kg/ha) .
+SOMPT Soil SOMP kg/ha P in stable organic matter in soil profile (kg/ha) .
+SP%20D SOP % 0-20 cm Organic N in top 20 cm of soil (%) .
+SP%40D SOP % 20-40 cm Organic N in 20-40 cm of soil (%) .
+SP0D SOP L0 (kg/ha) Organic P on surface (kg/ha) .
+SP1D SOP L1 (kg/ha) Organic P in soil layer 1 (kg/ha) .
+SP2D SOP L2 (kg/ha) Organic P in soil layer 2 (kg/ha) .
+SP3D SOP L3 (kg/ha) Organic P in soil layer 3 (kg/ha) .
+SP4D SOP L4 (kg/ha) Organic P in soil layer 4 (kg/ha) .
+SP5+D SOP L5+(kg/ha) Organic P in soil layer 5 thru bottom of profile(kg/ha) .
+SPS20D SOP top 20 cm Organic N in top 20 cm of soil (kg/ha) .
+SPS40D SOP 20-40 cm Organic N in 20-40 cm of soil (kg/ha) .
+SPTD SOP (kg/ha) Soil organic P (kg/ha) .
+STC0D SLitC-0 (kg/ha) Structural litter C surface (kg/ha) .
+STC1D SLitC-1 (kg/ha) Structural litter C layer 1 (kg/ha) .
+STC2D SLitC-2 (kg/ha) Structural litter C layer 2 (kg/ha) .
+STC3D SLitC-3 (kg/ha) Structural litter C layer 3 (kg/ha) .
+STC4D SLitC-4 (kg/ha) Structural litter C layer 4 (kg/ha) .
+STC5+D SLitC-5+(kg/ha) Structural litter C layer 5 -> bottom of profile(kg/ha) .
+STCTD StrLitC (kg/ha) Total soil structural litter C (kg/ha) .
+STN0D SLitN-0 (kg/ha) Structural litter N surface (kg/ha) .
+STN1D SLitN-1 (kg/ha) Structural litter N layer 1 (kg/ha) .
+STN2D SLitN-2 (kg/ha) Structural litter N layer 2 (kg/ha) .
+STN3D SLitN-3 (kg/ha) Structural litter N layer 3 (kg/ha) .
+STN4D SLitN-4 (kg/ha) Structural litter N layer 4 (kg/ha) .
+STN5+D SLitN-5+(kg/ha) Structural litter N layer 5 -> bottom of profile(kg/ha) .
+STNTD StrLitN (kg/ha) Total soil structural litter N (kg/ha) .
+STP0D SLitP-0 (kg/ha) Structural litter P surface (kg/ha) .
+STP1D SLitP-1 (kg/ha) Structural litter P layer 1 (kg/ha) .
+STP2D SLitP-2 (kg/ha) Structural litter P layer 2 (kg/ha) .
+STP3D SLitP-3 (kg/ha) Structural litter P layer 3 (kg/ha) .
+STP4D SLitP-4 (kg/ha) Structural litter P layer 4 (kg/ha) .
+STP5+D SLitP-5+(kg/ha) Structural litter P layer 5 -> bottom of profile(kg/ha) .
+STPTD StrLitP (kg/ha) Total soil structural litter P (kg/ha) .
+
+*PLANT PHOSPHORUS
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+NTOPD N:P ratio veg N:P ratio in vegetative tissue .
+PHFR1 Frac PTT veg Fraction of photothermal time in phase 1 (vegetative) .
+PHFR2 Frac PTT rep Fraction of photothermal time in phase 2 (reproductive) .
+PLPAD Plant P kg/ha P content in plant (kg[P]/ha) .
+PLPPD Plant P conc % Whole plant P concentration (%) .
+PRTMD Min root P % Minumum root P concentration (%) .
+PRTOD Opt root P % Optimum root P concentration (%) .
+PSDMD Min seed P % Minumum seed P concentration (%) .
+PSDOD Opt seed P % Optimum seed P concentration (%) .
+PSHMD Min shoot P % Minumum P concentration in leaf and stem (%) .
+PSHOD Opt shoot P % Optimum P concentration in leaf and stem (%) .
+PSLMD Min shell P % Minumum shell P concentration (%) .
+PSLOD Opt shell P % Optimum shell P concentration (%) .
+PST1A P stress photo P stress factor for reducing photosynthate (0-1) .
+PST2A P stress veg P stress which affects vegetative growth (0-1) .
+PSTRAT P stress ratio Fraction of veg P conc between minimum and optimum .
+PTDD P demand Plant daily demand for phosphorus (kg/ha) .
+PUPD P uptake kg/ha P uptake (kg[P]/ha-d) .
+RTPAD Root P kg/ha P content in roots (kg[P]/ha) .
+RTPPD Root P conc % Root P concentration (%) .
+SDPAD Seed P kg/ha P content in seed (kg[P]/ha) .
+SDPPD Seed P conc % Seed P concentration (%) .
+SHPAD Veg P kg/ha P content in leaf and stem tissue (kg[P]/ha) .
+SHPPD Veg P conc % P concentration in leaf and stem tissue (%) .
+SHWAD Shoot mass Mass of vegetative tissue (leaf and stem) (kg[DM]/ha) .
+SHRTD Shoot/root Shoot/root ratio .
+SLPAD Shell P kg/ha P content in shell (kg[P]/ha) .
+SLPPD Shell P conc % Shell P concentration (%) .
+SNP0C P senesce surf P senesced to surface (kg[P]/ha) .
+SNP1C P senesce soil P senesced to soil (kg[P]/ha) .
+
+*SOIL PHOSPHORUS
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+PACTD P Active kg/ha Active soil P (kg [P]/ha) .
+PAPC P Applied kg/ha Inorganic P applied (kg/ha) .
+PAV1D P avail layer 1 P available for uptake in soil layer 1 (kg [P]/ha) .
+PAV2D P avail layer 2 P available for uptake in soil layer 2 (kg [P]/ha) .
+PAV3D P avail layer 3 P available for uptake in soil layer 3 (kg [P]/ha) .
+PAV4D P avail layer 4 P available for uptake in soil layer 4 (kg [P]/ha) .
+PAV5D P avail layer 5 P available for uptake in soil layer 5 (kg [P]/ha) .
+PAVLD P Avail kg/ha P available to plant, soluble in root zone (kg [P]/ha) .
+PIAD Tot soil P kg/h Total soil inorganic P (kg [P]/ha) .
+PIMC P Immobilize Cumulative P immobilized (kg [P]/ha) .
+PLABD P Labile kg/ha Labile soil P (kg [P]/ha) .
+PMNC P Mineralize Cumulative P mineralized (kg [P]/ha) .
+PSOLD P Soluble kg/ha Soluble P (kg [P]/ha) .
+PSTAD P Stable kg/ha Stable soil P (kg [P]/ha) .
+PUP1D P uptake layr 1 P uptake in soil layer 1 (kg [P]/ha) .
+PUP2D P uptake layr 2 P uptake in soil layer 2 (kg [P]/ha) .
+PUP3D P uptake layr 3 P uptake in soil layer 3 (kg [P]/ha) .
+PUP4D P uptake layr 4 P uptake in soil layer 4 (kg [P]/ha) .
+PUP5D P uptake layr 5 P uptake in soil layer 5 (kg [P]/ha) .
+PLAB1 P labile 1 ppm Labile soil P in layer 1 (ppm) .
+PLAB2 P labile 2 ppm Labile soil P in layer 2 (ppm) .
+PLAB3 P labile 3 ppm Labile soil P in layer 3 (ppm) .
+PLAB4 P labile 4 ppm Labile soil P in layer 4 (ppm) .
+PLAB5 P labile 5 ppm Labile soil P in layer 5 (ppm) .
+
+*SOIL POTASSIUM
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+KAPC K fert kg/ha Cumulative K fertilizer applied (kg/ha) .
+KAPD K fert kg/ha Daily K fertilizer applied (kg/ha) .
+KAV1D K avail layr 1 K available in soil layer 1 (ppm) .
+KAV2D K avail layr 2 K available in soil layer 2 (ppm) .
+KAV3D K avail layr 3 K available in soil layer 3 (ppm) .
+KAV4D K avail layr 4 K available in soil layer 4 (ppm) .
+KAV5D K avail layr 5 K available in soil layer 5 (ppm) .
+KAVLD K avail kg/ha Available inorganic K in profile (kg/ha) .
+KTOTD K total kg/ha Total inorganic K in profile (kg/ha) .
+KUP1D K uptake lyr 1 K taken up by plant in soil layer 1 (ppm) .
+KUP2D K uptake lyr 2 K taken up by plant in soil layer 2 (ppm) .
+KUP3D K uptake lyr 3 K taken up by plant in soil layer 3 (ppm) .
+KUP4D K uptake lyr 4 K taken up by plant in soil layer 4 (ppm) .
+KUP5D K uptake lyr 5 K taken up by plant in soil layer 5 (ppm) .
+KUPC K uptake kg/ha Cumulative K uptake by plants (kg/ha) .
+KUPD K uptake kg/ha Daily K uptake by plants (kg/ha) .
+
+*FRESH WEIGHT
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+ADPWD DryWt g/fruit Average dry fruit (pod, ear) weight (g/fruit) .
+ADPWM DryWt g/fruit Avg dry fruit (pod, ear) weight at maturity (g/fruit) .
+AFPWD FreshWt g/fruit Average fresh fruit (pod, ear) weight (g/fruit) .
+AFPWM FreshWt g/fruit Avg fresh fruit (pod, ear) weight at maturity (g/fruit) .
+FCULD Fr wt cull Fresh weight for cull fruit/pods (g/m2) .
+FPWAD Tot Fr Wt kg/ha Total fresh fruit (pod, ear) weight (kg/ha) .
+FPWAM FreshPodWt k/h Fresh pod (ear) weight at maturity (kg/ha) .
+FSZ1D Fr wt 1 g/m2 Fresh weight for size class 1 (g/m2) .
+FSZ2D Fr wt 2 g/m2 Fresh weight for size class 2 (g/m2) .
+FSZ3D Fr wt 3 g/m2 Fresh weight for size class 3 (g/m2) .
+FSZ4D Fr wt 4 g/m2 Fresh weight for size class 4 (g/m2) .
+FSZ5D Fr wt 5 g/m2 Fresh weight for size class 5 (g/m2) .
+FSZ6D Fr wt 6 g/m2 Fresh weight for size class 6 (g/m2) .
+FSZ7D Fr wt 7 g/m2 Fresh weight for size class 7 (g/m2) .
+FSZ8D Fr wt 8 g/m2 Fresh weight for size class 8 (g/m2) .
+MFWAD Mrkt Fr Wt k/h Market fresh fruit (pod, ear) weight (kg/ha) .
+NFWAD # market/ha Market fruit (pod, ear) number (fruit/ha) .
+PAGED Pod age d Age of oldest pod or ear (days) .
+PAGEM Pod age d Age of oldest pod or ear at maturity (days) .
+PDMCD DryWt frac Fruit (pod, ear) dry matter concentration (fraction) .
+PDMCM DryMatter frac Avg dry matter concentration at maturity (fraction) .
+SMFMH Stalk fresh massMillable cane fresh weight at harvest (t/ha) .
+
+*CANEGRO - South Africa
+! Added by Matthew Jones 20070323 for the CANEGRO output analysis exercises
+! New codes, MJ Feb 2008 (mainly t/ha measures as conv. for sugarcane)
+! MJ: March 2008: t/ha values at harvest
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+AELH Aerial DM t/ha Aerial dry biomass at harvest (t/ha) .
+BADMD Aerial DM t/ha Aerial dry biomass (t/ha) .
+BRDMD Bioms increase Biomass increase per day (kg/ha/day) .
+DL#D Dead leaf # Dead leaf number .
+LAIGD Green LAI Green leaf area index (m2/m2) .
+LAIGH Green LAI @ har Green leaf area index at harvest (m2/m2) .
+LDDMD Trash DM t/ha Trash (residue) dry mass (t/ha), exclud. green tops & ms .
+LDGFD Lodging Extent of lodging (0-1) .
+LGDMD Green tops DM Green leaf canopy + meristem dry mass(t/ha)[green tops] .
+PGRD Gross photos. Gross photosynthesis rate (t/ha/day) .
+RDMD Root DM t/ha Root dry mass (t/ha) .
+RTLD Total RLV (cm2) Total root length per cm2 (cm/cm2) .
+SHTD Stalk height m Stalk height (m) .
+SMDMD Stalk DM t/ha Stalk (millable) dry mass, t/ha) .
+SMFMD Stalk fresh massStalk (millable) fresh mass (t/ha) .
+STKH Stalk DM t/ha Stalk (millable) dry mass at harvest (t/ha) .
+SU%DMD Sucrose % DM Sucrose content (%) of dry stalk mass .
+SU%FMD Sucrose % WM Sucrose content (%) of fresh ('wet') stalk mass .
+SUCH Sucrose DM t/ha Sucrose dry mass at harvest (t/ha) .
+SUCMD Sucrose DM t/ha Sucrose dry mass (t/ha) .
+TRSH Trash DM t/ha Trash (residue) dry mass at harvest (t/ha) .
+TTEBC HeatUnits Emrg. Thermal Time (heat units) for emergence base temp. .
+TTLEC HeatUnits Stlk. Thermal Time (heat units) for stalk population Tbase .
+TTSPC HeatUnits Leaf. Thermal Time (heat units) for leaf extension Tbase .
+
+*Dynamic soil properties
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+BD1 Bulk Dens Lyr 1 Bulk density in soil layer 1 (g/cm3) .
+BD2 Bulk Dens Lyr 2 Bulk density in soil layer 2 (g/cm3) .
+BD3 Bulk Dens Lyr 3 Bulk density in soil layer 3 (g/cm3) .
+BD4 Bulk Dens Lyr 4 Bulk density in soil layer 4 (g/cm3) .
+ROCN Curve Number SCS Surface runoff curve number .
+CRAIN Cum. Rain Till Cum. rainfall & irrigation since last tillage event (mm) .
+DLAYR1 Thickness Lyr 1 Thickness of soil layer 1 (cm) .
+DLAYR2 Thickness Lyr 2 Thickness of soil layer 2 (cm) .
+DLAYR3 Thickness Lyr 3 Thickness of soil layer 3 (cm) .
+DLAYR4 Thickness Lyr 4 Thickness of soil layer 4 (cm) .
+DUL1 Drained UL Lyr1 Water content at drained upper limit, layer 1 (mm3/mm3) .
+DUL2 Drained UL Lyr2 Water content at drained upper limit, layer 2 (mm3/mm3) .
+DUL3 Drained UL Lyr3 Water content at drained upper limit, layer 3 (mm3/mm3) .
+DUL4 Drained UL Lyr4 Water content at drained upper limit, layer 4 (mm3/mm3) .
+KECHGE1Kin Energy Lyr1 Kinetic energy since last tillage to layer 1 (J/cm2) .
+KECHGE2Kin Energy Lyr2 Kinetic energy since last tillage to layer 2 (J/cm2) .
+KECHGE3Kin Energy Lyr3 Kinetic energy since last tillage to layer 3 (J/cm2) .
+KECHGE4Kin Energy Lyr4 Kinetic energy since last tillage to layer 4 (J/cm2) .
+LL1 Lower Lim Lyr 1 Water content at lower limit, layer 1 (mm3/mm3) .
+LL2 Lower Lim Lyr 2 Water content at lower limit, layer 2 (mm3/mm3) .
+LL3 Lower Lim Lyr 3 Water content at lower limit, layer 3 (mm3/mm3) .
+LL4 Lower Lim Lyr 4 Water content at lower limit, layer 4 (mm3/mm3) .
+SAT1 Saturation Lyr1 Saturated water content, layer 1 (mm3/mm3) .
+SAT2 Saturation Lyr2 Saturated water content, layer 2 (mm3/mm3) .
+SAT3 Saturation Lyr3 Saturated water content, layer 3 (mm3/mm3) .
+SAT4 Saturation Lyr4 Saturated water content, layer 4 (mm3/mm3) .
+SOLCOV Soil cover frac Soil cover due to canopy and mulch (fraction) .
+SUMKE Sum Kin Energy Kinetic energy to soil since last tillage (J/cm2) .
+SWCN1 Ksat Lyr 1 Saturated hydraulic conductivity in layer 1 (cm/hr) .
+SWCN2 Ksat Lyr 2 Saturated hydraulic conductivity in layer 2 (cm/hr) .
+SWCN3 Ksat Lyr 3 Saturated hydraulic conductivity in layer 3 (cm/hr) .
+SWCN4 Ksat Lyr 4 Saturated hydraulic conductivity in layer 4 (cm/hr) .
+TOTAW Avail wat mm Available water capacity (mm) .
+
+*Leaves
+ at CDE LABEL DESCRIPTION............................................ SYNONYMS
+LNUM Leaf # Number of leaf on one axis .
+AREAP Potential area Potential area of leaf on main axis (cm2) .
+AREA1 Area youngest Area of youngest mature leaf on main axis (cm2) .
+AREAT Area cohort Area of cohort of leaves at leaf position (cm2) .
+AREAS Area senesced Senesced area of lf cohort at leaf position (cm2) .
+T#PL Tiller# at leaf Tiller number/plant at leaf position .
+T#AL Tiller# at leaf Tiller number/area(m2) at leaf position .
+WFLF Water stress lf Water stress factor for leaf (0-1,1=0 stress) .
+WFLFP Water stress ph Water stress factor for photosynthesis (0-1,1=0 stress) .
+NFLF N stress leaf N stress factor for leaf (0-1,1=0 stress) .
+NFLFP N stress phs N stress factor for photosynthesis (0-1,1=0 stress) .
+AFLF Assimilate fac Assimilate factor for leaf (0-1,1=0 no limitation) .
+TFLF Temperature fac Temperature factor for leaf (0-1,1=0 no limitation) .
+DAYSG Days growth lf Number of days of growth .
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DETAIL.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DETAIL.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DETAIL.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,530 @@
+*EXPERIMENTAL DETAILS CODES
+! DSSAT v4.5; 09/30/2010
+
+! Headers used in the @ line to identify variables are listed first, codes to
+! identify methods, chemicals, etc. are listed next in sections that relate to
+! specific aspects (Chemicals;Crop and weed species;Diseases and pests;Drainage;
+! Environment modification factors;Fertilizers,inoculants and amendments;
+! Harvest components;Harvest size categories;Methods-fertilizer and chemical
+! applications;Methods-irrigation and water management;Methods-soil analysis;
+! Planting materials;Plant distribution;Residues and organic fertilizers;
+! Rotations;Soil texture;and Tillage implements).
+!
+! The fields in the file are as follows:
+! CDE The 'universal' code used to facilitate data interchange.
+! DESCRIPTION A description of the code, with units.
+! SO The source of the codes (IB=IBSNAT). Codes added by a user should be
+! referenced in this field and the name and address of the person adding
+! the code should be entered as a comment (ie.with a '!' in column 1)
+! below this note. This is important to ensure that information from
+! different workers can be easily integrated. Users adding codes should
+! also ensure that those constructed by adding a number to a section
+! code (eg.FE001,CH001) are clearly identified with a letter in the third
+! position (eg.FEK01 for a fertilizer code added by someone with a family
+! name beginning with K).
+
+*Headers
+ at CDE DESCRIPTION SO
+ADDRESS Contact address of principal scientist IB
+C Crop component number (default = 1) IB
+CDATE Application date, year + day or days from planting IB
+CHAMT Chemical application amount, kg ha-1 IB
+CHCOD Chemical material, code IB
+CHDEP Chemical application depth, cm IB
+CHME Chemical application method, code IB
+CHNOTES Chemical notes (Targets, chemical name, etc.) IB
+CNAME Cultivar name IB
+CNOTES Cultivar details (Type, pedigree, etc.) IB
+CR Crop code IB
+CU Cultivar level IB
+ECO2 CO2 adjustment, A,S,M,R + vpm IB
+EDATE Emergence date, earliest treatment IB
+EDAY Daylength adjustment, A,S,M,R+h (Add;Subtract;Multiply;Replace) IB
+EDEW Humidity adjustment, A,S,M,R+oC (Add;Subtract;Multiply;Replace) IB
+EMAX Temp (max) adjustment, A,S,M,R+oC (Add;Subtract;Multiply;Replace) IB
+EMIN Temp (min) adjustment, A,S,M,R+oC (Add;Subtract;Multiply;Replace) IB
+ERAD Radn adjustment, A,S,M,R+MJ m-2day-1 (Add;Subtract;Multiply;Replace) IB
+ERAIN Precipitation adjustment, A,S,M,R+mm (Add;Subtract;Multiply;Replace) IB
+EWIND Wind adjustment, A,S,M,R + km day-1 (Add;Subtract;Multiply;Replace) IB
+FACD Fertilizer application/placement, code IB
+FAMC Ca in applied fertilizer, kg ha-1 IB
+FAMK K in applied fertilizer, kg ha-1 IB
+FAMN N in applied fertilizer, kg ha-1 IB
+FAMO Other elements in applied fertilizer, kg ha-1 IB
+FAMP P in applied fertilizer, kg ha-1 IB
+FDATE Fertilization date, year + day or days from planting IB
+FDEP Fertilizer incorporation/application depth, cm IB
+FL Field level IB
+FLDD Drain depth, cm IB
+FLDS Drain spacing, m IB
+FLDT Drainage type, code IB
+FLOB Obstruction to sun, degrees IB
+FLSA Slope and aspect, degrees from horizontal plus direction (W, NW, etc.IB
+FLST Surface stones (Abundance, % + Size, S,M,L) IB
+FMCD Fertilizer material, code IB
+FOCD Other element code, e.g.,. MG IB
+HAREA Harvest area, m-2 IB
+HARM Harvest method IB
+HCOM Harvest component, code IB
+HDATE Harvest date, year + day or days from planting IB
+HL Harvest level IB
+HLEN Harvest row length, m IB
+HPC Harvest percentage, % IB
+HRNO Harvest row number IB
+HSIZ Harvest size group, code IB
+HSTG Harvest stage IB
+IAME Method for automatic applications, code IB
+IAMT Amount per automatic irrigation if fixed, mm IB
+IC Initial conditions level IB
+ICBL Depth, base of layer, cm IB
+ICDAT Initial conditions measurement date, year + days IB
+ICND Nodule weight from previous crop, kg ha-1 IB
+ICRE Rhizobia effectiveness, 0 to 1 scale IB
+ICRN Rhizobia number, 0 to 1 scale IB
+ICRT Root weight from previous crop, kg ha-1 IB
+IDATE Irrigation date, year + day or days from planting IB
+IDEP Management depth for automatic application, cm IB
+ID_FIELD Field ID (Institute + Site + Field) IB
+ID_SOIL Soil ID (Institute + Site + Year + Soil) IB
+IEFF Irrigation application efficiency, fraction IB
+IEPT End point for automatic appl., % of max. available IB
+INGENO Cultivar identifier IB
+IOFF End of automatic applications, growth stage IB
+IROP Irrigation operation, code IB
+IRVAL Irrigation amount, depth of water/watertable, etc., mm IB
+ITHR Threshold for automatic appl., % of max. available IB
+MC Chemical applications level IB
+ME Environment modifications level IB
+MF Fertilizer applications level IB
+MH Harvest level IB
+MI Irrigation level IB
+MP Planting level IB
+MR Residue level IB
+MT Tillage level IB
+NOTES Notes IB
+O Rotation component - option (default = 1) IB
+ODATE Environmental modification date, year + day or days from planting IB
+PAGE Transplant age, days IB
+PAREA Gross plot area per rep, m-2 IB
+PCR Previous crop code IB
+PDATE Planting date, year + days from Jan. 1 IB
+PENV Transplant environment, oC IB
+PEOPLE Names of scientists IB
+PLAY Plot layout IB
+PLDP Planting depth, cm IB
+PLDR Plots relative to drains, degrees IB
+PLDS Planting distribution, row R, broadcast B, hill H IB
+PLEN Plot length, m IB
+PLME Planting method, code IB
+PLOR Plot orientation, degrees from N IB
+PLPH Plants per hill (if appropriate) IB
+PLRD Row direction, degrees from N IB
+PLRS Row spacing, cm IB
+PLSP Plot spacing, cm IB
+PLWT Planting material dry weight, kg ha-1 IB
+PPOE Plant population at emergence, m-2 IB
+PPOP Plant population at seeding, m-2 IB
+PRNO Rows per plot IB
+R Rotation component - number (default = 1) IB
+RACD Residue application/placement, code IB
+RAMT Residue amount, kg ha-1 IB
+RCOD Residue material, code IB
+RDATE Incorporation date, year + days IB
+RDEP Residue incorporation depth, cm IB
+RDMC Residue dry matter content, % IB
+RESK Residue potassium concentration, % IB
+RESN Residue nitrogen concentration, % IB
+RESP Residue phosphorus concentration, % IB
+RINP Residue incorporation percentage, % IB
+SA Soil analysis level IB
+SABD Bulk density, moist, g cm-3 IB
+SABL Depth, base of layer, cm IB
+SADAT Analysis date, year + days from Jan. 1 IB
+SAHB pH in buffer IB
+SAHW pH in water IB
+SAKE Potassium, exchangeable, cmol kg-1 IB
+SANI Total nitrogen, % IB
+SAOC Organic carbon, % IB
+SAPX Phosphorus, extractable, mg kg-1 IB
+SH20 Water, cm3 cm-3 IB
+SITE(S) Name and location of experimental site(s) IB
+SLDP Soil depth, cm IB
+SLTX Soil texture IB
+SM Simulation control level IB
+SMHB pH in buffer determination method, code IB
+SMKE Potassium determination method, code IB
+SMPX Phosphorus determination method, code IB
+SNH4 Ammonium, KCl, g elemental N Mg-1 soil IB
+SNO3 Nitrate, KCl, g elemental N Mg-1 soil IB
+TDATE Tillage date, year + day IB
+TDEP Tillage depth, cm IB
+TDETAIL Tillage details IB
+TIMPL Tillage implement, code IB
+TL Tillage level IB
+TN Treatment number IB
+TNAME Treatment name IB
+WSTA Weather station code (Institute + Site) IB
+
+*Chemicals (Herbicides, Insecticides, Fungicides, etc.)
+ at CDE DESCRIPTION SO
+CH001 Alachlor (Lasso), Metolachlor (Dual) [Herbicide] IB
+CH002 Propanil [Herbicide] IB
+CH003 Trifluralin [Herbicide] IB
+CH004 Dalapon [Herbicide] IB
+CH005 MCPA [Herbicide] IB
+CH006 2,4-D [Herbicide] IB
+CH007 2,4,5-T [Herbicide] IB
+CH008 Pendimethalin [Herbicide] IB
+CH009 Atrazine [Herbicide] IB
+CH010 Diquat [Herbicide] IB
+CH011 Paraquat [Herbicide] IB
+CH021 Carbaryl, Sevin, Septene [Insecticide] IB
+CH022 Malathion, Mercaptothion [Insecticide] IB
+CH023 Naled [Insecticide] IB
+CH024 Dimethoate [Insecticide] IB
+CH025 Fention [Insecticide] IB
+CH026 Diazinon, Basudin [Insecticide] IB
+CH027 Ethion, Diethion [Insecticide] IB
+CH028 Oxydemeton-Methyl [Insecticide] IB
+CH029 Azinphos-Methyl [Insecticide] IB
+CH030 Phosphamidon [Insecticide] IB
+CH031 Mevinphosl [Insecticide] IB
+CH032 Methyl Parathion [Insecticide] IB
+CH033 Parathion [Insecticide] IB
+CH034 DDT [Insecticide] IB
+CH035 BHC, HCH [Insecticide] IB
+CH036 Chlordane [Insecticide] IB
+CH037 Heptachlor [Insecticide] IB
+CH038 Toxaphene [Insecticide] IB
+CH039 Aldrin [Insecticide] IB
+CH040 Dieldrin [Insecticide] IB
+CH041 Endrin, Nendrin [Insecticide] IB
+CH042 Methomyl, Lannat [Insecticide] IB
+CH043 Thiotex [Insecticide] IB
+CH044 Furadan [Insecticide] IB
+CH045 Endosulfan [Insecticide] IB
+CH051 Captan [Fungicide] IB
+CH052 Benomyl [Fungicide] IB
+CH053 Zineb [Fungicide] IB
+CH054 Maneb [Fungicide] IB
+CH055 Mancozeb [Fungicide] IB
+CH056 Tilt [Fungicide] IB
+CH057 Rhizobium (for legume crops) IB
+CH100 Pix [Mepiquat Chloride; Growth Regulator] IB
+
+*Crop and Weed Species
+ at CDE DESCRIPTION SO
+AL Alfalfa/Lucerne IB
+AR Aroid IB
+BA Barley IB
+BM Bermuda grass IB
+BH Bahia grass IB
+BN Dry bean IB
+BR Brachiaria IB
+BS Sugar beet IB
+BW Broad leaf weeds IB
+CB Cabbage IB
+CH Chickpea IB
+CT Citrus IB
+CN Canola IB
+CO Cotton IB
+CP Cowpea IB
+CS Cassava IB
+CV Clover IB
+FA Fallow IB
+FB Faba bean IB
+GB Green bean IB
+GR Grass vegetation IB
+GW Grass weeds IB
+LT Lentil IB
+ML Pearl millet IB
+MZ Maize IB
+NN Banana IB
+NP Napier grass IB
+OA Oats IB
+PE Pea IB
+PI Pineapple IB
+PN Peanut IB
+PO Perennial peanut IB
+PP Pigeonpea IB
+PR Pepper IB
+PT Potato IB
+RI Rice IB
+RP Rhizoma peanut IB
+SB Soybean IB
+SC Sugarcane IB
+SG Grain sorghum IB
+SI Switch grass IB
+SS Sesame IB
+SU Sunflower IB
+SW Sweetcorn IB
+TM Tomato IB
+TN Tanier IB
+TR Taro IB
+VB Velvet bean IB
+VI Vine IB
+WH Wheat IB
+
+*Disease and Pest Organisms
+ at CDE DESCRIPTION SO
+!Examples of codes that have been used are given below. IB
+CEW Corn earworm (Heliothis zea), no. m-2 IB
+VBC Velvetbean caterpillar (Anticarsia gemmatalis), no. m-2 IB
+SBL Soybean looper (Pseudoplusia includens), no. m-2 IB
+SKB Southern green stinkbug (Mezara viridula), no. m-2 IB
+RKN Root-knot nematode (Meloidogyne spp.), no. cm-3 soil IB
+CUT Cutworm, no. m-2 IB
+
+*Drainage
+ at CDE DESCRIPTION SO
+DR000 No drainage IB
+DR001 Ditches IB
+DR002 Sub-surface tiles IB
+DR003 Surface furrows IB
+
+*Element Code
+ at CDE DESCRIPTION SO
+B Boron IB
+CA Calcium IB
+FE Iron IB
+MG Magnesium IB
+N Nitrogen IB
+P Phosphorus IB
+P Potassium IB
+S Sulfur IB
+ZN Zinc IB
+
+*Environment Modification Factors
+ at CDE DESCRIPTION SO
+A Add IB
+S Subtract IB
+M Multiply IB
+R Replace IB
+
+*Fertilizers, Inoculants and Amendments
+ at CDE DESCRIPTION SO
+FE001 Ammonium nitrate IB
+FE002 Ammonium sulfate IB
+FE003 Ammonium nitrate sulfate IB
+FE004 Anhydrous ammonia IB
+FE005 Urea IB
+FE006 Diammnoium phosphate IB
+FE007 Monoammonium phosphate IB
+FE008 Calcium nitrate IB
+FE009 Aqua ammonia IB
+FE010 Urea ammonium nitrate solution IB
+FE011 Calcium ammonium nitrate solution IB
+FE012 Ammonium polyphosphate IB
+FE013 Single super phosphate IB
+FE014 Triple super phosphate IB
+FE015 Liquid phosphoric acid IB
+FE016 Potassium chloride IB
+FE017 Potassium nitrate IB
+FE018 Potassium sulfate IB
+FE019 Urea super granules IB
+FE020 Dolomitic limestone IB
+FE021 Rock phosphate IB
+FE022 Calcitic limestone IB
+FE024 Rhizobium IB
+FE026 Calcium hydroxide IB
+FE051 Urea super granules (Control release) IB
+
+*Harvest components
+ at CDE DESCRIPTION SO
+C Canopy IB
+L Leaves IB
+H Harvest product IB
+
+*Harvest size categories
+ at CDE DESCRIPTION SO
+A All IB
+S Small - less than 1/3 full size IB
+M Medium - from 1/3 to 2/3 full size IB
+L Large - greater than 2/3 full size IB
+
+*Methods - Fertilizer and Chemical Applications
+ at CDE DESCRIPTION SO
+AP001 Broadcast, not incorporated IB
+AP002 Broadcast, incorporated IB
+AP003 Banded on surface IB
+AP004 Banded beneath surface IB
+AP005 Applied in irrigation water IB
+AP006 Foliar spray IB
+AP007 Bottom of hole, deep placement IB
+AP008 On the seed IB
+AP009 Injected IB
+AP011 Broadcast on flooded/saturated soil, none in soil IB
+AP012 Broadcast on flooded/saturated soil, 15% in soil IB
+AP013 Broadcast on flooded/saturated soil, 30% in soil IB
+AP014 Broadcast on flooded/saturated soil, 45% in soil IB
+AP015 Broadcast on flooded/saturated soil, 60% in soil IB
+AP016 Broadcast on flooded/saturated soil, 75% in soil IB
+AP017 Broadcast on flooded/saturated soil, 90% in soil IB
+AP018 Band on saturated soil,2cm flood, 92% in soil IB
+AP019 Deeply placed urea super granules/pellets, 95% in soil IB
+AP020 Deeply placed urea super granules/pellets, 100% in soil IB
+
+*Methods - Irrigation and Water Management (Units for associated data)
+ at CDE DESCRIPTION SO
+IR001 Furrow, mm IB
+IR002 Alternating furrows, mm IB
+IR003 Flood, mm IB
+IR004 Sprinkler, mm IB
+IR005 Drip or trickle, mm IB
+IR006 Flood depth, mm IB
+IR007 Water table depth, mm IB
+IR008 Percolation rate, mm day-1 IB
+IR009 Bund height, mm IB
+IR010 Puddling (for Rice only) IB
+IR011 Constant flood depth, mm IB
+
+*Methods - Soil Analysis
+ at CDE DESCRIPTION SO
+SA001 Olsen IB
+SA002 Bray No. 1 IB
+SA003 Bray No. 2 IB
+SA004 Mehlich I (double acid, 1:5) IB
+SA005 Anion exchange resin IB
+SA006 Truog IB
+SA007 Mehlich I (double acid, 1:10) IB
+SA008 Colwell IB
+SA009 Water IB
+SA010 IFDC Pi strip IB
+SA011 pH in Water IB
+SA012 pH in KCl IB
+SA013 Mehlich 3 IB
+SA014 Morgan's solution IB
+SA015 NH4OAc IB
+!
+! K extraction methods
+! NH4OaAc
+! Mehlich I (1:5)
+! Mehlich I (1:10)
+! Mehlich 3
+
+*Planting Material/Method
+ at CDE DESCRIPTION SO
+B Bedded IB
+C Cutting IB
+H Horizontally planted sticks IB
+I Inclined (45o) sticks IB
+N Nursery IB
+P Pregerminated seed IB
+R Ratoon IB
+S Dry seed IB
+T Transplants IB
+V Vertically planted sticks IB
+
+*Plant Distribution
+ at CDE DESCRIPTION SO
+R Rows IB
+H Hills IB
+U Uniform/Broadcast IB
+
+*Residues and Organic Fertilizer
+ at CDE DESCRIPTION SO
+RE001 Generic crop residue IB
+RE101 Generic legume residue IB
+RE201 Generic cereal crop residue IB
+RE301 Generic grass IB
+RE999 Decomposed crop residue IB
+RE002 Green manure IB
+RE003 Barnyard manure IB
+RE004 Liquid manure IB
+RE005 Compost IB
+RE006 Bark IB
+RE102 Cowpea residue IB
+RE103 Mucuna residue IB
+RE104 Peanut residue IB
+RE105 Pigeon Pea residue IB
+RE106 Soybean residue IB
+RE107 Alfalfa residue IB
+RE108 chickpea forage IB
+RE109 Faba bean IB
+RE110 Pea residue IB
+RE111 Hairy vetch IB
+RE202 Pearl millet residue IB
+RE203 Maize residue IB
+RE204 Sorghum residue IB
+RE205 Wheat residue IB
+RE206 Barley IB
+RE207 rice IB
+RE208 rye IB
+RE302 Bahiagrass IB
+RE303 Bermudagrass IB
+RE304 Switchgrass IB
+RE305 brachiaria IB
+RE306 forage grasses IB
+RE401 Bush fallow residue IB
+RE402 Sugarcane IB
+RE403 Pineapple IB
+
+*Rotation
+ at CDE DESCRIPTION SO
+RO001 Continuous arable crops IB
+RO002 Rotation with forages IB
+
+*Soil Texture
+ at CDE DESCRIPTION SO
+C Clay IB
+CL Clay loam IB
+L Loam IB
+LS Loamy sand IB
+S Sand IB
+SC Silty clay IB
+SCL Silty clay loam IB
+SI Silt IB
+SIC Silty clay IB
+SICL Silty clay loam IB
+SIL Silty loam IB
+SL Sandy loam IB
+
+*Tillage Implements
+ at CDE DESCRIPTION SO
+TI001 V-Ripper IB
+TI002 Subsoiler IB
+TI003 Moldboard plow 20 cm IB
+TI004 Chisel plow, sweeps IB
+TI005 Chisel plow, straight point IB
+TI006 Chisel plow, twisted shovels IB
+TI007 Disk plow IB
+TI008 Disk, 1-way IB
+TI009 Disk, tandem IB
+TI010 Disk, double disk IB
+TI011 Cultivator, field IB
+TI012 Cultivator, row IB
+TI013 Cultivator, ridge till IB
+TI014 Harrow, spike IB
+TI015 Harrow, tine IB
+TI016 Lister IB
+TI017 Bedder IB
+TI018 Blade cultivator IB
+TI019 Fertilizer applicator, anhydrous IB
+TI020 Manure injector IB
+TI021 Animal-drawn implement IB
+TI022 Mulch treader IB
+TI023 Plank IB
+TI024 Roller packer IB
+TI025 Drill, double-disk IB
+TI026 Drill, deep furrow IB
+TI031 Drill, no-till IB
+TI032 Drill, no-till [sod] IB
+TI033 Planter, row IB
+TI034 Planter, no-till IB
+TI035 Planting stick (hand) IB
+TI036 Matraca hand planter IB
+TI037 Rod weeder IB
+TI038 Rotary hoe IB
+TI039 Roller harrow, cultipacker IB
+TI041 Moldboard plow 25 cm IB
+TI042 Moldboard plow 30 cm IB
+
+*Field History
+ at CDE DESCRIPTION SO
+FH101 Cultivated, good mgmt, init default SOM IB
+FH102 Cultivated, poor mgmt, init default SOM IB
+FH201 Cultivated, good mgmt, init grass or forest IB
+FH202 Cultivated, poor mgmt, init grass or forest IB
+FH301 Cultivated, good mgmt, init degraded land IB
+FH302 Cultivated, poor mgmt, init degraded land IB
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DSSATPRO.L45
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DSSATPRO.L45 (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/DSSATPRO.L45 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,168 @@
+*** * DSSAT PROFILE * ***
+DDB
+DTB
+DTE
+DTO
+DAT
+DPT
+DIM
+DTP
+DPF
+DFO
+DIS
+DDW
+DWG
+DWC
+DDS
+DTS
+DDG
+DCG
+DPM
+DDE
+TOG
+
+MAL
+MAR
+MBA ../DSCSM045.EXE CSCER045
+MBH ../DSCSM045.EXE CRGRO045
+MBM
+MBN ../DSCSM045.EXE CRGRO045
+MBR ../DSCSM045.EXE CRGRO045
+MBS
+MBW
+MCB ../DSCSM045.EXE CRGRO045
+MCH ../DSCSM045.EXE CRGRO045
+MCT
+MCN
+MCO ../DSCSM045.EXE CRGRO045
+MCP ../DSCSM045.EXE CRGRO045
+MCS ../DSCSM045.EXE CSCRP045
+MCV
+MFA ../DSCSM045.EXE CRGRO045
+MFB ../DSCSM045.EXE CRGRO045
+MGB ../DSCSM045.EXE CRGRO045
+MGW
+MLT ../DSCSM045.EXE CRGRO045
+MML ../DSCSM045.EXE MLCER045
+MMZ ../DSCSM045.EXE MZCER045
+MNN
+MNP ../DSCSM045.EXE CRGRO045
+MOA
+MPE
+MPI ../MDRIV980.EXE MINPT980.EXE PIALO980.EXE I
+MPN ../DSCSM045.EXE CRGRO045
+MPO
+MPP
+MPR ../DSCSM045.EXE CRGRO045
+MPT ../DSCSM045.EXE PTSUB045
+MRI ../DSCSM045.EXE RICER045
+MRP
+MSB ../DSCSM045.EXE CRGRO045
+MSC ../DSCSM045.EXE SCCAN045
+MSG ../DSCSM045.EXE SGCER045
+MSI
+MSS
+MSU ../MDRIV980.EXE MINPT980.EXE SUOIL980.EXE I
+MSW ../DSCSM045.EXE SWCER045
+MTM ../DSCSM045.EXE CRGRO045
+MTN ../DSCSM045.EXE TNARO045
+MTR ../DSCSM045.EXE TRARO045
+MVB ../DSCSM045.EXE CRGRO045
+MVI
+MWH ../DSCSM045.EXE CSCER045
+MOT
+MU1
+MU2
+MIO
+MLO
+
+MGR
+NSH
+ASP
+ASS
+ASA
+AGR
+AQS
+AQA
+ASX
+APS
+APV
+APM
+APA
+APJ
+APF
+APP
+APK
+TOE
+TOS
+TOM
+BGD
+STD
+CDD
+WED
+WGD
+CLD
+WMD
+SLD
+CRD
+FID
+ALD
+GCD
+ARD
+BAD
+BHD
+BMD
+BND
+BRD
+BSD
+BWD
+CBD
+CHD
+CTD
+CND
+COD
+CPD
+CSD
+CVD
+FAD
+FBD
+GBD
+GWD
+LTD
+MLD
+MZD
+NND
+NPD
+OAD
+PED
+PID
+PND
+POD
+PPD
+PRD
+PTD
+RID
+RPD
+SBD
+SCD
+SGD
+SSD
+SID
+SUD
+SWD
+TMD
+TND
+TRD
+VBD
+VID
+WHD
+U1D
+U2D
+OTD
+ASD
+AQD
+APD
+PSD
+ECD
+TOD
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/ECONOMIC.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/ECONOMIC.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/ECONOMIC.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,45 @@
+*ECONOMIC CODES
+! DSSAT v4.5; 09/30/2010
+
+! Headers used in the @ line to identify variables are listed first, codes to
+! identify variables next.
+!
+! if IDIS=-1, cost/price component is ignored in analysis
+! if IDIS= 0, fixed value in PAR1
+! if IDIS= 1, uniform variate (PAR1=lower, PAR2=upper bound)
+! if IDIS= 2, triangular variate (PAR1=lower, PAR2=mode, PAR3=upper bound)
+! if IDIS= 3, normal variate (PAR1=mean, PAR2=st. dev.)
+!
+! Files are sectioned by crop. A crop's treatment sections must be contiguous.
+!
+!* MZ
+!* TREATMENT 1
+!@PRAM GRAN BYPR BASE NFER NCOS IRRI IRCO SCOS RESM PCOS PFER KCOS KFER
+!IDIS 3 0 0 0 0 0 0 0 -1 -1 -1 -1 -1
+!PAR1 160.00 10.00 240.00 0.45 12.00 .50 12.50 .46 .00 .00 .00 .00 .00
+!PAR2 16.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00
+!PAR3 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00
+
+
+*Headers
+ at CDE DESCRIPTION SO
+ADDRESS Contact address of principal scientist IB
+PRAM Parameter IB
+IDIS Distribution type (see file header) IB
+PAR1 Distribution parameter 1 IB
+PAR2 Distribution parameter 2 IB
+PAR3 Distribution parameter 3 IB
+GRAN Price of grain, $/t IB
+BYPR Price of harvest byproduct, $/t IB
+BASE Base production costs, $/ha IB
+NFER Nitrogen fertilizer cost, $/kg IB
+NCOS Cost per N fertilizer application, $ IB
+IRRI Irrigation cost, $/mm IB
+IRCO Cost per irrigation application, $/ha IB
+SCOS Seed cost, $/kg IB
+RESM Cost of organic amendments, $/t IB
+PCOS Phosphorus fertilizer cost, $/kg IB
+PFER Cost per P fertilizer application, $ IB
+KCOS Potassium fertilizer cost, $/kg IB
+KFER Cost per K fertilizer application, $ IB
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GCOEFF.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GCOEFF.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GCOEFF.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,79 @@
+*GENOTYPE COEFFICIENT CODES
+! DSSAT v4.5; 09/30/2010
+
+! The fields in the file are as follows:
+! CDE The genotype coeff code as used in the particular model
+! DESCRIPTION A description of the code, with units.
+
+*WHSIM940
+ at CDE DESCRIPTION
+AWNL Awn length (0-1.0;0=none,1=long and active)
+BIOM Biomass accumulation factor (g MJ-1 PAR)
+DESP Photoperiod sensitivity (100*Reduction in rel.rate per h<threshold)
+DESV Vernalization requirement (Vernalization days)
+DSP2 Photoperiod sensitivity apex1 to terminal spikelet(100*Redn per h)
+DUA1 Pre apex1 period (Biological days)
+DUGF Grain filling period (Biological days)
+DULL Terminal spikelet to last leaf expanded period (Biological days)
+DUSE Last leaf expanded to spike emergence period (Biological days)
+DUTS Apex1 to terminal spikelet period (Biological days)
+GRWT Grain weight, standard conditions (mg grain-1)
+GNUM Grain number coefficient (Grains per g total weight at anthesis)
+! (Was Grains per g accumulated stage 4.8 to 8.0)
+L#IR Leaf number increase rate (Lf Bday-1)
+LGRO Leaf growth rate (cm Bday-1)
+LRHF Leaf rust host factor (0-1.0;0=resistant,1=fully susceptible)
+LSHF Leaf spot host factor (0-1.0;0=resistant,1=fully susceptible)
+PMHF Powdery mildew host factor (0-1.0;0=resistant,1=fully susceptible)
+SNUM Shoot number coefficient (mg CH2O/tiller for survival)
+GPPC Grains per plant critical for decrease in potential grain weight
+GPRO Grain protein concentration (%)
+LFEI Leaf expansion rate increment (fraction leaf-1)
+LFSN Leaf senescence factor for lag period - reduction in photosynthesis
+SFLL Stem fraction at last leaf stage
+TBGF Temperature base for grain filling (C)
+TILU Tiller production critical light interception (%)
+WK1H Winter kill temperature, stage 1 hardened (C)
+
+*CSSIM940
+ at CDE DESCRIPTION
+DUB1 Duration of branch 1 phase (Bday germination to first branch)
+DUBR Duration of branch 2 and greater phases (Bday between branches)
+DULA Duration of leaf area increase phase (Bday after germination)
+DUL# Duration of leaf number increase phase (Bday after germination)
+DESP Development,sensitivity to photoperiod (h-1) (0=insensitive)
+PHCX Photosynthesis,canopy,maximum rate (g dm m-2 d-1)
+S#PE Shoot no per plant at emergence (#)
+S#FX Shoot no per fork,maximum (#)
+S#PX Shoot no per plant,maximum (#)
+SWNX Stem weight to node weight ratio (fr)
+L#IR Leaf number increase rate (leaves(shoot-1) Bday-1)
+LAXS Leaf area,maximum,standard (cm2 leaf-1)
+LANS Leaf area,minimum,standard (cm2 leaf-1)
+LAWS Leaf area to weight ratio,standard (cm2 g-1)
+LLIF Leaf life (Day)
+
+DUJU DURATION OF THE JUVENILE PHASE (DAYS)
+DUFL DURATION OF THE FLOWER DEVELOPMENT PHASE (DAYS)
+DUPD DURATION OF THE POD DEVELOPMENT PHASE (DAYS)
+DUGD DURATION OF THE GRAIN DEVELOPMENT PHASE (DAYS)
+DUGF DURATION OF THE GRAIN FILLING PHASE (DAYS)
+DULF DURATION OF THE LEAF DEVELOPMENT PHASE (DAYS)
+DESV DEVELOPMENT SENSITIVITY TO VERNALIZATION (DAYS)
+DESP DEVELOPMENT SENSITIVITY TO PHOTOPERIOD (DAYS)
+DETP THRESHOLD FOR DEVELOPMENTAL RESPONSE TO PHOTOPERIOD (HOURS LIGHT)
+PNUW POD NUMBER PER UNIT SHOOT WEIGHT AT SPECIFIED STAGE (NO.G-1)
+GNUP GRAIN NUMBER PER POD (NO.)
+GNUS GRAIN NUMBER PER SHOOT (NO.)
+GRWT GRAIN WEIGHT (MG)
+GRNC GRAIN NITROGEN CONCENTRATION (%)
+HIND HARVEST INDEX (%, FINAL WT [DETERMINATES] OR DISTRIBUTION )
+THRI THRESHING INDEX (%, GRAIN/GRAIN + SHELL OR SPECIFIED STRUCTURES)
+GNST GRAIN NUMBER SENSITIVITY TO TEMPERATURE (NO.C-1)
+LFAP LEAF APPEARANCE RATE (DAY-1)
+LFSZ LEAF SIZE (CM*2)
+LFSA LEAF SPECIFIC AREA (CM*2 G-1)
+BIOM BIOMASS ACCUMULATION (G MJ-1 OR M M-2 SEC-1)
+TLAP TILLER APPEARANCE RATE (DAY-1)
+CANB CANOPY BREADTH TO HEIGHT RATIO
+�
\ No newline at end of file
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GRSTAGE.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GRSTAGE.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/GRSTAGE.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,498 @@
+*Phenological/Growth Stage Codes
+! DSSAT Version 4.5; 09/30/2010
+!
+! The fields in the file are as follows:
+! CDE The code used in the DSSAT3 crop models
+! NAME The 'universal' code used to facilitate data interchange.
+! DESCRIPTION A description of the code, with units.
+
+*Growth and Development Codes - Maize (CERES Version 4.5)
+! Ritchie and Hanway, 1982
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS009 VE 50% of plants with some part visible at soil surface .
+ V1 50% of plants with collar of 1st leaf visible .
+ V2 50% of plants with collar of 2nd leaf visible .
+ Vn 50% of plants with collar of nth leaf visible .
+ VT 50% of plants with last branch of tassel visible,silks not visible .
+GS003 R1 50% of plants with some silks visible outside husks .
+GS004 R2 50% of plants in blister stage .
+ R3 50% of plants in milk stage .
+ R4 50% of plants in dough stage .
+ R5 50% of plants in dent stage .
+GS005 R6 50% of plants at physiological maturity .
+GS006 R7 50% of plants harvest maturity .
+GS007 Sowing date .
+GS001 End of juvenile phase .
+GS002 50% of plants completed floral initiation .
+GS008 50% of plants germinated .
+
+*Growth and Development Codes - Cabbage (CROPGRO Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w 1 developed node on the main axis .
+ V2 50% plants w 2 developed nodes on the main axis .
+ V3 50% plants w 3 developed nodes on the main axis .
+ Vn 50% plants w n developed nodes on the main axis .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Chickpea (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Cotton (CROPGRO Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w 1 developed node on the main axis .
+ V2 50% plants w 2 developed nodes on the main axis .
+ V3 50% plants w 3 developed nodes on the main axis .
+ Vn 50% plants w n developed nodes on the main axis .
+GS005 R1 50% plants beginning flower .
+ R2 50% plants beggining boll .
+GS006 R3 50% plants boll > 6 mm or 1/4 inch .
+GS007 R4 100% plants boll > 6 mm or 1/4 inch .
+GS008 R5 Beginning seed .
+GS009 R6 50% of bolls have attained 0.5 final size .
+GS010 R7 First cracked boll (beginning maturity) .
+GS011 R8 90% of the bolls open (Beginning maturity) .
+ R9 Senenscence (>50% of the leaves abscised) .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Cowpea (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Dry Bean (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Faba Bean (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Fallow (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 Last day of fallow run .
+
+*Growth and Development Codes - Green Bean (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Soybean (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest
+
+*Growth and Development Codes - Peanut (CROPGRO Version 4.5)
+! Boote,1982
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% of plants with some part visible at soil surface .
+GS002 V1 50% of plants with 1 developed node on the main axis .
+ V2 50% of plants with 2 developed node on the main axis .
+ V3 50% of plants with 3 developed node on the main axis .
+ Vn 50% of plants with n developed node on the main axis .
+GS005 R1 50% of plants beginning bloom .
+ R2 50% of plants beginning peg .
+GS006 R3 50% of plants beginning pod .
+GS007 R4 Full pod .
+GS008 R5 Beginning seed .
+GS009 R6 Full seed .
+GS010 R7 Beginning maturity .
+GS011 R8 Harvest maturity .
+ R9 Over-mature pod .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Sugarcane (CANEGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+
+*Growth and Development Codes - Sweetcorn (CERES Version 4.5)
+! Ritchie and Hanway, 1982
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS009 VE 50% of plants with some part visible at soil surface .
+ V1 50% of plants with collar of 1st leaf visible .
+ V2 50% of plants with collar of 2nd leaf visible .
+ Vn 50% of plants with collar of nth leaf visible .
+ VT 50% of plants with last branch of tassel visible,silks not visible .
+GS003 R1 50% of plants with some silks visible outside husks .
+GS004 R2 50% of plants in blister stage .
+ R3 50% of plants in milk stage .
+ R4 50% of plants in dough stage .
+ R5 50% of plants in dent stage .
+GS005 R6 50% of plants at physiological maturity .
+GS006 R7 50% of plants harvest maturity .
+GS007 Sowing date .
+GS001 End of juvenile phase .
+GS002 50% of plants completed floral initiation .
+GS008 50% of plants germinated .
+
+
+*Growth and Development Codes - Tanier(AROID Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+ V0 50% of plants have 1 visible leaf tip .
+GS009 V1 50% of plants have 1 fully opened leaf .
+ V2 50% of plants have 2 fully opened leaves .
+ V3 50% of plants have 3 fully opened leaves .
+ V4 50% of plants have 4 fully opened leaves .
+ Vn 50% of plants have n fully opened leaves .
+ S 50% of plants have suckers above ground .
+GS000 V7 50% of plants have only 2 or 3 active leaves remaining on plant .
+GS001 End Juvenile .
+GS002 End Maximum Growth .
+GS003 End Maximum Growth .
+GS004 End Maximum Growth .
+GS005 Harvestable Corm .
+GS006 End Corm Growth .
+GS007 Planting .
+GS008 Root Formation .
+GS010 Pregemerminated Planting .
+GS011 End Cormel .
+GS015 Start Simulation .
+GS015 End Simulation .
+GS020 Time of harvest .
+
+*Growth and Development Codes - Taro (AROID Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+ V0 50% of plants have 1 visible leaf tip .
+GS009 V1 50% of plants have 1 fully opened leaf .
+ V2 50% of plants have 2 fully opened leaves .
+ V3 50% of plants have 3 fully opened leaves .
+ V4 50% of plants have 4 fully opened leaves .
+ Vn 50% of plants have n fully opened leaves .
+ S 50% of plants have suckers above ground .
+GS000 V7 50% of plants have only 2 or 3 active leaves remaining on plant .
+GS001 End Juvenile .
+GS002 End Maximum Growth .
+GS003 End Maximum Growth .
+GS004 End Maximum Growth .
+GS005 Harvestable Corm .
+GS006 End Corm Growth .
+GS007 Planting .
+GS008 Root Formation .
+GS010 Pregemerminated Planting .
+GS011 End Cormel .
+GS015 Start Simulation .
+GS015 End Simulation .
+GS020 Time of harvest .
+
+*Growth and Development Codes - Cassava (CSSIM Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS012 VE 50% of plants with at least 1 shoot >1cm on the planting stick .
+GS001 V1 50% of plants with at least 1 apical meristem .
+GS002 V2 50% of plants with at least 2 apical meristem .
+GS003 V3 50% of plants with at least 3 apical meristem .
+GS004 V4 50% of plants with at least 4 apical meristem .
+GS005 V5 50% of plants with at least 5 apical meristem .
+GS006 V6 50% of plants with at least 6 apical meristem .
+GS007 V7 50% of plants with at least 7 apical meristem .
+GS008 V8 50% of plants with at least 8 apical meristem .
+ Vn 50% of plants with at least n apical meristem .
+ R1 50% of plants flowering .
+GS009 R7 50% of plants at harvest maturity .
+GS014 Start Simulation .
+GS010 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Codes - Potato (SUBSTOR Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS007 VE 50% of plants with some part visible at soil surface .
+ V1 50% of plants with 1 developed node on the main axis .
+ V2 50% of plants with 2 developed node on the main axis .
+ Vn 50% of plants with n developed node on the main axis .
+GS001 T1 Tuber initiation .
+ T2 T1 + 20 days .
+ T3 T1 + 40 days .
+GS002 T4 Harvest maturity. Green canopy cover 20% of the maximum achieved .
+GS005 Sowing Date .
+GS006 Germination .
+GS014 Start Simulation .
+GS020 Time of harvest .
+
+*Growth and Development Codes - Cereal Crops - Zadoks,1974
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+ 00-09 Germination .
+ 10-19 Seedling growth .
+ 20-29 Tillering, no. of tillers + 20 .
+ 21 Main shoot plus 1 tiller .
+ 22 Main shoot plus 2 tillers .
+ 30-39 Stem elongation, no. nodes + 30 .
+ 31 1st node detectable .
+ 32 2nd node detectable .
+ 40-49 Booting .
+ 50-59 Reproductive organ emergence .
+ 60-69 Flowering .
+ 65 50% flowering (anthesis) .
+ 70-79 Milk development .
+ 80-89 Dough development .
+ 85 Physiological maturity (soft dough) .
+ 90-99 Ripening .
+ 93 Harvest maturity .
+
+*Growth and Development Codes - Barley (CERES Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 Maximum Primordial .
+GS002 End of vegetative phase .
+GS003 End ear growth .
+GS004 Ear Emergence .
+GS005 End of grain filling phase .
+GS006 50% of plants harvest maturity .
+GS007 Sowing date .
+GS008 50% of plants germinated .
+GS009 50% of plants with some part visible at soil surface .
+
+*Growth and Development Codes - Millet (CERES Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 End Juvenile phase .
+GS002 Floral initiation .
+GS003 End of leaf growth .
+GS004 Anthesis .
+GS005 End tiller flowering .
+GS006 Harvest maturity .
+GS007 Sowing date .
+GS008 Germination .
+GS009 Emergence .
+
+*Growth and Development Codes - Rice (CERES Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 End Juvenile phase .
+GS002 Panicle initiation .
+GS003 Heading .
+GS004 Begin grain filling .
+GS005 End of grain filling phase, main plant .
+GS006 Maturity .
+GS007 Sowing date .
+GS008 Germination .
+GS009 Emergence .
+GS010 Pre-germination sowing .
+GS011 Transplant .
+GS012 End grain filling, tillers .
+GS013 Start simulation .
+GS014 Harvest .
+
+*Growth and Development Codes - Sorghum (CERES Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 End juvenile phase .
+GS002 Floral initiation .
+GS003 End leaf growth .
+GS004 End panicle growth .
+GS005 End grain filling, main plant .
+GS006 Maturity .
+GS007 Sowing date .
+GS008 Germination .
+GS009 Emergence .
+
+*Growth and Development Codes - Wheat (CERES Version 4.5)
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 Terminal spiklet .
+GS002 End of vegetative phase .
+GS003 End ear growth .
+GS004 Ear Emergence .
+GS005 End grain filling phase .
+GS006 Maturity .
+GS007 Sowing date .
+GS008 Germination .
+GS009 Emergence .
+
+*Growth and Development Codes - Velvet Bean (CROPGRO Version 4.5)
+! Fehr et al.,1971
+ at CDE NAME DESCRIPTION......................................................... SYNONYMS
+GS000 None .
+GS001 VE 50% plants w some part visible at soil surface .
+GS002 V1 50% plants w completely unrolled leaf at unifoliated node .
+ V2 50% plants w completely unrolled leaf at 1st node>unifoliate .
+ V3 50% plants w 3 nodes on main stem above unifoliated node .
+ Vn 50% plants w n nodes on main stem above the unifoliated node .
+GS005 R1 50% plants w one flower at any node .
+ R2 50% plants w flower at node immediately below last unrolled leaf .
+GS006 R3 50% plants w 0.5cm pod at one of the 4 upper nodes with unrolled lf .
+GS007 R4 50% plants w 2.0cm pod at one of the 4 upper nodes with unrolled lf .
+GS008 R5 50% plants w beans beginning to develope .
+GS009 R6 50% plants w pod w full-size green beans at 1 of 4 upper ur lf nodes .
+GS010 R7 50% plants w pods yellowing .
+GS003 50% plants completed juvenile phase .
+GS004 50% plants completed floral induction .
+GS012 50% plants w last mainstem node .
+GS013 Time of last leaf area expansion .
+GS014 Start Simulation .
+GS015 Sowing Date .
+GS016 Time of harvest .
+
+*Growth and Development Stage References
+Boote, K.J. 1982. Growth stages of peanut (Arachis hypogaea L.).
+ Peanut Sci. 9:35-40.
+Fehr, W.R., C.E. Caviness, D.T. Burmood and J.S. Pennington. 1971. Stage of
+ development descriptions for soybeans, Glycine max (L.) Merrill.
+ Crop Sci. 11:929-931.
+Groot, J.J.R., M.K. Kropff, F.J.H. Vossen, C.J.T. Spitters and R. Rabbinge.1986.
+ A decimal code for the developmental stages of maize and its relation
+ to accumulated heat units. Netherlands J. of Ag. Sci. 34:67-73.
+International Benchmark Sites Network for Agrotechnology Transfer 1988
+ Technical Report 1. Experimental design and data collection procedures
+ for IBSNAT. 3rd.edition revised. Dept.of Agronomy and Soil Science,
+ College of Tropical Agriculture and Human Resources, University of
+ Hawaii, Honolulu, Hawaii 96822, USA
+Regel, P.A. and P.J. Sands. 1983. A model of the development and bulking of
+ potatoes (Solanum tuberosum L.). IV. Day length, plant density and
+ cultivar effects. Field Crops Res. 6:1-23.
+Ritchie, S.W. and J.J. Hanway. 1982. How a Corn Plant Develops. Special
+ Report No. 48, Revised February 1982. Iowa State Univ. of Science and
+ Technology. Ames, Iowa: Coop Ext. Serv.
+Tottman, D.R. and R.J. Makepeace. 1979. An explanation of the decimal code
+ for the growth stages of cereals, with illustrations. Ann. Appl. Biol.
+ 93:221-234.
+Zadoks, J.C., T.T. Chang and C.F. Konzak. 1974 A decimal code for the growth
+ stages of cereals. Eucarpia Bulletin 7.
+Zadoks, J.C., T.T. Chang and C.F. Konzak 1974 A decimal code for the growth
+ stages of cereals. Weed Res.14,415-421.
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/JDATE.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/JDATE.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/JDATE.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,77 @@
+*JULIAN DATES
+! DSSAT v4.5; 09/30/2010
+
+*STANDARD YEARS
+
+ DAY OF -------- DAY OF YEAR (JULIAN DATE) ------------
+ MONTH JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC
+ 1 2 3 4 5 6 7 8 9 10 11 12
+ 1 1 32 60 91 121 152 182 213 244 274 305 335
+ 2 2 33 61 92 122 153 183 214 245 275 306 336
+ 3 3 34 62 93 123 154 184 215 246 276 307 337
+ 4 4 35 63 94 124 155 185 216 247 277 308 338
+ 5 5 36 64 95 125 156 186 217 248 278 309 339
+ 6 6 37 65 96 126 157 187 218 249 279 310 340
+ 7 7 38 66 97 127 158 188 219 250 280 311 341
+ 8 8 39 67 98 128 159 189 220 251 281 312 342
+ 9 9 40 68 99 129 160 190 221 252 282 313 343
+ 10 10 41 69 100 130 161 191 222 253 283 314 344
+ 11 11 42 70 101 131 162 192 223 254 284 315 345
+ 12 12 43 71 102 132 163 193 224 255 285 316 346
+ 13 13 44 72 103 133 164 194 225 256 286 317 347
+ 14 14 45 73 104 134 165 195 226 257 287 318 348
+ 15 15 46 74 105 135 166 196 227 258 288 319 349
+ 16 16 46 75 106 136 167 197 228 259 289 320 350
+ 17 17 48 76 107 137 168 198 229 260 290 321 351
+ 18 18 49 77 108 138 169 199 230 261 291 322 352
+ 19 19 50 78 109 139 170 200 231 262 292 323 353
+ 20 20 51 79 110 140 171 201 232 263 293 324 354
+ 21 21 52 80 111 141 172 202 233 264 294 325 355
+ 22 22 53 81 112 142 173 203 234 265 295 326 356
+ 23 23 54 82 113 143 174 204 235 266 296 327 357
+ 24 24 55 83 114 144 175 205 236 267 297 328 358
+ 25 25 56 84 115 145 176 206 237 268 298 329 359
+ 26 26 57 85 116 146 177 207 238 269 299 330 360
+ 27 27 58 86 117 147 178 208 239 270 300 331 361
+ 28 28 59 87 118 148 179 209 240 271 301 332 362
+ 29 29 88 119 149 180 210 241 272 302 333 363
+ 30 30 89 120 150 181 211 242 273 303 334 364
+ 31 31 90 151 212 243 304 365
+
+*LEAP YEARS
+
+ DAY OF -------- DAY OF YEAR (JULIAN DATE) ------------
+ MONTH JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC
+ 1 2 3 4 5 6 7 8 9 10 11 12
+ 1 1 32 61 92 122 153 183 214 245 275 306 336
+ 2 2 33 62 93 123 154 184 215 246 276 307 337
+ 3 3 34 63 94 124 155 185 216 247 277 308 338
+ 4 4 35 64 95 125 156 186 217 248 278 309 339
+ 5 5 36 65 96 126 157 187 218 249 279 310 340
+ 6 6 37 66 97 127 158 188 219 250 280 311 341
+ 7 7 38 67 98 128 159 189 220 251 281 312 342
+ 8 8 39 68 99 129 160 190 221 252 282 313 343
+ 9 9 40 69 100 130 161 191 222 253 283 314 344
+ 10 10 41 70 101 131 162 192 223 254 284 315 345
+ 11 11 42 71 102 132 163 193 224 255 285 316 346
+ 12 12 43 72 103 133 164 194 225 256 286 317 347
+ 13 13 44 73 104 134 165 195 226 257 287 318 348
+ 14 14 45 74 105 135 166 196 227 258 288 319 349
+ 15 15 46 75 106 136 167 197 228 259 289 320 350
+ 16 16 47 76 107 137 168 198 229 260 290 321 351
+ 17 17 48 77 108 138 169 199 230 261 291 322 352
+ 18 18 49 78 109 139 170 200 231 262 292 323 353
+ 19 19 50 79 110 140 171 201 232 263 293 324 354
+ 20 20 51 80 111 141 172 202 233 264 294 325 355
+ 21 21 52 81 112 142 173 203 234 265 295 326 356
+ 22 22 53 82 113 143 174 204 235 266 296 327 357
+ 23 23 54 83 114 144 175 205 236 267 297 328 358
+ 24 24 55 84 115 145 176 206 237 268 298 329 359
+ 25 25 56 85 116 146 177 207 238 269 299 330 360
+ 26 26 57 86 117 147 178 208 239 270 300 331 361
+ 27 27 58 87 118 148 179 209 240 271 301 332 362
+ 28 28 59 88 119 149 180 210 241 272 302 333 363
+ 29 29 60 89 120 150 181 211 242 273 303 334 364
+ 30 30 90 121 151 182 212 243 274 304 335 365
+ 31 31 91 152 213 244 305 366
+�
\ No newline at end of file
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MODEL.ERR
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MODEL.ERR (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MODEL.ERR 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,804 @@
+!AUTOM 42
+AUTOMATIC MANAGEMENT section missing.
+
+*CHEMI 42
+CHEMICALS section missing.
+
+*CULTI 42
+CULTIVARS section missing.
+
+*ENVIR 42
+ENVIRONMENT section missing.
+
+*EXP.D 42
+EXP.DETAILS section missing.
+
+*FERTI 42
+FERTILIZERS section missing.
+
+*FIELD 42
+FIELDS section missing.
+
+*HARVE 42
+HARVEST section missing.
+
+*INITI 42
+INITIAL CONDITIONS section missing.
+
+*IRRIG 42
+IRRIGATION section missing.
+
+*PLANT 42
+PLANTING DETAILS section missing.
+
+*RESID 42
+RESIDUES section missing.
+
+*SIMUL 42
+SIMULATION CONTROL section missing.
+
+*SOIL 42
+SOIL section missing.
+
+*TILLA 42
+FILEX 'TILLAGE' section missing.
+
+*TREAT 42
+TREATMENTS section missing.
+
+!*CANO 42
+CANOPY HEIGHT AND WIDTH GROWTH PARAMETERS section missing.
+
+!*CARB 42
+CARBON AND NITROGEN MINING PARAMETERS section missing.
+
+*EMERG 42
+EMERGENCE INITIAL CONDITIONS section missing.
+
+!*EVAP 42
+EVAPOTRANSPIRATION section missing.
+
+!*LEAF 42
+LEAF PARAMETERS section missing.
+
+!*NITR 42
+NITROGEN FIXATION PARAMETERS section missing.
+
+*NITRO 42
+NITROGEN PARAMETERS section missing.
+
+!*PHEN 42
+PHENOLOGY PARAMETERS section missing.
+
+!*PHOT 42
+PHOTOSYNTHESIS PARAMETERS section missing.
+
+*PHOTO 42
+PHOTOSYNTHESIS PARAMETERS section missing.
+
+!*PLAN 42
+PLANT COMPOSITION VALUES section missing.
+
+!*POD 42
+POD LOSS PARAMETERS section missing.
+
+!*ROOT 42
+ROOT PARAMETERS section missing.
+
+!*SEED 42
+SEED parameters section missing.
+
+*SEED 42
+SEED GROWTH PARAMETERS section missing.
+
+*STRES 42
+STRESS RESPONSE section missing.
+
+*TEMPE 42
+TEMPERATURE EFFECTS section missing.
+
+!*VEGE 42
+VEGETATIVE PARTITIONING PARAMETERS section missing.
+
+AUTFER 1
+Error in Fertilizer Sensitivity Analysis Selection. Fix entry or batch file.
+
+AUTHAR 10
+Invalid harvest code specified.
+
+AUTIRR 1
+Error in Irrigation Sensitivity Analysis Selection. Fix entry or batch file.
+
+CROPD 29
+Detail.CDE file not found. Program will stop.
+
+CSM -1
+End of file encountered.
+
+CSM 1
+Error in the format of the input file. Please fix the file.
+
+CSM 2
+Input file does not exist.
+
+CSM 3
+Error in DSSAT Configuration file. Please fix the file.
+
+CSM 4
+Your configuration file is incompatible with the current version. Please update the file.
+
+CSM 26
+Error in the format of the batch file. Please fix the file.
+
+CSM 27
+Input module not found. Please locate input module.
+
+CSM 28
+Batch file not found. Please check file name or create file.
+
+CSM 29
+File not found. Please check file name or create file.
+
+CSM 33
+End of file encountered.
+
+CSM 64
+Invalid format in file.
+
+GETDSC 29
+Detail.CDE file not found. Program will stop.
+
+IDWTH 1
+Error in Weather Sensitivity Selection entry. Fix entry or batch file.
+
+IDWTH 2
+End of File in Weather Sensitivity Selection entry. Fix entry or batch file.
+
+INPUT 1
+Error in Selection entry. Fix entry or batch file.
+
+INPUT 2
+Planting Date is Before Start of Simulation. Please Fix Input File.
+
+INPUTX 0
+Input module failed. Program execution halted.
+
+IPFERT 2
+Fertilizer input section not found. Please correct input file.
+
+IPCHEM 2
+Chemical input level not found. Please correct input file.
+
+IPCHEM 3
+First chemical application date is defined prior to the start of simulation.
+
+IPCHEM 11
+No input amount defined for chemical applications.
+
+IPCUL 2
+Cultivar input level not found. Please correct input file.
+
+IPECO 1
+Error in Ecotype entry. Fix entry or batch file.
+
+IPECO 2
+Error in Ecotype entry. Fix ecotype input file.
+
+IPECO 2
+Error in Ecotype entry. Fix ecotype input file.
+
+IPECO 3
+DEFAULT Ecotype not found. Fix ecotype input file.
+
+IPECO 21
+Ecotype input section not found. Please correct file.
+
+IPECO 29
+File not found. Please check file name or create file.
+
+IPENV 1
+Environmental modification input level not found. Please correct input file.
+
+IPENV 2
+Environmental modification input level not found. Please correct input file.
+
+IPEXP 1
+Treatment input section not found. Please add to input file.
+
+IPEXP 2
+Error in Experiment Selection entry. Fix entry or batch file.
+
+IPEXP 3
+Error in Treatment Selection entry. Fix entry or batch file.
+
+IPEXP 4
+Simulation must begin on or before the planting date. Correct dates.
+
+IPEXP 10
+Error in crop input. Correct input file.
+
+IPEXP 11
+Error in cultivar input. Correct input file.
+
+IPEXP 20
+You selected a crop which can not be simulated by this model. Please ReExecute
+
+IPEXP 21
+Experiment list input section not found. Please correct file.
+
+IPEXP 22
+Incorrect weather method option selected. Please correct file.
+
+IPEXP 29
+File not found. Please check file name or create file.
+
+IPEXP 80
+No valid soil file found.
+
+IPEXP 64
+Treatment not found. Please check inputs or input file.
+
+IPEXP 99
+This file can only be run for spatial analysis applications.
+
+IPFERT 1
+Fertilizer input section not found. Please add to input file.
+
+IPFERT 2
+Fertilizer input level not found. Please correct input file.
+
+IPFERT 3
+First fertilizer application date is defined prior to the start of simulation.
+
+IPFERT 10
+Error in date of fertilizer application input. Correct input file.
+
+IPFERT 11
+Error in depth of fertilizer application input. Correct input file.
+
+IPFERT 12
+Error in amount of N-fertilizer input. Correct input file.
+
+IPFERT 13
+Error in amount of P-fertilizer input. Correct input file.
+
+IPFERT 14
+Error in fertilizer code. Correct input file.
+
+IPFLD 1
+Field input section not found. Please add to input file.
+
+IPFLD 2
+Field input level not found. Please correct input file.
+
+IPFLD 10
+Error in weather station input. Correct input file.
+
+IPFLD 11
+Error in soil identification input. Correct input file.
+
+IPHAR 1
+Harvest input section not found. Please add to input file.
+
+IPHAR 2
+Harvest input level not found. Please correct input file.
+
+IPHAR 3
+Harvest growth stage not found. Please add to input file.
+
+IPHAR 4
+Reported harvest date not found. Please add to input file.
+
+IPHAR 5
+Reported harvest date after planting not found. Please add to input file.
+
+IPHAR 10
+Error in date of harvest input. Correct input file.
+
+IPHAR 11
+Error in harvest input. Correct input file.
+
+IPHAR 12
+Error in harvest stage code. Correct input file.
+
+IPHAR 13
+Error in date of harvest input. Please define date of harvest.
+
+IPHAR 14
+Automatic harvest option not available for this crop. Correct input file.
+
+IPIRR 1
+Irrigation input section not found. Please add to input file.
+
+IPIRR 2
+Irrigation input level not found. Please correct input file.
+
+IPIRR 3
+First irrigation application date is defined prior to the start of simulation.
+
+IPIRR 10
+Error in date of irrigation input. Correct input file.
+
+IPIRR 11
+Error in amount of irrigation input. Correct input file.
+
+IPIRR 12
+Error in irrigation code. Correct input file.
+
+IPPARM 21
+Pest parameter input section not found. Please correct file.
+
+IPPARM 29
+File not found. Please check file name or create file.
+
+IPPARM 30
+Maximum number of pests is 100. Please reduce your number of pests.
+
+IPPHEN 7
+Ecotype input section not found. Please correct file.
+
+IPPLNT 1
+Planting input section not found. Please add to input file.
+
+IPPLNT 2
+Error in planting inputs. Check format.
+
+IPPLNT 10
+Error in planting date input. Check format.
+
+IPPLNT 11
+Error in plant population input. Check format.
+
+IPPLNT 12
+Error in row spacing input. Check format.
+
+IPPLNT 13
+Error in row orientation input. Check format.
+
+IPPLNT 14
+Error in planting depth input. Check format.
+
+IPPLNT 15
+Error in emergence date input. Please check format or add information.
+
+IPPLNT 16
+Error in sprout length input. Please define sprout length in seed age column.
+
+IPPLNT 17
+Error in initial seed potato weight input. Please check format.
+
+IPPLNT 18
+Error in initial weight of transplants. Please check format.
+
+IPPLNT 19
+Invalid planting method. Please check input data.
+
+IPPLNT 64
+Invalid format in input file. Please check format.
+
+IPRES 1
+Residue input section not found. Please add to input file.
+
+IPRES 2
+Residue input level not found. Please correct input file.
+
+IPRES 3
+First residue application date is defined prior to the start of simulation.
+
+IPRES 10
+Error in date of residue application input. Correct input file.
+
+IPRES 11
+Error in amount of residue input. Correct input file.
+
+IPRES 12
+Error in amount of residue N input. Correct input file.
+
+IPRES 13
+Error in amount of residue P input. Correct input file.
+
+IPRES 14
+Error in amount of residue K input. Correct input file.
+
+IPRICE 10
+Nursery temperature can not be less than zero. Correct input file.
+
+IPSIM 1
+Simulation control section not found. Please add to input file.
+
+IPSIM 2
+Incorrect number of lines in simulation control section. Check format.
+
+IPSIM 3
+Impossible combination--for MEEVP='Z', MEPHO must be 'L'
+
+IPSIM 4
+Automatic harvest option not available for this crop. Correct input file.
+
+IPSIM 5
+Automatic planting option not available for this crop. Correct input file.
+
+IPSIM 6
+Phosphorus model not enabled for this crop. Contact CSM team for more info.
+
+IPSIM 7
+Potassium model not enabled for this crop. Contact CSM team for more info.
+
+IPSLAN 1
+Initial soil analysis section not found. Please add to input file.
+
+IPSLAN 2
+Soil analysis input level not found. Please correct input file.
+
+IPSLAN 10
+Error in initial bulk density inputs. Please check data.
+
+IPSLAN 11
+Error in initial organic carbon inputs. Please check data.
+
+IPSLAN 12
+Error in initial nitrogen inputs. Please check data.
+
+IPSLIN 1
+Initial soil input section not found. Please add to input file.
+
+IPSLIN 2
+Initial soil conditions input level not found. Please correct input file.
+
+IPSLIN 10
+Error in initial soil water inputs. Please check data.
+
+IPSLIN 11
+Error in initial NH4 inputs. Please check data.
+
+IPSLIN 12
+Error in initial NO3 inputs. Please check data.
+
+IPSLIN 13
+Error in initial residue weight inputs. Please check data.
+
+IPSLIN 14
+Error in initial residue nodule weight inputs. Please check data.
+
+IPSLIN 15
+Error in inoculation efficiency data. Please check data.
+
+IPSLIN 16
+Error in fixation efficiency data. Please check data.
+
+IPSOIL 1
+Error in Soil Selection entry. Fix entry or batch file.
+
+IPSOIL 2
+More than 19 layers in the soil profile. Correct input file.
+
+IPSOIL 3
+Error in Soil Selection entry. Fix soil input file.
+
+IPSOIL 4
+End of soil file. Please add missing information to input file.
+
+IPSOIL 5
+Depth of second tier does not match the one of the first tier. Fix input file.
+
+IPSOIL 6
+Number of layers in second tier does not match the number in the first tier.
+
+IPSOIL 7
+Saturated water content (SAT) is LESS than drained upper limit. Fix input file.
+
+IPSOIL 8
+Drained upper limit (DUL) is LESS than lower limit (LL). Fix input file.
+
+IPSOIL 9
+SLU1 is missing or defined as 0. Please define as a value > 0.0.
+
+IPSOIL 10
+SLDR is missing or defined as 0. Please define as a value > 0.0.
+
+IPSOIL 11
+SLRO is missing or defined as 0. Please define as a value > 0.0.
+
+IPSOIL 12
+SALB is missing or defined as 0. Please define as a value > 0.0.
+
+IPSOIL 13
+DUL is missing or defined as 0. Please define as a value > 0.0.
+
+IPSOIL 14
+SHF is missing or defined as < 0. Please define as a value > or = 0.0.
+
+IPSOIL 21
+Soil input section not found. Please correct file.
+
+IPSOIL 29
+File not found. Please check soil profile name or create file.
+
+IPTILL 2
+Tillage input level not found. Please correct input file.
+
+IPTILL 3
+First tillage application date is defined prior to the start of simulation.
+
+IPVAR 1
+Error in Cultivar entry. Fix entry or batch file.
+
+IPVAR 2
+Error in Cultivar entry. Fix cultivar input file.
+
+IPVAR 21
+Genetics input section not found. Please correct file.
+
+IPVAR 22
+LFMAX is less than or equal 0. Please correct file.
+
+IPVAR 23
+SLAVAR is less than or equal 0. Please correct file.
+
+IPVAR 24
+XFRUIT is less than or equal 0. Please correct file.
+
+IPVAR 25
+WTPSD is less than or equal 0. Please correct file.
+
+IPVAR 26
+SDPDVR is less than or equal 0. Please correct file.
+
+IPVAR 27
+SFDUR is less than or equal 0. Please correct file.
+
+IPVAR 28
+PODUR is less than or equal 0. Please correct file.
+
+IPVAR 29
+File not found. Please check file name or create file.
+
+IPVAR 30
+KCAN is less than or equal 0. Please correct file.
+
+IPVAR 50
+THRESH is less than or equal 0. Please correct file.
+
+IPVAR 51
+SDPRO is less than or equal 0. Please correct file.
+
+IPVAR 52
+SDLIP is less than or equal 0. Please correct file.
+
+IPWTH 1
+Simulation date must be AFTER first available weather day. Correct dates.
+
+IPWTH 2
+Missing day in weather data file.
+
+IPWTH 3
+Missing or negative data in weather data file.
+
+IPWTH 4
+Tmax and Tmin are both set to 0 in weather data file.
+
+IPWTH 5
+Tmax and Tmin have identical values in weather data file.
+
+IPWTH 6
+Tmax is less than Tmin in weather data file.
+
+IPWTH 7
+Duplicate record in weather data file.
+
+IPWTH 8
+Non-sequential record in weather data file.
+
+IPWTH 9
+Unlikely value of WINDSP in weather data file.
+
+IPWTH 10
+Missing required data in weather data file.
+
+IPWTH 29
+File not found. Please check file name or create file.
+
+IPWTH 30
+Error opening file.
+
+IRRIG 10
+Incompatibility between Century SOM method and flooded field management.
+
+*IRRIG 20
+Drip irrigation duration less than 1 minute.
+
+LAND 2
+Planting date is before start of simulation date. Please fix input file.
+
+MODELN 1
+Error opening file. Please check file.
+
+MODELN 2
+File not find. Please create or copy file to working directory.
+
+MODELN 3
+Code not found. Please fix configuration file.
+
+MODELN 4
+This model does not exist. Please contact the CSM team for further information.
+
+MODELN 5
+This crop module does not exist. Please contact the CSM team for further information.
+
+MODELN 6
+Your configuration file is incompatible with the current version. Please update the file.
+
+MODELN 7
+Crop code incompatible with model specified.
+
+PATH 1
+Code not found in profile file DSSATPRO.FLE. Please correct file.
+
+PATH 2
+DSSATPRO file not found.
+
+PPLANT 10
+Review P parameters in species file.
+
+READA 1
+Error in experimental data (averages) file. Could not find @TRNO header line.
+
+READA 2
+Error in experimental data (averages) file.
+
+RTSOLV 1
+P model not enabled for this crop. Contact the CSM team for further info.
+
+SEDLYR 1
+Error in Soil Sensitivity Analysis Selection entry. Fix entry or batch file.
+
+SEFERT 1
+Error in Fertilizer Sensitivity Analysis Selection. Fix entry or batch file.
+
+SEFIX 1
+Error in Fixation Sensitivity Analysis Selection. Fix entry or batch file.
+
+SEFREQ 1
+Error in Output Frequency Selection entry. Fix entry or batch file.
+
+SEFREQ 2
+Error in Output Frequency Selection entry. Fix entry or batch file.
+
+SEPEST 1
+Error in Pest Sensitivity Analysis Selection entry. Fix entry or batch file.
+
+SEINIT 1
+Error in Initialization Sensitivity Analysis Selection. Fix entry or batch file.
+
+SEIRR 1
+Error in Irrigation Sensitivity Analysis Selection. Fix entry or batch file.
+
+SEPROF 1
+Error in Soil Sensitivity Analysis Selection entry. Fix entry or batch file.
+
+SESOIL 1
+Error in Soil Sensitivity Analysis Selection entry. Fix entry or batch file.
+
+SEVAR 1
+Error in Variety Sensitivity Analysis Selection entry. Fix entry or batch file.
+
+SEWTH 1
+Error in Weather Sensitivity Analysis Selection entry. Fix entry or batch file.
+
+SENS 1
+Error in Sensitivity Selection entry. Fix entry or batch file.
+
+SOILDY 10
+Organic carbon in soil file is zero or undefined. Please check file.
+
+SOILDY 11
+Missing data in soil file. Please check file.
+
+SOILDY 29
+File not found. Please check file name or create file.
+
+SOILDY 33
+End of file encountered.
+
+SOILDY 64
+Invalid format in file.
+
+SOMFIX 1
+File does not exist. Please copy file from the appropriate directory.
+
+SOMINI 1
+File does not exist. Please copy file from the appropriate directory.
+
+SPINIT 1
+Insufficient soil P data provided. Program will stop.
+
+SWCROP 1
+Error in Crop entry. Fix entry or batch file.
+
+SWFERT 1
+Error in Fertilizer Sensitivity Analysis Selection. Fix entry or batch file.
+
+SWFIX 1
+Error in Fertilizer Sensitivity Analysis Selection. Fix entry or batch file.
+
+SWINSC 1
+Error in Initial Soil Sensitivity Analysis Selection. Fix entry or batch file.
+
+SWIRR 1
+Error in Irrigation Sensitivity Analysis Selection. Fix entry or batch file.
+
+SWWTH 1
+Error in Weather Sensitivity Analysis Selection. Fix entry or batch file.
+
+TILLAG 29
+Tillage operations file not found.
+
+WEATHR 1
+Weather method selected not available. Please fix input file.
+
+WTHMOD 1
+Environmental modification section not found.
+
+WTHMOD 10
+Weather modification created negative data in minimum data set. Check changes.
+
+WGENIN 4
+Missing WGEN data in climate file. Program will stop.
+
+SIMMIN 4
+Missing MONTHLY AVERAGES data in climate file. Program will stop.
+
+MISC -1
+End-of-file encountered in input file.
+
+MISC 6100
+Integer overflow in input file. Check format.
+
+MISC 6101
+Invalid integer in input file. Check format.
+
+MISC 6103
+Invalid real in input file. Check format.
+
+MISC 6205
+A Edit descriptor expexted for Character. Check format.
+
+MISC 6206
+Invalid format in input file. Check format.
+
+MISC 6416
+File not found. Create input file.
+
+GENERI 1
+Section not found in input file. Check file.
+
+GENERI 29
+File not found. Please check file name or create file.
+
+GENERI 30
+Error opening file.
+
+GENERI 33
+End of file encountered.
+
+GENERI 35
+Error in ECOTYPE entry.
+
+GENERI 36
+Error in cultivar entry.
+
+GENERI 42
+Input section not found.
+
+GENERI 50
+Missing data.
+
+GENERI 59
+Syntax error.
+
+GENERI 64
+Invalid format in file.
+
+GENERI 75
+Array size exceeded.
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.CUL
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.CUL (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.CUL 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,288 @@
+*MAIZE CULTIVAR COEFFICIENTS: MZCER045 MODEL
+!
+!The P1 values for the varieties used in experiments IBWA8301 and
+!UFGA8201 were recalibrated to obtain a better fit for version 3
+!of the model. After converting from 2.1 to 3.0 the varieties
+!IB0035, IB0060, and IB0063 showed an earlier simulated flowering
+!date. To correct this, the P1 values were recalibrated.
+!The reason for this is that there was an error in PHASEI in
+!version 2.1 that had TLNO=IFIX(CUMDTT/21.+6.) rather than
+!TLNO=IFIX(SUMDTT/21.+6.); see p. 74 of Jones & Kiniry.
+!-Walter Bowen, 22 DEC 1994.
+!
+!All G2 values were increased by a factor of 1.1 for Ritchie's
+!change to RUE -Walter, 28 DEC 1994
+!
+! COEFF DEFINITIONS
+! ======== ===========
+! VAR# Identification code or number for a specific cultivar
+! VAR-NAME Name of cultivar
+! EXPNO Number of experiments used to estimate cultivar parameters
+! ECO# Ecotype code of this cultivar, points to the Ecotype in the
+! ECO file (currently not used).
+! P1 Thermal time from seedling emergence to the end of the juvenile
+! phase (expressed in degree days above a base temperature of 8øC)
+! during which the plant is not responsive to changes in
+! photoperiod.
+! P2 Extent to which development (expressed as days) is delayed for
+! each hour increase in photoperiod above the longest photoperiod
+! at which development proceeds at a maximum rate (which is
+! considered to be 12.5 hours).
+! P5 Thermal time from silking to physiological maturity (expressed
+! in degree days above a base temperature of 8øC).
+! G2 Maximum possible number of kernels per plant.
+! G3 Kernel filling rate during the linear grain filling stage and
+! under optimum conditions (mg/day).
+! PHINT Phylochron interval; the interval in thermal time (degree days)
+! between successive leaf tip appearances.
+!
+! PIO Pioneer
+! AS Asgrow (Monsanto)
+! DK Dekalb (Monsanto)
+! LH Holden (Monsanto)
+! C/LOL Land of Lakes
+!
+ at VAR# VRNAME.......... EXPNO ECO# P1 P2 P5 G2 G3 PHINT
+! 1 2 3 4 5 6
+!Hybrid
+HY0001 <1375 GDD . IB0001 110.0 0.750 680.0 800.0 9.50 38.90
+HY0002 1300-1450 GDD . IB0001 135.0 0.750 730.0 850.0 9.50 38.90
+HY0003 1400-1550 GDD . IB0001 160.0 0.750 780.0 850.0 9.50 38.90
+HY0004 1525-1675 GDD . IB0001 185.0 0.750 850.0 900.0 9.50 38.90
+HY0005 1575-1725 GDD . IB0001 212.0 0.750 850.0 900.0 9.50 38.90
+HY0006 1625-1775 GDD . IB0001 240.0 0.750 850.0 900.0 9.50 38.90
+HY0007 1675-1825 GDD . IB0001 260.0 0.750 850.0 900.0 9.50 38.90
+HY0008 1750-1925 GDD . IB0001 290.0 0.750 895.0 900.0 9.50 38.90
+HY0009 1825-2000 GDD . IB0001 320.0 0.750 940.0 900.0 9.50 38.90
+HY0010 >2000 GDD . IB0001 350.0 0.750 980.0 900.0 9.50 38.90
+
+!Open-pollinated:
+OP0001 OP- <1375 GDD . IB0001 110.0 0.750 680.0 520.0 8.60 38.90
+OP0002 OP-1300-1450 GDD . IB0001 135.0 0.750 730.0 540.0 8.60 38.90
+OP0003 OP-1400-1550 GDD . IB0001 160.0 0.750 780.0 540.0 8.60 38.90
+OP0004 OP-1525-1675 GDD . IB0001 185.0 0.750 850.0 570.0 8.60 38.90
+OP0005 OP-1575-1725 GDD . IB0001 212.0 0.750 850.0 570.0 8.60 38.90
+OP0006 OP-1625-1775 GDD . IB0001 240.0 0.750 850.0 570.0 8.60 38.90
+OP0007 OP-1675-1825 GDD . IB0001 260.0 0.750 850.0 570.0 8.60 38.90
+OP0008 OP-1750-1925 GDD . IB0001 290.0 0.750 895.0 570.0 8.60 38.90
+OP0009 OP-1825-2000 GDD . IB0001 320.0 0.750 940.0 570.0 8.60 38.90
+OP0010 OP- >2000 GDD . IB0001 350.0 0.750 980.0 570.0 8.60 38.90
+
+PC0001 2500-2600 GDD . IB0001 160.0 0.750 780.0 750.0 8.50 49.00
+PC0002 2600-2650 GDD . IB0001 185.0 0.750 850.0 800.0 8.50 49.00
+PC0003 2650-2700 GDD . IB0001 212.0 0.750 850.0 800.0 8.50 49.00
+PC0004 2700-2750 GDD . IB0001 240.0 0.750 850.0 800.0 8.50 49.00
+PC0005 2750-2800 GDD . IB0001 260.0 0.750 850.0 800.0 8.50 49.00
+
+990001 LONG SEASON . IB0001 320.0 0.520 940.0 620.0 6.00 38.90
+990002 MEDIUM SEASON . IB0001 200.0 0.300 800.0 700.0 8.50 38.90
+990003 SHORT SEASON . IB0001 110.0 0.300 680.0 820.4 6.60 38.90
+990004 V.SHORT SEASON . IB0001 5.0 0.300 680.0 820.4 6.60 38.90
+!
+IB0001 CORNL281 . IB0001 110.0 0.300 685.0 907.9 6.60 38.90
+IB0002 CP170 . IB0001 120.0 0.000 685.0 907.9 10.00 38.90
+IB0003 LG11 . IB0001 125.0 0.000 685.0 907.9 10.00 38.90
+IB0004 F7 X F2 . IB0001 125.0 0.000 685.0 907.9 10.00 38.90
+IB0005 PIO 3995 . IB0001 130.0 0.300 685.0 907.9 8.60 38.90
+IB0006 INRA . IB0001 135.0 0.000 685.0 907.9 10.00 38.90
+IB0007 EDO . IB0001 135.0 0.300 685.0 907.9 10.40 38.90
+IB0008 A654 X F2 . IB0001 135.0 0.000 685.0 907.9 10.00 38.90
+IB0009 DEKALB XL71 . IB0001 140.0 0.300 685.0 907.9 10.50 38.90
+IB0010 F478 X W705A . IB0001 140.0 0.000 685.0 907.9 10.00 38.90
+IB0011 DEKALBXL45 . IB0001 150.0 0.400 685.0 907.9 10.15 38.90
+IB0012 PIO 3382 . IB0001 160.0 0.700 950.0 845.0 8.40 38.90 !kjb 1/2/12
+!IB0012 PIO 3382 . IB0001 160.0 0.700 890.0 825.0 8.50 38.90
+IB0013 B59*OH43 . IB0001 162.0 0.800 685.0 862.4 6.90 38.90
+IB0014 F16 X F19 . IB0001 165.0 0.000 685.0 907.9 10.00 38.90
+IB0015 WASHINGTON . IB0001 165.0 0.400 715.0 825.0 11.00 38.90
+IB0016 B14XOH43 . IB0001 172.0 0.300 685.0 907.9 8.50 38.90
+IB0017 R1*(N32*B14) . IB0001 172.0 0.800 685.0 907.9 10.15 38.90
+IB0018 B60*R71 . IB0001 172.0 0.800 685.0 781.4 7.70 38.90
+IB0019 WF9*B37 . IB0001 172.0 0.800 685.0 907.9 10.15 38.90
+IB0020 B59*C103 . IB0001 172.0 0.800 685.0 907.9 10.15 38.90
+IB0021 Garst 8702 . IB0001 175.0 0.200 960.0 855.8 6.00 38.90
+IB0022 B14*C103 . IB0001 180.0 0.500 685.0 907.9 10.15 38.90
+IB0023 B14*C131A . IB0001 180.0 0.500 685.0 907.9 10.15 38.90
+IB0024 PIO 3720 . IB0001 180.0 0.800 685.0 907.9 10.00 38.90
+IB0025 WASH/GRAIN-1 . IB0001 185.0 0.400 775.0 836.0 12.00 38.90
+IB0026 A632 X W117 . IB0001 187.0 0.000 685.0 907.9 10.00 38.90
+IB0027 Garst 8750 . IB0001 190.0 0.200 930.0 891.0 6.30 38.90
+IB0028 TAINAN-11 . IB0001 200.0 0.800 670.0 803.0 6.80 38.90
+IB0029 PIO 3541 . IB0001 200.0 0.300 800.0 770.0 8.50 38.90
+IB0030 PIO 3707 . IB0001 200.0 0.700 800.0 649.0 6.30 38.90
+IB0031 PIO 3475* . IB0001 200.0 0.700 800.0 797.5 8.60 38.90
+IB0032 PIO 3382* . IB0001 200.0 0.700 800.0 715.0 8.50 38.90
+IB0033 PIO 3780 . IB0001 200.0 0.760 685.0 660.0 9.60 38.90
+IB0034 PIO 3780* . IB0001 200.0 0.760 685.0 797.5 9.60 38.90
+IB0035 McCurdy 84aa . IB0001 265.0 0.300 920.0 920.0 8.00 43.00 !P1 was 200 !kjb 1/2/12
+!IB0035 McCurdy 84aa . IB0001 265.0 0.300 920.0 890.0 8.50 43.00 !P1 was 200
+IB0036 C281 . IB0001 202.0 0.300 685.0 907.9 5.80 38.90
+IB0037 SWEET CORN . IB0001 210.0 0.520 625.0 907.5 10.00 38.90
+IB0038 Garst 8555 . IB0001 215.0 0.400 890.0 880.0 9.00 38.90
+IB0039 PIO 3901 . IB0001 215.0 0.760 600.0 616.0 9.00 38.90
+IB0040 B8*153R . IB0001 218.0 0.300 760.0 632.5 8.80 38.90
+IB0041 Garst 8808 . IB0001 220.0 0.400 780.0 858.0 8.50 38.90
+IB0042 B73 X MO17 . IB0001 220.0 0.520 880.0 803.0 10.00 38.90
+IB0043 PIO 511A . IB0001 220.0 0.300 685.0 709.5 10.50 38.90
+IB0044 W69A X F546 . IB0001 240.0 0.300 685.0 907.9 10.00 38.90
+IB0045 A632 X VA26 . IB0001 240.0 0.300 685.0 907.9 10.00 38.90
+IB0046 W64A X W117 . IB0001 245.0 0.000 685.0 907.9 8.00 38.90
+IB0047 PIO 3147 . IB0001 255.0 0.760 685.0 917.4 10.00 38.90
+IB0048 WF9*B37 . IB0001 260.0 0.800 710.0 907.9 6.50 38.90
+IB0049 NEB 611 . IB0001 260.0 0.300 720.0 907.5 9.00 38.90
+IB0050 PV82S . IB0001 260.0 0.500 750.0 660.0 8.50 38.90
+IB0051 PV76S . IB0001 260.0 0.500 750.0 660.0 8.50 38.90
+IB0052 PIO 3183 . IB0001 260.0 0.500 750.0 660.0 8.50 38.90
+IB0053 CESDA-28 . IB0001 260.0 0.500 669.0 858.0 7.10 38.90
+IB0054 B14*OH43 . IB0001 265.0 0.800 665.0 858.0 6.90 38.90
+IB0055 MCCURDY 6714 . IB0001 265.0 0.300 825.0 907.9 9.80 38.90
+IB0056 FM 6 . IB0001 276.0 0.520 867.0 677.6 10.70 38.90
+IB0057 TOCORON-3 . IB0001 276.0 0.520 867.0 660.0 8.12 38.90
+IB0058 NC+59 . IB0001 280.0 0.300 750.0 907.5 10.00 38.90
+IB0059 H6 . IB0001 310.0 0.300 685.0 907.9 10.00 38.90
+IB0060 H610(UH) . IB0001 365.0 0.520 850.0 680.0 6.50 38.90 !P1 was 300 !kjb 1/2/12
+!IB0060 H610(UH) . IB0001 365.0 0.520 850.0 638.0 6.40 38.90 !P1 was 300, orig
+IB0061 PB 8 . IB0001 300.0 0.520 990.0 440.0 7.00 38.90
+IB0062 B56*C131A . IB0001 318.0 0.500 700.0 885.5 6.40 38.90
+IB0063 PIO X 304C . IB0001 365.0 0.520 920.0 780.0 5.70 38.90 !P1 was 320 !kjb 1/2/12
+!IB0063 PIO X 304C . IB0001 365.0 0.520 940.0 687.5 6.00 38.90 !P1 was 320 orig
+IB0064 H.OBREGON . IB0001 360.0 0.800 685.0 907.9 10.15 38.90
+IB0065 SUWAN-1 . IB0001 380.0 0.600 780.0 825.0 7.00 38.90
+IB0066 PIO 3165 . IB0001 320.0 0.520 940.0 625.0 6.00 38.90
+IB0067 PIO 3324 . IB0001 320.0 0.520 940.0 625.0 6.00 38.90
+IB0068 PIO 3475 . IB0001 200.0 0.700 750.0 907.0 9.00 38.90 !P1 was 320 G2 was 625 G3 was 6 P5 was 940
+IB0168 PIO 3475 orig . IB0001 220.0 0.700 850.0 907.0 9.90 38.90
+IB0069 PIO 3790 . IB0001 212.4 0.520 792.8 625.0 6.00 38.90
+IB0070 CARGILL 111S . IB0001 290.0 0.500 1035. 580.0 5.50 47.00 ! Calibrated JIL !kjb 1/2/12
+!IB0070 CARGILL 111S . IB0001 290.0 0.500 1035. 550.0 5.00 47.00 ! Calibrated JIL
+IB0071 PIO 31G98 . IB0003 165.0 0.750 680.0 820.4 6.60 48.00 !Envirotron/2002 Experiment
+IB0089 GL 582 . IB0001 200.0 0.700 750.0 750.0 8.60 38.90
+IB0090 GL 482 . IB0001 240.0 0.700 990.0 907.0 8.80 38.90
+IB0091 GL 450 . IB0001 200.0 0.700 850.0 700.0 7.00 38.90
+IB0092 LAURENT 3733 . IB0001 200.0 0.700 680.0 725.0 9.00 38.90 !LAURENT estimation
+IB0099 AGETI76 . IB0001 325.0 2.000 625.0 580.0 7.30 50.00
+IB0100 PARTAP1 . IB0001 450.0 2.000 580.0 600.0 16.50 50.00
+
+IB1051 AS 740 . IB0001 215.0 0.750 850.0 700.0 5.00 48.00
+IB1053 LH198XLH185 . IB0001 205.0 0.750 850.0 731.0 5.00 48.00
+IB0154 PIO 3192 . IB0001 215.0 0.300 990.0 660.0 8.50 48.00 ! Calibrated JIL
+IB0155 DEA . IB0001 165.0 0.100 476.0 442.0 5.35 40.00 ! Calibrated JIL
+
+IB1052 DK 611 . IB0001 260.0 0.100 800.0 980.0 5.70 48.00 !kjb 1/2/12
+!IB1052 DK 611 . IB0001 260.0 0.100 800.0 850.0 6.00 48.00
+
+!Brazil cultivars:
+IB0171 AG9010 . IB0001 196.0 0.500 758.0 830.0 5.10 40.00 ! Calibrated JIL !kjb 1/2/12
+IB0172 DAS CO32 . IB0001 220.0 0.500 747.8 1100. 5.40 45.00 ! Calibrated JIL !kjb 1/2/12
+IB0173 DKB 333B . IB0001 250.0 0.500 842.0 920.0 4.80 45.00 ! Calibrated JIL !kjb 1/2/12
+IB0174 EXCELER . IB0001 210.0 0.500 770.0 1170. 5.80 45.00 ! Calibrated JIL !kjb 1/2/12
+!IB0171 AG9010 . IB0001 196.0 0.500 758.0 800.0 5.00 40.00 ! Calibrated JIL
+!IB0172 DAS CO32 . IB0001 220.0 0.500 747.8 990.0 5.00 45.00 ! Calibrated JIL
+!IB0173 DKB 333B . IB0001 250.0 0.500 842.0 900.0 4.40 45.00 ! Calibrated JIL
+!IB0174 EXCELER . IB0001 210.0 0.500 770.0 1100. 5.15 45.00 ! Calibrated JIL
+
+IB0185 JACKSON HYBRI . IB0001 200.0 0.300 950.0 980.0 7.15 43.00 !kjb 1/2/12
+
+IB1065 PIO 33Y09 . IB0001 245.0 0.500 905.0 780.0 6.00 48.00
+IB1066 PIO 3489 . IB0001 225.0 0.600 895.0 875.0 8.80 48.00
+IB1067 PIO 3394 . IB0001 240.0 0.500 900.0 820.0 8.50 48.00
+IB1069 PIO 3563 . IB0001 216.0 0.600 830.0 860.0 8.80 48.00
+IB1072 DEKALB 485 . IB0001 215.0 0.600 785.0 750.0 8.70 45.00
+IB1068 DEKALB 521 . IB0001 215.0 0.400 795.0 890.0 8.00 48.00
+IB1168 DEKALB 591 . IB0001 225.0 0.400 895.0 880.0 8.00 48.00
+
+LL0499 C/LOL 499 . IB0001 182.0 0.500 650.0 750.0 8.70 46.00
+LL0564 C/LOL 564 . IB0001 210.0 0.500 670.0 880.0 11.25 46.00
+LL0581 C/LOL 581 . IB0001 200.0 0.500 668.0 850.0 8.80 45.00
+LL0599 C/LOL 599 . IB0001 200.0 0.500 670.0 850.0 8.80 45.00
+LL0542 C/LOL 542 . IB0001 185.0 0.500 700.0 835.0 8.70 46.00
+LL0661 C/LOL 661 . IB0001 200.0 0.500 670.0 850.0 9.00 45.00
+LL0674 C/LOL 674 . IB0001 200.0 0.500 670.0 800.0 8.90 45.00
+
+ZA0001 Prisma (FAO 700) . IB0001 280.0 0.400 850.0 750.0 6.80 38.90
+!ZA0002 Prisma GC Avg . IB0001 280.0 0.776 789.0 650.0 6.03 42.00
+!ZA0002 Prisma GC Avg . IB0001 280.0 0.300 789.0 700.0 6.05 48.00 Original CAMI
+ZA0002 Prisma GC Avg . IB0001 250.0 0.300 789.0 700.0 6.05 48.00
+
+
+
+
+!ZA0002 Prisma GC Avg . IB0001 280.0 0.300 789.0 650.0 6.03 48.00 orig
+
+IF0001 OBA SUPER 2 . IB0001 270.0 0.600 780.0 840.0 7.80 45.00
+IF0002 EV8728-SR . IB0001 265.0 0.600 800.0 900.0 7.20 45.00
+IF0003 Mokwa 87TZPB-SR . IB0001 305.0 0.600 765.0 810.0 8.00 45.00
+IF0004 SPL (semi-prol) . IB0001 270.0 0.600 740.0 920.0 7.40 41.00
+IF0005 TZB-SR (open p) . IB0001 290.0 0.600 775.0 990.0 6.80 45.00
+IF0006 EV 8449-SR . IB0001 385.0 0.600 860.0 700.0 8.00 50.00
+IF0007 EV 8449-SRx . IB0001 385.0 0.600 860.0 945.4 7.20 50.00
+IF0008 AG-KADUNA . IB0001 220.0 0.600 780.0 845.0 8.00 40.00
+IF0009 OBA S2 Benin . IB0001 170.0 0.600 760.0 800.0 8.00 50.00
+IF0010 EV-8449_TG . IB0001 260.0 0.600 630.0 900.0 9.00 45.00
+IF0011 EV-8443_TG . IB0001 300.0 0.600 850.0 850.0 8.80 45.00
+
+AC0001 TOHONO O'odham . IB0001 200.0 0.100 610.0 248.0 9.80 38.90 !Michael Pool, Austin Comm College
+
+! Vietnam sequencing
+VI0001 LVN 10 . IB0001 350.0 1.000 980.0 760.0 9.20 38.90
+
+!Coefficients calibrated by Jones and Boote in Mali
+IM0001 SOTUBAKA . IB0001 300.0 0.520 930.0 500.0 6.00 38.90
+IM0002 NIELENI . IB0001 232.0 0.300 688.0 540.0 8.80 38.90
+IM0003 APPOLO . IB0001 216.0 0.300 530.0 455.0 11.00 38.90
+
+!Coefficients calibrated by Dzotsi and Singh in Togo, 2002.
+IF0018 TZE C0MP4C2 . IB0001 210.0 0.100 660.0 850.0 9.70 55.00
+IF0019 TZESRW X GUA 314 . IB0001 170.0 0.100 660.0 780.0 8.00 55.00
+IF0020 AB-11-TG . IB0001 250.0 0.100 620.0 920.0 8.50 55.00
+IF0021 TZEEY-SRBC5 . IB0001 130.0 0.100 600.0 850.0 8.00 55.00
+IF0022 IKENNE . IB0001 280.0 0.600 630.0 900.0 8.80 45.00
+
+!Alagarswamy
+IB0067 TEST . IB0001 130.0 0.500 720.0 380.0 7.50 75.00
+KA0001 H625 . IB0001 130.0 0.500 720.0 380.0 7.50 75.00
+EM0001 H512 . IB0001 130.0 0.500 720 0 550.0 7.50 75.00
+KY0001 H622 . IB0001 358.5 0.500 616.1 550.0 7.20 75.00
+KY0002 H511 . IB0001 317.6 0.500 530.4 550.0 7.50 75.00
+KY0003 CCOMP . IB0001 366.2 1.235 611.3 600.0 6.50 75.00
+KY0004 MAKUCOMP . IB0001 183.6 0.500 611.0 380.0 10.00 75.00
+KY0005 H625 . IB0001 341.1 0.500 612.0 700.0 8.50 75.00
+KY0006 KCB . IB0001 125.0 0.500 500.3 450.0 10.50 75.00
+KY0007 PWANI . IB0001 182.4 0.500 616.0 720.0 10.50 75.00
+KY0008 H613 . IB0001 182.4 0.500 616.0 825.0 10.15 75.00
+KY0009 CUZCO . IB0001 182.4 0.500 616.0 380.0 7.50 75.00
+KY0010 H512 . IB0001 332.9 0.500 601.6 550.0 7.50 75.00
+KY0011 H614 . IB0001 396.9 0.500 623.6 825.0 10.15 75.0
+KY0012 H5012 . IB0001 351.7 0.500 859.0 550.0 7.50 75.00
+KY0013 H626 . IB0001 458.0 0.500 429.0 450.0 10.50 75.00
+KY0014 KATUMANICOMPI . IB0001 238.6 0.500 654.0 450.0 10.50 75.00
+KY0015 PH 1 . IB0001 234.5 0.500 429.0 720.0 10.50 75.00
+KY0016 HAC . IB0001 245.0 0.500 825.0 750.0 10.50 75.00 !P5 was 290
+KY0017 H612 . IB0001 130.0 0.500 390.0 825.0 10.15 75.00
+KY0018 KATUMANICOMP-II . IB0001 125.0 0.500 660.0 450.0 10.50 75.00
+
+!J.B.Naab data 2003-2006, re-calibrated by kjb 1/2/12
+GH0010 OBATAMPA . IB0001 280.0 0.000 750.0 540.0 7.50 40.00
+!GH0010 OBATAMPA . IB0001 280.0 0.000 700.0 550.0 7.74 40.00
+
+!Four Global Futures maize cultivars (3 life cycle by 2 "yield levels")
+!Composite: same maturity as Garst 8808 and WH403), but G2 and G3 mid-way.
+!Those cultivars seemed most realistic compared with 5 other cultivars calibrated
+!in DSSAT, not too early (Pio3382 too early), not too late (Pio 304C is late),
+!not too high in yield(McCurdy 84aa not realistic), DK611 strange, and
+!Obatanpa is low yielding (fertility constraints, or OPV)
+!Yield "trait" is 5% higher RUE, 5% higher G2, 5% higher G3
+
+GF0001 Base Garst808-wh403 . IB0001 250.0 0.500 730.0 800.0 7.80 38.90
+GF0101 Baseline 10%shorter . IB0001 215.0 0.500 650.0 800.0 7.80 38.90
+GF0201 Baseline 10%longer . IB0001 285.0 0.500 810.0 800.0 7.80 38.90
+GF0301 Yield norm cycle . IB0004 250.0 0.500 730.0 840.0 8.19 38.90
+GF0401 Yield 10%shorter . IB0004 215.0 0.500 650.0 840.0 8.19 38.90
+GF0501 Yield 10%longer . IB0004 285.0 0.500 810.0 840.0 8.19 38.90
+
+CYMA01 wh403 . IB0001 265.0 0.760 685.0 760.0 7.60 38.90 !kjb-Sika 1/1/12
+!CYMA01 wh403 . IB0001 268.0 0.760 685.0 750.0 7.70 38.90
+
+! Added by Camilo Andrade from Embrapa Maize and Sorghum
+EBSL06 BRS1030-SL2009 . IB0001 263.8 0.500 1034 700.0 5.20 44.22 !Single-cross hybrid from Embrapa
+!EBSL06 BRS1030-SL2009 . IB0001 263.8 0.500 1034 648.0 5.14 44.22 !Single-cross hybrid from Embrapa
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.ECO
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.ECO (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.ECO 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,37 @@
+*MAIZE ECOTYPE COEFFICIENTS: GECER045 MODEL
+!
+! COEFF DEFINITIONS
+! ===== ===========
+! ECO# Code for the ecotype to which a cultivar belongs (see *.cul
+! file)
+! ECONAME Name of the ecotype, which is referenced from *.CUL file
+! TBASE Base temperature below which no development occurs, C
+! TOPT Temperature at which maximum development rate occurs during vegetative stages, C
+! ROPT Temperature at which maximum development rate occurs for reproductive stages, C
+! P2O Daylength below which daylength does not affect development rate, hours
+! DJTI Minimum days from end of juvenile stage to tassel initiation if the cultivar
+! is not photoperiod sensitive, days
+! GDDE Growing degree days per cm seed depth required for emergence, GDD/cm
+! DSGFT GDD from silking to effective grain filling period, C
+! RUE Radiation use efficiency, g plant dry matter/MJ PAR
+! KCAN Canopy light extinction coefficient for daily PAR.
+! TSEN Critical temperature below which leaf damage occurs (default 6°C)
+! CDAY Number of cold days parameter (default 15.0 )
+! 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
+ at ECO# ECONAME......... TBASE TOPT ROPT P20 DJTI GDDE DSGFT RUE KCAN TSEN CDAY
+JE0001 GENERIC MW1979 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.1 0.85
+JE0002 GENERIC MW1985 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.2 0.85
+JE0003 GENERIC MW1990 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.3 0.85
+JE0004 GENERIC MW1995 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.3 0.85
+JE0005 GENERIC MW2000 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.4 0.85
+JE0006 GENERIC MW2005 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.4 0.85
+JE0007 GENERIC MW2010 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.5 0.85
+!!!
+IB0001 GENERIC MIDWEST1 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.2 0.85
+IB0002 GENERIC MIDWEST2 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.5 0.85
+IB0003 GENERIC MIDWEST3 8.0 34.0 34.0 12.5 4.0 6.0 170. 2.0 0.85
+IB0004 +5% RUE MIDWEST1 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.4 0.85
+DFAULT DEFAULT 8.0 34.0 34.0 12.5 4.0 6.0 170. 4.2 0.85
+
+
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.SPE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.SPE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/MZCER045.SPE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,87 @@
+*MAIZE SPECIES COEFFICIENTS: MZCER045 MODEL
+
+*TEMPERATURE EFFECTS
+! TBASE TOP1 TOP2 TMAX
+ PRFTC 6.2 16.5 33.0 44.0 !Effect of temperature on photosynthesis
+! RGFIL 5.5 16.0 29.0 37.0 !Effect of temperature on relative grain filling rate (tolerant)
+ RGFIL 5.5 16.0 27.0 35.0 !Effect of temperature on relative grain filling rate (suscept)
+
+*PHOTOSYNTHESIS PARAMETERS
+ PARSR 0.50 !Conversion of solar radiation to PAR
+ CO2X 0 220 280 330 400 490 570 750 990 9999
+ CO2Y 0.00 0.85 0.95 1.00 1.02 1.04 1.05 1.06 1.07 1.08
+
+*STRESS RESPONSE
+ FSLFW 0.050 !Fraction of leaf area senesced under 100% water stress, 1/day
+ FSLFN 0.050 !Fraction of leaf area senesced under 100% nitrogen stress, 1/day
+ FSLFP 0.050 !Fraction of leaf area senesced under 100% phosphorus stress, 1/day
+
+*SEED GROWTH PARAMETERS
+ SDSZ .2750 !Maximum potential seed size, mg/sd
+ RSGR 0.1 !Relative seed growth rate below which plant may mature early
+ RSGRT 5.0 !Number of consecutive days relative seed growth rate is below RSGR that triggers early maturity
+ CARBOT 7.0 !Number of consecutive days CARBO is less than .001 before plant matures due to temperature, water or nitrogen stress
+ DSGT 21.0 !Maximum days from sowing to germination before seed dies.
+ DGET 150.0 !Growing degree days between germination and emergence after which the seed dies due to drought
+ SWCG 0.02 !Minimimum available soil water required for seed germination, cm3/cm3
+
+*EMERGENCE INITIAL CONDITIONS
+ STMWTE 0.20 !Stem weight at emergence, g/plant
+ RTWTE 0.20 !Root weight at emergence, g/plant
+ LFWTE 0.20 !Leaf weight at emergence, g/plant
+ SEEDRVE 0.20 !Carbohydrate reserve in seed at emergence, g/plant
+ LEAFNOE 1.0 !Leaf number at emergence, #/plant
+ PLAE 1.0 !Leaf area at emergence, cm2/plant
+
+*NITROGEN PARAMETERS
+ TMNC 0.00450 !Plant top minimum N concentration g N/g dry matter (orig)
+ TANCE 0.0440 !Nitrogen content in above ground biomass at emergence, g N/g dry matter
+ RCNP 0.01060 !Root critical nitrogen concentration, g N/g root dry weight
+ RANCE 0.0220 !Root N content at emergence g N/g root
+ CTCNP1 1.52 !Maximum value for critical tissue N concentration (in developing seed embryo)
+ CTCNP2 0.160 !Coefficent for change in conc. with growth stage
+
+*ROOT PARAMETERS
+ PORM 0.05 !Minimum volume required for supplying oxygen to roots for optimum growth (1-1.0)
+ RWMX 0.03 !Not used in ceres, but passed through AltPlant for use elsewhere
+ RLWR 0.98 !Root length to weight ratio (cm/g * 1E-4)
+ RWUEP1 1.50
+
+*PLANT COMPOSITION VALUES
+ PLIGLF 0.070 !Leaf lignin fraction
+ PLIGST 0.070 !Stem lignin fraction
+ PLIGRT 0.070 !Root lignin fraction
+ PLIGSH 0.280 !Shell lignin fraction
+ PLIGSD 0.020 !Seed lignin fraction
+
+*PHOSPHORUS CONTENT (g [P]/g [shoot])
+ 0.0070 0.0025 0.0020 Optimum Shoot Conc (emerg, End L. Growth, p. mat)
+ -99.0 -99.0 -99.0 Optimum Leaf Conc ( " " " )
+ -99.0 -99.0 -99.0 Optimum Stem Conc ( " " " )
+ .00041 .00041 .00041 Optimum Root Conc ( " " " )
+ 0.0050 0.0050 0.0005 Optimum Shell Conc ( " " " )
+ 0.0035 0.0035 0.0035 Optimum Seed Conc ( " " " )
+
+ 0.0040 0.0015 0.0010 Minimum Shoot Conc (emerg, End L. Growth, p. mat)
+ -99.0 -99.0 -99.0 Minimum Leaf Conc ( " " " )
+ -99.0 -99.0 -99.0 Minimum Stem Conc ( " " " )
+ .00020 .00020 .00020 Minimum Root Conc ( " " " )
+ 0.0025 0.0025 .00025 Minimum Shell Conc ( " " " )
+ .00175 .00175 .00175 Minimum Seed Conc ( " " " )
+
+ 25.0 15.0 9.3 Maximum Veg N:P ratio (emergence, eff. grain fill, phys. mat)
+ 4.2 2.7 2.1 Minimum Veg N:P ratio (emergence, eff. grain fill, phys. mat)
+
+ 0.80 1.00 SRATPHOTO, SRATPART
+ 0.10 FracPMobil - max fraction of P which can be mobilized from leaf & stem / day
+ 0.0028 ROOTRAD - radius of cylinder around roots from which soil P can be extracted (m)
+
+!At emergence and end of leaf growth:
+!Optimum shoot P concentration (%) = 0.684 - 0.108X (Jones, 1983)
+!At physiological maturity:
+!Optimum shoot P concentration (%) = 0.238 - 0.0056X (Jones, 1983)
+!Where:
+!X is the growth stage.
+!Emergence was defined as growth stage 0 (X = 0), end of leaf growth as growth stage 4, and
+!physiological maturity as growth stage 10 (Jones, 1983). Minimum shoot P concentration was
+!taken as 60% of the estimated optimum (Daroub et al., 2003).
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/OUTPUT.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/OUTPUT.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/OUTPUT.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,80 @@
+*CSM OUTPUT FILES
+! DSSAT v4.5; 09/30/2010
+!
+! Output files currently created by DSSAT crop simulation models.
+!
+ at NAME......... CDE Description....................................... ALIAS
+!Daily output files:
+Chemical.OUT CH Daily chemical applications output file OUTCH
+ET.OUT EB Daily soil-plant-atmosphere output file OUTET
+ETPhot.OUT PH Daily evapotranspiration output file
+FloodN.OUT FN Daily flood water nitrogen output file FLDN
+FloodW.OUT FL Daily flood management output file OUTFLD
+MgmtOps.OUT MO Daily management operations output file OUTM
+Pest.OUT PS Daily pest and disease damage output file OUTD
+PlantC.OUT PC Daily plant carbon output file OUTPC
+PlantGro.OUT PG Daily plant growth output file OUTG
+PlantN.OUT PN Daily plant nitrogen output file OUTPN
+PlantP.OUT PP Daily plant phosphorus output
+SoilDyn.OUT Daily soil dynamics output file (temp)
+SoilNi.OUT SN Daily inorganic soil N output file
+SoilOrg.OUT SC Daily soil carbon output file
+SoilPi.OUT SP Daily inorganic soil phosphorus output file
+SoilKi.OUT SK Daily inorganic soil potassium output file
+SoilTemp.OUT TS Daily soil temperature output file OUTT
+SoilWat.OUT SW Daily soil water output file OUTWAT
+SOMLITC.OUT LC Daily soil organic matter carbon output file OUTSOMC
+SOMLITN.OUT LN Daily soil organic matter nitrogen output file OUTSOMN
+SOMLITP.OUT LP Daily soil organic matter phosphorus output file OUTSOMP
+Weather.OUT WE Daily weather output file OUTWTH
+EAAMOD.OUT Daily output from EAAMOD high water table model
+FreshWt.OUT Daily fresh fruit weight
+Mulch.OUT Daily surface mulch output file
+PrimaryStalk.OUT Casupro sugarcane output PSTALK
+CSP_SENES.OUT Casupro sugarcane output CSP_SENES
+CSP_PHOTO.OUT Casupro sugarcane output CSP_PHOTO
+CSP_GrowCane.OUT Casupro sugarcane output CSP_GRO
+CSP_PHEN.OUT Casupro sugarcane output OUTPHNL
+PlantKg.OUT Casupro sugarcane output OUTKG
+Generic.OUT Generic (temporary) output file
+SALUS.OUT Generic plant routine
+
+!Seasonal summary output files
+Environ.OUT EN Environmental modifications output file SOUTE
+Evaluate.OUT EV Evaluation output file (simulated vs. measured) SEVAL
+MgmtEvent.OUT ME Management event output file
+MgmtOpsSum.OUT OP Operations summary output file SOUTM
+MulWatBal.OUT Mulch water balance file
+OVERVIEW.OUT OV Seasonal overview output file OUTO
+PlantCBal.OUT Not currently operational PCBAL
+PlantNBal.OUT Plant nitrogen balance PNBAL
+PlantPBal.OUT Plant phosphorus balance
+Plantsum.OUT Not currently operational SOUTG
+SoilCBal.OUT Seasonal soil carbon balance SCBAL
+SoilKBal.OUT Seasonal soil potassium balance SKBAL
+SolNBalSum.OUT Soil N balance summary
+SoilNBal.OUT Seasonal soil N balance (v4.02 and earlier) SNBAL
+SoilNiBal.OUT Seasonal inorganic soil N balance
+SoilNoBal.OUT Seasonal organic soil N balance
+SolPBalSum.OUT Soil P balance summary
+SoilPiBal.OUT Seasonal inorganic soil P balance
+SoilPoBal.OUT Seasonal organic soil P balance
+SoilWatBal.OUT Seasonal soil water balance SWBAL
+Summary.OUT SU Seasonal summary output file OUTSUM
+WeatherSum.OUT Not currently operational SOUTWTH
+SoilWatBal2.OUT Temporary
+
+!Information files:
+ERROR.OUT Error messages ERRORO
+INFO.OUT Information output file OUTINFO
+SOMLIT1.OUT Detailed Century SOM output SLDET
+TEMP.bat OUTBAT
+WARNING.OUT Warning messages OUTWARN
+WORK.OUT CSCER, CSP information output file
+
+
+! temp chp
+SoilWat_ts.OUT 2d SOIL WATER OUTPUT
+CellDetail.OUT
+SWSensorD.OUT Soil water @ sensor depths (daily)
+SWSensorH.OUT Soil water @ sensor depths (hourly)
\ No newline at end of file
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/PEST.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/PEST.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/PEST.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,17 @@
+*PEST CODES
+! DSSAT v4.5; 09/30/2010
+
+*Diseases and Pest Organisms
+!Examples of codes that have been used are given below.
+UFCEW Corn earworm (Heliothis zea), no. m-2
+UFVBC Velvetbean caterpillar (Anticarsia gemmatalis), no. m-2
+UFSBL Soybean looper (Pseudoplusia includens), no. m-2
+UFSKB Southern green stinkbug (Mezara viridula), no. m-2
+UFRKN Root-knot nematode (Meloidogyne spp.), no. cm-3 soil
+IBCUT Cutworm, no. m-2
+LFMIN Leafminer (Aproaerema Modicella-Deventer) no.m-2, m2 m-2 leaf damage
+MOW Top weight left, kg/ha
+PSTDS General pest and diseases losses due to rot, tikka, leafminer, etc.
+PCLA Defoliation, %
+PDLA Diseased leaf area, %
+PRP Reduction in photosynthetic rate, %
\ No newline at end of file
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RESCH045.SDA
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RESCH045.SDA (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RESCH045.SDA 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,76 @@
+*Organic Matter Application PARAMETER FILE - DSCSM045 Model 09/30/2010
+
+ at VERSION
+ 4.5.0.1
+
+! Model parameter file which externalizes many of the
+! coefficients needed for simulating the composition
+! of soil organic matter.
+!RETYP Residue type code
+!CR Crop type (if applicable)
+!AM Area covered per unit dry weight of residue (cm2/g = ha/kg*10^5)
+!WATFAC Saturation water content of surface mulch (kg[H2O]/kg[DM] = mm-ha/kg * 10^4)
+!EXTFAC Mulch layer light extinction coefficient
+!PSLIG Proportion of lignin in surface residue (fraction)
+!SCN N content of initial surface (shoots) residue (%)
+!SCP P content of initial surface (shoots) residue (%)
+!PRLIG Proportion of lignin in subsurface residue (fraction)
+!RCN N content of initial subsurface (roots) residue (%)
+!RCP P content of initial subsurface (roots) residue (%)
+
+*CHARACTERISTICS
+!Res Crop |---------------- Surface ----------------| |-- Sub-surface --|
+!Type ID Cover Satur. Evapor Lignin Nitr Phos Lignin Nitr Phos
+ at RETYP CR AM WATFAC EXTFAC PSLIG SCN SCP PRLIG RCN RCP Description
+!Generic Crops
+ RE001 -- 37 3.8 0.80 0.10 1.10 0.20 0.15 0.90 0.09 Generic crop residue
+ RE101 -- 32 3.8 0.50 0.12 1.20 0.25 0.18 0.75 0.06 Generic legume residue
+ RE201 -- 37 3.5 0.85 0.08 1.10 0.32 0.10 0.90 0.16 Generic cereal crop residue
+ RE301 -- 40 3.5 0.80 0.07 1.10 0.13 0.11 0.90 0.06 Generic grass
+ RE999 DC 32 3.8 0.80 0.20 0.40 0.04 0.30 0.25 0.02 Decomposed crop residue
+
+!Manure/compost
+!RETYP CR AM WATFAC EXTFAC PSLIG SCN SCP PRLIG RCN RCP Description
+ RE002 -- 70 3.8 0.50 0.08 4.00 0.25 -99 -99 -99 Green manure
+ RE003 -- 10 3.8 0.80 0.07 4.80 0.67 -99 -99 -99 Barnyard manure
+ RE004 -- 140 3.8 0.50 0.02 5.00 1.60 -99 -99 -99 Liquid manure
+ RE005 -- 32 3.8 0.80 0.10 1.00 0.17 -99 -99 -99 Compost
+ RE006 -- 4 1.0 0.94 0.20 0.40 0.04 -99 -99 -99 Bark
+
+!Legumes
+!RETYP CR AM WATFAC EXTFAC PSLIG SCN SCP PRLIG RCN RCP Description
+ RE102 CP 32 3.8 0.50 0.12 1.20 0.27 0.18 0.75 0.06 Cowpea residue
+ RE103 MC 32 3.8 0.50 0.08 3.00 0.70 0.12 2.00 0.18 Mucuna residue
+ RE104 PN 32 3.8 0.50 0.12 1.20 0.25 0.18 0.75 0.06 Peanut residue
+ RE105 PP 32 3.8 0.50 0.16 3.60 0.25 0.25 2.00 0.18 Pigeon Pea residue
+ RE106 SB 32 3.8 0.50 0.13 1.20 0.70 0.21 0.75 0.18 Soybean residue
+ RE107 AL 32 3.8 0.50 0.08 3.60 0.21 0.10 2.40 0.06 Alfalfa residue
+ RE108 CH 32 3.8 0.50 0.12 1.20 0.25 0.18 0.75 0.06 chickpea forage
+ RE109 FB 32 3.8 0.50 0.10 1.90 0.40 0.15 1.20 0.09 Faba bean
+ RE110 PE 32 3.8 0.50 0.09 1.90 0.40 0.13 1.20 0.09 Pea residue
+ RE111 -- 69 3.8 0.50 0.08 3.20 0.60 0.12 2.00 0.14 Hairy vetch
+
+!Cereals
+!RETYP CR AM WATFAC EXTFAC PSLIG SCN SCP PRLIG RCN RCP Description
+ RE202 ML 30 3.5 0.85 0.09 1.10 0.32 0.10 0.90 0.16 Pearl millet residue
+ RE203 MZ 30 3.5 0.86 0.10 1.10 0.32 0.10 0.90 0.16 Maize residue
+ RE204 SG 30 3.5 0.85 0.06 1.10 0.20 0.10 0.90 0.10 Sorghum residue
+ RE205 WH 45 5.0 0.85 0.06 0.59 0.16 0.10 0.50 0.08 Wheat residue
+ RE206 BA 40 3.8 0.85 0.03 1.90 0.54 0.06 1.50 0.27 Barley
+ RE207 RI 40 3.8 0.85 0.04 0.75 0.10 0.07 0.60 0.10 rice
+ RE208 -- 42 3.8 0.81 0.03 2.00 0.55 0.06 1.50 0.27 rye
+
+!Grasses
+!RETYP CR AM WATFAC EXTFAC PSLIG SCN SCP PRLIG RCN RCP Description
+ RE302 BH 40 3.5 0.80 0.07 1.10 0.13 0.11 0.90 0.06 Bahiagrass
+ RE303 BG 40 3.5 0.80 0.07 1.10 0.13 0.11 0.90 0.06 Bermudagrass
+ RE304 SI 40 3.5 0.80 0.10 1.10 0.13 0.16 0.90 0.06 Switchgrass
+ RE305 BR 40 3.5 0.80 0.05 1.10 0.13 0.08 0.90 0.06 brachiaria
+ RE306 -- 40 3.5 0.80 0.10 1.10 0.13 0.16 0.90 0.06 forage grasses
+
+!Other
+!RETYP CR AM WATFAC EXTFAC PSLIG SCN SCP PRLIG RCN RCP Description
+ RE401 BF 40 3.5 0.80 0.16 1.10 0.19 0.24 0.90 0.09 Bush fallow residue
+ RE402 SC 40 3.5 0.80 0.07 0.34 0.03 0.11 0.30 0.01 Sugarcane
+ RE403 PI 30 3.5 0.80 0.10 0.88 0.08 0.15 0.90 0.04 Pineapple
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.CUL
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.CUL (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.CUL 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,101 @@
+*RICE GENOTYPE COEFFICIENTS: RICER045 MODEL
+!
+! COEFF DEFINITIONS
+! ======== ===========
+! VAR# Identification code or number for a specific cultivar.
+! VAR-NAME Name of cultivar.
+! EXPNO Number of experiments used to estimate cultivar parameters
+! ECO# Ecotype code for this cultivar points to the Ecotype in the ECO
+! file (currently not used).
+! P1 Time period (expressed as growing degree days [GDD] in øC above
+! a base temperature of 9øC) from seedling emergence during which
+! the rice plant is not responsive to changes in photoperiod. This
+! period is also referred to as the basic vegetative phase of the
+! plant.
+! P2O Critical photoperiod or the longest day length (in hours) at
+! which the development occurs at a maximum rate. At values higher
+! than P2O developmental rate is slowed, hence there is delay due
+! to longer day lengths.
+! P2R Extent to which phasic development leading to panicle initiation
+! is delayed (expressed as GDD in øC) for each hour increase in
+! photoperiod above P2O.
+! P5 Time period in GDD øC) from beginning of grain filling (3 to
+! 4 days after flowering) to physiological maturity with a base
+! temperature of 9øC.
+! G1 Potential spikelet number coefficient as estimated from the
+! number of spikelets per g of main culm dry weight (less lead
+! blades and sheaths plus spikes) at anthesis. A typical value
+! is 55.
+! G2 Single grain weight (g) under ideal growing conditions, i.e.
+! nonlimiting light, water, nutrients, and absence of pests
+! and diseases.
+! G3 Tillering coefficient (scaler value) relative to IR64 cultivar
+! under ideal conditions. A higher tillering cultivar would have
+! coefficient greater than 1.0.
+! G4 Temperature tolerance coefficient. Usually 1.0 for varieties
+! grown in normal environments. G4 for japonica type rice growing
+! in a warmer environment would be 1.0 or greater. Likewise, the
+! G4 value for indica type rice in very cool environments or
+! season would be less than 1.0.
+!
+ at VAR# VAR-NAME........ EXPNO ECO# P1 P2R P5 P2O G1 G2 G3 G4
+! 1 2 3 4 5 6 7 8
+990001 IRRI ORIGINALS . IB0001 880.0 52.0 550.0 12.0 65.0 .0280 1.00 1.00
+990002 IRRI RECENT . IB0001 450.0 149.0 350.0 11.7 68.0 .0230 1.00 1.00
+990003 JAPANESE . IB0001 220.0 35.0 510.0 12.0 55.0 .0250 1.00 1.00
+990004 N.AMERICAN . IB0001 318.0 189.0 550.0 12.8 65.0 .0280 1.00 1.00
+!
+IB0001 IR 8 . IB0001 880.0 52.0 550.0 12.1 65.0 .0280 1.00 1.00
+IB0002 IR 20 . IB0001 500.0 166.0 500.0 11.2 65.0 .0280 1.00 1.00
+IB0003 IR 36 . IB0001 470.0 149.0 400.0 11.7 68.0 .0230 1.00 1.00
+IB0004 IR 43 . IB0001 720.0 120.0 580.0 10.5 65.0 .0280 1.00 1.00
+IB0005 LABELLE . IB0001 318.0 189.0 550.0 12.8 65.0 .0280 1.00 1.00
+IB0006 MARS . IB0001 698.0 134.0 550.0 13.0 65.0 .0280 1.00 1.00
+IB0007 NOVA 66 . IB0001 389.0 155.0 550.0 11.0 65.0 .0280 1.00 1.00
+IB0008 PETA . IB0001 420.0 240.0 550.0 11.3 65.0 .0280 1.00 1.00
+IB0009 STARBONNETT . IB0001 880.0 164.0 550.0 13.0 65.0 .0280 1.00 1.00
+IB0010 UPLRI5 . IB0001 620.0 160.0 380.0 11.5 50.0 .0220 0.60 1.00
+IB0011 UPLRI7 . IB0001 760.0 150.0 450.0 11.7 65.0 .0280 1.00 1.00
+IB0012 IR 58 . IB0001 460.0 5.0 420.0 13.5 65.0 .0250 1.00 1.00
+IB0013 SenTaNi (???) . IB0001 320.0 50.0 550.0 10.0 70.0 .0300 1.00 1.00
+IB0014 IR 54 . IB0001 350.0 125.0 520.0 11.5 60.0 .0280 1.00 1.00
+IB0015 IR 64 . IB0001 500.0 160.0 450.0 12.0 60.0 .0250 1.00 1.00
+IB0016 IR 60(Est) . IB0001 490.0 100.0 320.0 11.5 75.0 .0275 1.00 1.00
+IB0017 IR 66 . IB0001 500.0 50.0 490.0 12.5 62.0 .0265 1.00 1.00
+IB0018 IR 72x . IB0001 400.0 100.0 580.0 12.0 76.0 .0230 1.00 1.00
+IB0019 RD 7 (cal.) . IB0001 603.3 150.0 452.5 11.2 65.0 .0230 1.00 1.00
+IB0020 RD 23 (cal.) . IB0001 365.0 140.0 370.0 11.2 58.0 .0240 1.00 1.00
+IB0021 CICA8 . IB0001 700.0 120.0 360.0 11.7 60.0 .0270 1.00 1.00
+IB0022 LOW TEMP.SEN . IB0001 400.0 120.0 420.0 12.0 60.0 .0250 1.00 0.80
+IB0023 LOW TEMP.TOL . IB0001 400.0 120.0 420.0 12.0 60.0 .0250 1.00 1.25
+IB0024 17 BR11,T.AMAN . IB0001 740.0 180.0 400.0 10.5 55.0 .0250 1.00 0.90
+IB0025 18 BR22,T.AMAN . IB0001 650.0 110.0 400.0 12.0 60.0 .0250 1.00 1.00
+IB0026 19 BR 3,T.AMAN . IB0001 650.0 110.0 420.0 12.0 65.0 .0250 1.00 1.00
+IB0027 20 BR 3,BORO . IB0001 650.0 90.0 400.0 13.0 65.0 .0250 1.00 1.00
+IB0029 CPIC8 . IB0001 380.0 150.0 300.0 12.8 38.0 .0210 1.00 1.00
+IB0030 LEMONT . IB0001 500.0 50.0 300.0 12.8 60.0 .0207 1.00 1.00
+IB0031 RN12 . IB0001 380.0 50.0 300.0 12.8 40.0 .0199 1.00 1.15
+IB0032 TW . IB0001 360.0 50.0 290.0 12.8 55.0 .0210 1.00 1.00
+IB0115 IR 64* . IB0001 540.0 160.0 490.0 12.0 50.0 .0250 1.10 1.00
+IB0116 HEAT SENSITIVE . IB0001 460.0 5.0 390.0 13.5 62.0 .0250 1.00 1.15
+IB0117 BR14 . IB0001 560.0 200.0 500.0 11.5 45.0 .0260 1.00 1.00
+IB0118 IR 72 . IB0001 560.0 20.0 390.0 13.5 60.0 .0250 1.00 1.00
+IB0119 BR11 . IB0001 825.0 300.0 390.0 11.5 52.0 .0240 1.00 1.00
+IB0120 PANT-4 . IB0001 830.0 160.0 300.0 11.4 45.0 .0300 1.00 0.80
+IB0121 JAYA . IB0001 830.0 100.0 200.0 11.4 40.0 .0300 1.00 0.80
+IB0122 BPRI10 . IB0001 740.0 200.0 225.0 13.5 40.0 .0230 1.00 1.00
+IB0151 ZHENG DAO 9380 . IB0001 400.0 120.0 420.0 13.0 60.0 .0270 1.00 1.15
+IB0200 CL-448 . IB0001 100.0 120.0 250.0 12.0 40.0 .0250 1.00 1.25
+IB0050 PR114 . IB0001 650.0 200.0 520.0 12.0 59.0 .0250 1.00 1.00
+
+!chp added revised cultivars from ATTACHAI JINTRAWET (Thailand) - gave new name
+! starting with MC.
+! A low G3 value put more biomass to tillers, thru TILRAT and
+! TPANIWT variables, meaning that more STMWT is needed.
+MC0020 RD 23 . IB0001 310.3 140.0 370.0 11.2 53.0 .0230 0.30 1.00
+
+TR0001 KDML105 . IB0001 502.31233.0 386.5 12.7 45.7 .0270 1.00 0.95
+TR0002 NIEW SANPATONG . IB0001 495.81283.4 364.2 12.7 40.7 .0277 0.70 0.85
+TR0003 SUPANBURI 60 . IB0001 540.0 154.7 497.0 11.9 77.7 .0280 1.00 1.03
+TR0004 CHAINAT 1 . IB0001 570.0 122.8 334.8 11.9 63.1 .0278 1.00 1.00
+TR0005 DOA 1 . IB0001 388.5 20.0 381.8 12.0 73.8 .0275 1.10 1.15
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.SPE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.SPE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/RICER045.SPE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,13 @@
+*RICE SPECIES COEFFICIENTS: RICER045 MODEL
+
+*CHARACTERISTICS
+ at C X(EN) Y(CH) YSTD
+RI OPT SHME 1 ! Shock calculation method (1-standard, 2-Salaam)
+RI OPT SHFC 1.0 ! Shock factor
+RI OPT PHIN 83.0 ! Phyllochron interval
+RI OPT CO2X 0 220 330 440 550 660 770 880 990 9999 ! CO2 X axis
+RI OPT CO2Y 0.00 0.71 1.00 1.08 1.17 1.25 1.32 1.38 1.43 1.50 ! CO2 Y axis
+RI OPT RWEP 1.50
+RI OPT PORM 0.00 ! Minimum pore space
+RI OPT RWMX 0.03 ! Max root water uptake
+RI OPT RLWR 1.05 ! Root length weight ratio
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.CUL
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.CUL (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.CUL 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,131 @@
+*SOYBEAN GENOTYPE COEFFICIENTS: CRGRO045 MODEL
+!
+! COEFF DEFINITIONS
+! ===== ===========
+! VAR# Identification code or number for a specific cultivar.
+! VAR-NAME Name of cultivar
+! EXPNO Number of experiments used to estimate cultivar parameters
+! ECO# Code for the ecotype to which this cultivar belongs (see *.eco file)
+! CSDL Critical Short Day Length below which reproductive development
+! progresses with no daylength effect (for shortday plants) (hour)
+! PPSEN Slope of the relative response of development to photoperiod with time
+! (positive for shortday plants) (1/hour)
+! EM-FL Time between plant emergence and flower appearance (R1)
+! (photothermal days)
+! FL-SH Time between first flower and first pod (R3) (photothermal days)
+! FL-SD Time between first flower and first seed (R5) (photothermal days)
+! SD-PM Time between first seed (R5) and physiological maturity (R7)
+! (photothermal days)
+! FL-LF Time between first flower (R1) and end of leaf expansion
+! (photothermal days)
+! LFMAX Maximum leaf photosynthesis rate at 30 C, 350 vpm CO2, and high light
+! (mg CO2/m2-s)
+! SLAVR Specific leaf area of cultivar under standard growth conditions
+! (cm2/g)
+! SIZLF Maximum size of full leaf (three leaflets) (cm2)
+! XFRT Maximum fraction of daily growth that is partitioned to seed + shell
+! WTPSD Maximum weight per seed (g)
+! SFDUR Seed filling duration for pod cohort at standard growth conditions
+! (photothermal days)
+! SDPDV Average seed per pod under standard growing conditions (#/pod)
+! PODUR Time required for cultivar to reach final pod load under optimal
+! conditions (photothermal days)
+! THRSH Threshing percentage. The maximum ratio of (seed/(seed+shell))
+! at maturity. Causes seeds to stop growing as their dry weight
+! increases until shells are filled in a cohort.
+! SDPRO Fraction protein in seeds (g(protein)/g(seed))
+! SDLIP Fraction oil in seeds (g(oil)/g(seed))
+!
+ at VAR# VAR-NAME........ EXPNO ECO# CSDL PPSEN EM-FL FL-SH FL-SD SD-PM FL-LF LFMAX SLAVR SIZLF XFRT WTPSD SFDUR SDPDV PODUR THRSH SDPRO SDLIP
+! 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
+990011 M GROUP 000 . SB0001 14.60 0.129 15.5 5.0 12.0 29.50 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990012 M GROUP 00 . SB0001 14.35 0.148 16.0 5.0 12.0 30.00 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990013 M GROUP 0 . SB0001 14.10 0.171 16.8 6.0 13.0 30.80 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990001 M GROUP 1 . SB0101 13.84 0.203 17.0 6.0 13.0 31.60 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990002 M GROUP 2 . SB0201 13.59 0.249 17.4 6.0 13.5 32.40 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990003 M GROUP 3 . SB0301 13.40 0.285 19.0 6.0 14.0 33.20 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990004 M GROUP 4 . SB0401 13.09 0.294 19.4 7.0 15.0 34.00 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+990005 M GROUP 5 . SB0501 12.83 0.303 19.8 8.0 15.5 34.80 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+990006 M GROUP 6 . SB0601 12.58 0.311 20.2 9.0 16.0 35.60 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+990007 M GROUP 7 . SB0701 12.33 0.320 20.8 10.0 16.0 36.40 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+990008 M GROUP 8 . SB0801 12.07 0.330 21.5 10.0 16.0 37.20 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+990009 M GROUP 9 . SB0901 11.88 0.340 23.0 10.0 16.0 37.40 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+990010 M GROUP 10 . SB1001 11.78 0.349 23.5 10.0 16.0 37.40 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+!
+990015 M GROUP Savoy . SB0304 14.33 0.110 20.77 6.0 11.70 35.2 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 76.0 .405 .205
+990016 M GROUP Vinton . SB0305 14.16 0.173 22.57 6.0 12.08 34.2 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 76.0 .405 .205
+
+
+! KJB I DON'T KNOW ABOUT RELIABILITY OF UC CULTIVAR COEFFICIENTS, NEVER SAW ANY DATA.
+! VALUES FOR SD-PM FOR THESE 3 MG 00 CULTIVARS ARE HIGH, ALSO CONSISTENT WITH LAI DECLINING TO ZERO
+! LONG BEFORE THE SIMULATION. I SUSPECT THAT THE MATURITY DATE REPORTED IN FILE A, IS FOR R8, NOT R7 PHYSIOL. MATURITY
+! REST OF CULTIVARS, I HAVE SOME EXPERIENCE WITH. KJB
+UC0001 ALTONA (00) . SB0001 14.30 0.155 17.0 7.2 13.4 32.50 26.00 1.020 385. 190.0 1.00 0.19 19.0 2.20 11.5 77.0 .405 .205
+UC0002 MAPLE ARROW (00) . SB0001 14.30 0.155 17.0 6.9 12.8 33.40 26.00 1.040 385. 190.0 1.00 0.19 19.0 2.20 10.5 77.0 .405 .205
+UC0003 MCCALL (00) . SB0001 14.30 0.155 16.5 5.5 12.0 34.30 26.00 1.090 385. 200.0 1.00 0.19 21.0 2.20 10.5 77.0 .405 .205
+!UC0001 ALTONA (00) . SB0001 14.42 0.148 17.0 7.2 13.4 32.50 26.00 1.020 385. 190.0 1.00 0.19 17.0 2.20 11.5 77.0 .405 .205
+!UC0002 MAPLE ARROW (00) . SB0001 14.42 0.148 17.0 6.9 12.8 33.40 26.00 1.040 385. 190.0 1.00 0.19 17.0 2.20 10.5 77.0 .405 .205
+!UC0003 MCCALL (00) . SB0001 14.42 0.148 16.5 5.5 12.0 34.30 26.00 1.090 385. 200.0 1.00 0.19 19.0 2.20 10.5 77.0 .405 .205
+IB0011 EVANS (0) . SB0001 14.10 0.171 16.8 7.8 13.8 30.00 26.00 1.020 400. 180.0 1.00 0.18 24.0 2.20 11.5 77.0 .405 .205
+!IB0011 EVANS (0) . SB0001 14.10 0.171 16.8 7.5 13.5 30.30 26.00 1.020 400. 180.0 1.00 0.18 24.0 2.20 10.5 77.0 .405 .205
+IB0037 ELGIN-87 (2)-new . SB0201 13.59 0.249 17.0 8.9 13.0 35.80 30.00 1.090 395. 180.0 1.00 0.175 24.5 2.20 11.5 77.0 .405 .205
+!IB0037 ELGIN-87 (2)-newCCCC . SB0201 13.59 0.249 17.0 8.8 13.0 35.70 28.00 1.080 390. 180.0 1.00 0.175 24.5 2.20 11.0 77.0 .405 .205
+!IB0037 ELGIN-87 (2)-old . SB0201 13.59 0.249 17.0 8.2 13.0 35.70 28.00 1.100 390. 180.0 1.00 0.187 24.5 2.20 10.0 77.0 .405 .205
+IB0003 WAYNE (3)-new . SB0301 13.45 0.255 19.5 8.0 14.7 26.70 28.00 1.000 375. 180.0 1.00 0.180 23.0 2.20 12.0 77.0 .405 .205
+IB0010 WILLIAMS-82 (3)-new . SB0301 13.40 0.285 19.0 8.3 14.2 32.20 28.00 0.99 385. 180.0 1.00 0.180 26.0 2.40 12.0 77.0 .405 .205
+!IB0003 WAYNE (3) old . SB0301 13.45 0.245 19.5 7.8 14.3 27.00 26.00 1.000 380. 180.0 1.00 0.180 22.0 2.20 12.0 77.0 .405 .205
+!IB0010 WILLIAMS-82 (3)old . SB0301 13.40 0.285 19.0 8.2 13.8 33.20 28.00 1.000 390. 180.0 1.00 0.195 25.5 2.40 10.5 77.0 .405 .205
+IB0001 BRAGG latest . SB0701 12.33 0.320 19.5 10.0 15.2 37.60 19.00 1.000 355. 170.0 1.00 0.170 24.0 2.00 10.0 78.0 .400 .200
+!IB0001 BRAGG (7) . SB0701 12.33 0.320 19.5 10.0 15.2 37.60 19.00 1.000 355. 170.0 1.00 0.170 24.0 2.00 10.0 78.0 .400 .200
+IB0101 BRAGG (7)* . SB0701 12.33 0.320 19.5 10.0 15.2 37.60 19.00 1.000 355. 170.0 1.00 0.170 25.0 2.00 10.0 78.0 .400 .200
+IB0002 COBB (8)-new . SB0801 12.25 0.330 21.0 9.4 16.0 37.20 19.00 1.030 370. 190.0 1.00 0.155 23.5 1.90 10.0 78.0 .400 .200
+!IB0002 COBB (8)-old . SB0801 12.25 0.330 21.0 9.2 16.0 37.20 18.00 1.030 375. 190.0 1.00 0.158 23.0 1.90 10.0 78.0 .400 .200
+IB0014 CENTENNIAL(6) . SB0601 12.48 0.311 20.0 9.0 15.5 34.50 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+IB0015 ESSEX (5) . SB0501 12.83 0.303 19.8 8.5 15.5 35.00 18.00 1.030 375. 180.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+IB0008 FORREST (5) . SB0501 12.82 0.303 21.1 8.8 15.2 35.20 18.00 1.030 355. 140.0 1.00 0.18 23.0 2.05 9.0 78.0 .400 .200
+IB0006 RANSOM (7) . SB0702 12.38 0.320 18.4 9.0 14.2 33.50 18.00 1.030 355. 170.0 1.00 0.170 22.5 2.05 10.0 78.0 .420 .200
+IB0013 LEFLORE (6) NEW . SB0601 12.55 0.312 19.6 8.4 16.0 37.30 18.00 1.030 375. 180.0 1.00 .175 23.0 2.05 10.5 78.0 .400 .200
+!IB0013 LEFLORE (6) . SB0601 12.55 0.312 19.6 8.4 15.8 37.50 18.00 1.030 375. 180.0 1.00 .180 23.0 2.05 10.0 78.0 .400 .200
+IB0044 COKER 6847 (7) NEW . SB0701 12.35 0.319 20.1 9.0 14.8 36.50 18.00 1.030 345. 180.0 1.00 .170 23.0 2.05 10.0 78.0 .400 .200
+!IB0044 COKER 6847 (7) . SB0701 12.35 0.319 20.1 9.0 14.8 36.50 18.00 1.030 345. 180.0 1.00 .175 23.0 2.05 10.0 78.0 .400 .200
+! CLARK, PAPILLON, JUPITER, PK-472 ARE CARRY-OVERS FROM STUDIES NOT SHOWN HERE, NOT MODIFIED OR TESTED FOR V4.0.
+IB0012 JUPITER (10) . SB0901 11.88 0.340 28.9 7.0 13.5 31.50 15.00 1.030 375. 180.0 1.00 0.18 22.0 2.05 10.0 78.0 .400 .200
+IB0043 CLARK (4) . SB0501 12.83 0.303 18.0 9.0 15.0 32.00 26.00 1.030 390. 200.0 1.00 0.19 20.0 2.10 12.0 78.0 .400 .200
+IB0033 PAPILLON (9) . SB0901 11.88 0.340 28.0 6.0 11.0 30.00 15.00 1.030 375. 180.0 1.00 0.18 22.0 2.05 10.0 78.0 .400 .200
+IB0051 PK-472 (8) . SB0801 12.07 0.330 21.5 8.0 16.0 36.00 18.00 1.030 300. 180.0 1.00 0.18 23.0 2.05 8.0 78.0 .400 .200
+IB0055 Hutcheson . SB0501 12.58 0.311 22.0 8.0 15.5 35.00 18.00 1.050 400. 230.0 1.00 0.18 23.0 2.05 10.0 78.0 .400 .200
+! Envirotron/2002 Experiment; coefficients based on Georgia variety trials
+!LUGO, SPAIN FROM F. SAU STUDY
+LU0003 CHAND. 0 NEW . SB0000 13.70 0.171 18.6 6.60 12.3 33.00 30.00 1.050 387. 200.0 1.00 .185 25.0 2.01 11.50 77.0 .405 .205
+!LU0003 CHAND. 0 NEW . SB0000 13.70 0.171 18.6 6.60 12.3 33.00 30.00 1.050 387. 200.0 1.00 .174 25.0 2.01 11.50 77.0 .405 .205
+LU0004 LABR. 00 NEW . SB0100 14.00 .1480 16.60 7.00 13.20 36.80 34.80 1.080 397.0 200.0 1.000 .1530 25.00 2.030 11.20 77.0 .405 .205
+!LU0004 LABR. 00 NEW . SB0100 14.00 .1480 16.60 7.00 13.20 36.80 34.80 1.050 397.0 200.0 1.000 .1530 25.00 2.030 11.20 77.0 .405 .205
+LU0005 MAJ. 000 NEW . SB1000 14.20 .1290 17.00 6.20 11.0 34.60 32.00 1.050 395.0 200.0 1.000 .1780 25.00 1.970 12.00 77.0 .405 .205
+! FROM IOWA YIELDS PROJECT STUDY
+ST3660 STIN3660 MG 3.6 . SB0301 13.44 0.284 18.8 7.0 11.0 37.60 26.00 1.070 370. 180.0 1.00 0.165 25.0 2.20 8.0 77.0 .405 .205
+KR2828 KRUG2828 MG 2.7 . SB0201 13.50 0.258 17.4 7.0 12.0 37.70 26.00 1.080 370. 180.0 1.00 0.165 24.5 2.20 8.0 77.0 .405 .205
+!ST3660 STIN3660 MG 3.6 . SB0301 13.44 0.284 18.8 7.0 11.0 37.60 26.00 1.080 370. 180.0 1.00 0.170 25.0 2.20 8.0 77.0 .405 .205
+!KR2828 KRUG2828 MG 2.7 . SB0201 13.50 0.258 17.4 7.0 12.0 37.70 26.00 1.080 370. 180.0 1.00 0.170 24.5 2.20 8.0 77.0 .405 .205
+! KBS-LTER Experiment. So far no experimental data for verification.
+MS0077 PIO9272 (00) . SB0001 13.40 0.280 20.0 9.0 16.0 30.00 30.00 1.030 390. 200.0 1.00 0.18 22.0 2.05 10.0 77.0 .405 .205
+MS0078 PIO9202 (00) . SB0001 14.35 0.148 16.0 5.0 15.0 30.00 30.00 1.022 350. 180.0 1.00 0.18 22.0 2.05 10.0 77.0 .405 .205
+MS0079 MS MAT GROUP 2 . SB0201 13.59 0.249 17.4 6.0 13.5 32.40 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+
+ISU113 KENWOOD TEMPPAP . SB0201 13.59 0.249 17.0 6.5 13.5 33.50 26.00 1.050 375. 180.0 1.00 0.19 22.0 2.44 10.0 77.0 .405 .205
+
+!Vietnam
+IB0057 AK 06 . SB0801 12.15 0.200 21.0 6.0 12.0 26.00 20.00 1.030 385 137.0 1.00 0.155 22.0 2.20 13.0 78.0 .400 .200
+IB0058 SAMRAT . SB0801 12.20 0.220 16.5 7.0 12.5 25.00 18.00 1.030 400 150.0 1.00 0.155 23.0 1.70 7.5 78.0 .400 .200
+IB0059 MAUS 47 . SB0801 12.20 0.385 17.0 6.0 12.5 25.00 18.00 1.030 400 180.0 1.00 0.155 23.0 1.70 7.5 78.0 .400 .200
+
+CCCA01 SAMIRA 1 . SB0401 13.09 0.294 19.4 7.0 15.0 34.50 26.00 1.030 375. 180.0 1.00 0.190 23.0 2.20 10.0 77.0 .405 .205
+
+!VAR# VRNAME.......... ECO# CSDL PPSEN EM-FL FL-SH FL-SD SD-PM FL-LF LFMAX SLAVR SIZLF XFRT WTPSD SFDUR SDPDV PODUR
+
+!90004 M GROUP 4 . SB0401 13.09 0.294 19.4 7.0 15.0 34.00 26.00 1.030 375. 180.0 1.00 0.19 23.0 2.20 10.0 77.0 .405 .205
+! Next two cultivars calibrated by K. Boote, Feb 17, 2007, with modified species file using
+! Tb from 8 to 6C for Ps, Tmin 0/19 to -2/17C effect on Ps, and Tb for podset changed from 14 to 10C.
+IB0045 DON MARIO (4) . SB0501 12.95 0.294 15.0 9.7 19.4 35.10 26.00 1.200 390. 200.0 1.00 0.19 21.0 2.10 16.0 78.0 .400 .200
+IB0056 ASGROW (4) . SB0401 13.20 0.294 12.5 8.5 15.0 28.00 26.00 1.250 400. 200.0 1.00 0.19 21.0 2.10 12.0 77.0 .405 .205
+!IB0045 DON MARIO (4) . SB0501 12.83 0.303 13.0 9.0 22.0 30.00 26.00 1.400 390. 200.0 1.00 0.19 20.0 2.10 16.0 78.0 .400 .200
+!IB0056 ASGROW (4) . SB0501 12.83 0.303 9.0 7.0 12.0 22.00 26.00 1.400 390. 200.0 1.00 0.19 20.0 2.10 12.0 78.0 .400 .200
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.ECO
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.ECO (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.ECO 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,75 @@
+*SOYBEAN ECOTYPE COEFFICIENTS: CRGRO045 MODEL
+!
+! COEFF DEFINITIONS
+! ===== ===========
+! ECO# Code for the ecotype to which a cultivar belongs (see *.cul
+! file)
+! ECONAME Name of the ecotype, which is referenced from *.CUL file
+! MG Maturity group number for this ecotype, such as maturity
+! group in soybean
+! TM Indicator of temperature adaptation
+! THVAR Minimum rate of reproductive development under long days
+! and optimal temperature
+! PL-EM Time between planting and emergence (V0) (thermal days)
+! EM-V1 Time required from emergence to first true leaf (V1), thermal
+! days
+! V1-JU Time required from first true leaf to end of juvenile phase,
+! thermal days
+! JU-R0 Time required for floral induction, equal to the minimum
+! number of days for floral induction under optimal temperature and
+! daylengths, photothermal days
+! PM06 Proportion of time between first flower and first pod for
+! first peg (peanut only)
+! PM09 Proportion of time between first seed and physiological
+! maturity that the last seed can be formed
+! LNGSH Time required for growth of individual shells (photothermal
+! days)
+! R7-R8 Time between physiological (R7) and harvest maturity (R8) (days)
+! FL-VS Time from first flower to last leaf on main stem (photothermal
+! days)
+! TRIFL Rate of appearance of leaves on the mainstem (leaves per
+! thermal day)
+! RWDTH Relative width of this ecotype in comparison to the standard
+! width per node (YVSWH) defined in the species file (*.SPE)
+! RHGHT Relative height of this ecotype in comparison to the
+! standard height per node (YVSHT) defined in the species file
+! (*.SPE)
+! R1PPO Increase in daylength sensitivity after R1 (CSDVAR and CLDVAR
+! both decrease with the same amount) (h)
+! OPTBI Minimum daily temperature above which there is no effect on
+! slowing normal development toward flowering (oC)
+! SLOBI Slope of relationship reducing progress toward flowering if
+! TMIN for the day is less than OPTBI
+!
+ at ECO# ECONAME.......... MG TM THVAR PL-EM EM-V1 V1-JU JU-R0 PM06 PM09 LNGSH R7-R8 FL-VS TRIFL RWDTH RHGHT R1PPO OPTBI SLOBI
+! 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
+DETERM DETERMINATE TYPE 07 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .504 20.0 .035
+INDETE INDETERMINATE 03 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .324 18.0 .028
+SB1000 MATURITY GP 000 00 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 25.00 0.32 1.0 1.0 .189 18.0 .028
+SB0100 MATURITY GP 00 00 02 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 29.00 0.32 1.0 1.0 .189 18.0 .028
+SB0000 MATURITY GROUP 0 00 03 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 29.00 0.32 1.0 1.0 .189 18.0 .028
+SB0001 MATURITY GROUP 0 00 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .189 18.0 .028
+SB0101 MATURITY GROUP 1 01 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .234 18.0 .028
+SB0113 MATURITY GROUP 1 01 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .234 18.0 .028
+SB0115 MATURITY GROUP 1 01 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .234 18.0 .028
+SB0116 MATURITY GROUP 1 01 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .234 18.0 .028
+SB0201 MATURITY GROUP 2 02 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .279 18.0 .028
+SB0211 MATURITY GROUP 2 02 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .279 18.0 .028
+SB0212 MATURITY GROUP 2 02 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .279 18.0 .028
+SB0214 MATURITY GROUP 2 02 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .279 18.0 .028
+SB0301 MATURITY GROUP 3 03 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .324 18.0 .028
+SB0302 MATURITY GROUP 3 03 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 24.00 0.33 1.0 1.0 .324 18.0 .028
+SB0303 MATURITY GROUP 3 03 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.33 1.0 1.0 .324 18.0 .028
+SB0401 MATURITY GROUP 4 04 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .369 20.0 .035
+SB0501 MATURITY GROUP 5 05 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .414 20.0 .035
+SB0601 MATURITY GROUP 6 06 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .459 20.0 .035
+SB0701 MATURITY GROUP 7 07 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .504 20.0 .035
+SB0702 MATURITY GROUP 7 07 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .504 20.0 .035
+SB0801 MATURITY GROUP 8 08 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .549 20.0 .035
+SB0901 MATURITY GROUP 9 09 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .549 20.0 .035
+SB1001 MATURITY GROUP 10 10 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .549 20.0 .035
+DFAULT DEFAULT TYPE 07 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 9.00 0.32 1.0 0.9 .504 20.0 .035
+SB0304 MATURITY GROUP 3 03 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .100 18.0 .028
+SB0305 MATURITY GROUP 3 03 01 0.0 3.6 6.0 0.0 05.0 0.0 0.35 10.0 12.0 26.00 0.32 1.0 1.0 .166 18.0 .028
+
+!
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.SPE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.SPE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SBGRO045.SPE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,195 @@
+*SOYBEAN SPECIES COEFFICIENTS: CRGRO045 MODEL
+
+!*PHOTOSYNTHESIS PARAMETERS
+ 40.00 61.00 0.67 0.10 PARMAX,PHTMAX,KCAN, KC_SLOPE
+! 40.00 61.00 0.68 0.10 PARMAX,PHTMAX,KCAN, KC_SLOPE
+!Note: Kcan can be overridden by value in Ecotype file, if present
+!Kc_slope is the slope of Kcan with ratio of Rowsp:PlantSp (see DEMAND subroutine).
+!Kc_slope is optional, default value is 0.10.
+ 79.0 2.08 .0106 CCMP,CCMAX,CCEFF; CO2 EFFECT ON PGCAN
+! 80.0 2.09 .0105 CCMP,CCMAX,CCEFF; CO2 EFFECT ON PGCAN
+ 1.90 5.50 20.0 20.0 QDR FNPGN(4),TYPPGN-LEAF N EFFECT ON PG
+ 6.00 22.0 34.0 45.0 LIN FNPGT(4),TYPPGT-TEMP EFFECT-CANOPY PG
+! 3.00 22.0 34.0 45.0 LIN FNPGT(4),TYPPGT-TEMP EFFECT-CANOPY PG
+ 0.0 8.0 40.0 44.0 48.0 55.0 XLMAXT (6 VALUES)
+ 0.0 0.0 1.0 0.8 0.0 0.0 YLMAXT (6 VALUES)
+ 0.00 19.00 50.0 60.0 QDR FNPGL(4),TYPPGL-TMIN EFFECT-LEAF PG
+ .0541 0.20 0.80 2.0 PGEFF SCV KDIF, LFANGB
+! .0035 .0004 .3000 4.90 1.030 SLWREF,SLWSLO,NSLOPE,LNREF,PGREF
+ .0036 .0004 .3000 4.90 1.030 SLWREF,SLWSLO,NSLOPE,LNREF,PGREF
+
+ 0.0 .001 .002 .003 .0035 .004 .005 .006 .008 .010 XPGSLW(1-10)
+ .162 .679 .867 .966 1.000 1.027 1.069 1.100 1.141 1.167 YPGSLW(1-10)
+
+!*RESPIRATION PARAMETERS
+ 3.5E-04 .0040 RES30C,R30C2
+ 2.556 2.556 .360 2.830 RNO3C,RNH4C,RPRO,RFIXN
+ 1.242 3.106 2.174 .929 0.05 1.13 RCH20,RLIP,RLIG,ROA,RMIN,PCH2O
+
+!*PLANT COMPOSITION VALUES
+
+! .356 .285 .112 .165 .110 .035 PROLFI,PROLFG,PROLFF,PROSTI,PROSTG,PROSTF
+ .356 .285 .112 .150 .100 .035 PROLFI,PROLFG,PROLFF,PROSTI,PROSTG,PROSTF
+ .092 .064 .056 .250 .196 .050 PRORTI,PRORTG,PRORTF,PROSHI,PROSHG,PROSHF
+ .400 .400 .300 .030 .080 .800 SDPROS,SDPROG,PRONOD,PROMIN,PROMAX,THETA
+! .405 .649 .711 .380 .315 .480 PCARLF,PCARST,PCARRT,PCARSH,PCARSD,PCARNO
+ .405 .664 .711 .380 .315 .480 PCARLF,PCARST,PCARRT,PCARSH,PCARSD,PCARNO
+ .025 .020 .020 .020 .050 PLIPLF,PLIPST,PLIPRT,PLIPSH,PLIPNO
+ .070 .070 .070 .280 .020 .070 PLIGLF,PLIGST,PLIGRT,PLIGSH,PLIGSD,PLIGNO
+ .050 .050 .050 .040 .040 .050 POALF,POAST,POART,POASH,POASD,POANO
+ .094 .046 .057 .030 .025 .050 PMINLF,PMINST,PMINRT,PMINSH,PMINSD,PMINNO
+
+
+!*SEED COMPOSITION VALUES
+ 7.168 23.65 0.908 0.180 LIPTB,LIPOPT,SLOSUM*100,CARMIN
+
+!*CARBON AND NITROGEN MINING PARAMETERS
+ 0.024 0.75 .260 .090 0.35 0.15 CMOBMX,CADSTF,CADPR1,NMOBMX,NVSMOB,NRCVR
+! 0.025 0.75 .260 .090 0.35 0.15 CMOBMX,CADSTF,CADPR1,NMOBMX,NVSMOB,NRCVR
+ SD XPODF
+ 0.04 0.08 0.04 0.08 ALPHL,ALPHS,ALPHR,ALPHSH
+
+!*NITROGEN FIXATION PARAMETERS
+ .045 .170 .014 0.0 0.07 0.05 SNACTM,NODRGM,DWNODI,TTFIX,NDTHMX,CNODCR
+ 7.00 22.0 35.0 44.0 LIN FNNGT(4),TYPNGT-TEMP EFF ON NOD GROWTH
+ 5.00 20.0 35.0 44.0 LIN FNFXT(4),TYPFXT-TEMP EFF ON N FIX
+ 0.00 0.85 1.00 10.0 LIN FNFXD(4),TYPFXD-REL SW-DRY EFF ON N FIX
+ -.02 .001 1.00 2.00 LIN FNFXW(4),TYPFXW-REL SW-WET EFF ON N FIX
+ 0.00 0.10 1.00 0.00 INL FNFXA(4),TYPFXA-AGE EFF ON N FIX
+
+!*VEGETATIVE PARTITIONING PARAMETERS
+ 0.0 1.5 3.3 5.0 7.8 10.5 30.0 40.0 XLEAF VALUES
+ 0.41 0.42 0.42 0.41 0.36 0.32 0.31 0.31 YLEAF VALUES
+ 0.09 0.13 0.21 0.29 0.37 0.49 0.49 0.49 YSTEM VALUES
+ 0.55 0.58 0.55 0.24 1.00 0.05 WTFSD,PORPT,FRSTMF,FRLFF,ATOP,FRCNOD
+ 0.70 FRLFMX
+
+!*LEAF GROWTH PARAMETERS
+! 280. 350. 171.4 5.0 0.0 FINREF,SLAREF,SIZREF,VSSINK,EVMODC
+ 180. 350. 171.4 5.0 0.0 FINREF,SLAREF,SIZREF,VSSINK,EVMODC
+ 950. 250.0 -.048 1.50 SLAMAX,SLAMIN,SLAPAR,TURSLA
+
+ 0.0 1.0 2.0 3.0 4.0 5.0 XVGROW(1-6), VSTAGE VALUES
+ 0.0 20.0 55.0 110.0 200.0 320.0 YVREF(1-6), LEAF AREA VALUES,CM2
+ -50.0 00.0 12.0 22.0 60.0 XSLATM(1-5),TEMP VALUES
+ 0.25 0.25 0.25 1.00 1.0 YSLATM(1-5),EFFECT ON SLA
+
+!*LEAF SENESCENCE FACTORS
+ 0.80 0.20 0.06 -2.22 -5.00 SENRTE,SENRT2,SENDAY,FREEZ1,FREEZ2
+! 0.80 0.20 0.06 -2.22 -5.00 SENRTE,SENRT2,SENDAY,FREEZ1,FREEZ2
+ 0.80 10.0 ICMP,TCMP(Light comp, time constant-senes)
+
+! .......XSTAGE......... .......XSENMX.........
+ 0.0 5.0 14.0 30.0 3.0 5.0 10.0 30.0
+! .......SENPOR......... .......SENMAX.........
+ 0.0 0.0 0.12 0.12 0.0 0.2 0.6 0.6
+
+!*ROOT PARAMETERS
+ 20.0 7500. 0.020 0.1 .015 1.50 0.04 RTDEPI,RFAC1,RTSEN,RLDSM,RTSDF,RWUEP1,RWUMX
+! 25.0 7500. 0.020 0.1 .015 1.50 0.04 RTDEPI,RFAC1,RTSEN,RLDSM,RTSDF,RWUEP1,RWUMX
+ 0.0 2.50 3.0 2.50 6.0 2.60 30.0 2.60 XRTFAC,YRTFAC
+! 0.0 2.50 3.0 2.50 6.0 2.50 30.0 2.50 XRTFAC,YRTFAC
+ 0.006 0.006 0.02 0.10 RTNO3,RTNH4,PORMIN,RTEXF
+
+!*SEED AND SHELL GROWTH PARAMETERS
+ 0.60 0.3 0.00 100. SETMAX,SRMAX,RFLWAB,XMPAGE
+ 15.0 0.0 0.0 DSWBAR,XFRMAX,SHLAG
+ 14.0 21.0 26.5 40.0 QDR FNPDT(1-4),TYPPDT-TEMP EFFECT ON POD SET
+ 6.0 21.0 23.5 41.0 QDR FNSDT(1-4),TYPSDT-TEMP EFFECT ON SD GRWTH
+ 0.00 5.00 20.00 35.00 45.00 60.00 XXFTEM(1-6),TEMPERATURES
+ 1.00 1.00 1.00 1.00 0.00 0.00 YXFTEM(1-6),REL CHG IN PARTIT
+ 0.00 0.50 1.00 1.00 XSWFAC(1-4)
+ 0.00 1.00 1.00 1.00 YSWFAC(1-4)
+ 0.00 0.01 0.25 1.00 1.00 XSWBAR(1-5),REL WATER TOPSOIL
+ 1.00 1.00 1.00 1.00 1.00 YSWBAR(1-5),EFFECT ON PNUT PEGGING
+ 0.00 0.50 0.75 1.00 XTRFAC(1-4),TURFAC
+ 0.00 0.00 0.00 0.00 YTRFAC(1-4),ENHANCE REPROD. GROWTH
+
+!*POD LOSS PARAMETERS
+ N 6.0 .3961 -.865 1.00 0.00 DETACH,DWC,PR1DET,PR2DET,XP1DET,XP2DET
+
+!*PHENOLOGY PARAMETERS
+! TB TO1 TO2 TM I
+ 7.0 28.0 35.0 45.0 1 VEGETATIVE DEVELOPMENT
+ 6.0 26.0 30.0 45.0 2 EARLY REPRODUCTIVE DEVELOPMENT
+ -15.0 26.0 34.0 45.0 3 LATE REPRODUCTIVE DEVELOPMENT
+
+!FOLLOWING LINE: STAGE; REF STAGE; PHOTOPERIOD FUNCTION; TEMPERATURE FUNCT;
+!POINTER TO VEGD(1) OR REPDA(2) OR REPDB(3) TEMP SENS; SENS TO WATER;N; AND P
+ 1 1 NON LIN 1 -0.20 0.00 0.00 PLANT(STG 1) TO EMERG(STG 2) PHASE
+ 2 2 NON LIN 1 -0.20 0.00 0.00 EMERG(STG 2) TO V1(STG 3) PHASE
+ 3 2 NON LIN 1 -0.40 0.00 0.00 EMERG(STG 2) TO END JV(STG 4) PHASE
+ 4 4 INL LIN 2 -0.40 0.00 0.00 END JV(STG 4) TO FL IND(STG 5) PHASE
+ 5 5 INL LIN 2 -0.40 0.00 0.00 FL IND(STG 5) TO 1ST FL(STG 6) PHASE
+ 6 6 INL LIN 2 -0.40 0.00 0.00 1ST FL(STG 6) TO 1ST PEG(STG 7) PHASE
+ 7 6 INL LIN 2 -0.40 0.00 0.00 1ST FL(STG 6) TO 1ST POD(STG 8) PHASE
+ 8 6 INL LIN 2 -0.40 0.00 0.00 1ST FL(STG 6) TO 1ST SD(STG 9) PHASE
+ 9 9 INL LIN 3 0.70 0.40 0.00 1ST SD(STG 9) TO LST SD(STG 10) PHASE
+ 10 9 INL LIN 3 0.70 0.40 0.00 1ST SD(STG 9) TO PH MAT(STG 11) PHASE
+! 9 9 INL LIN 3 0.20 0.40 0.00 1ST SD(STG 9) TO LST SD(STG 10) PHASE
+!10 9 INL LIN 3 0.20 0.40 0.00 1ST SD(STG 9) TO PH MAT(STG 11) PHASE
+ 11 11 NON NON 1 0.00 0.00 0.00 PH MAT(STG 11) TO H-MAT(STG 12) PHASE
+ 12 6 INL LIN 2 -0.60 0.00 0.00 1ST FL(STG 6) TO LST VST(STG 13) PHASE
+ 13 6 INL LIN 2 -0.90 0.00 0.00 1ST FL(STG 6) TO LST LF(STG 14) PHASE
+
+!*CANOPY HEIGHT AND WIDTH GROWTH PARAMETERS
+
+! VSTAGE, FOLLOWED BY INTERNODE LENGTH PER NODE, THEN CANOPY WIDTH PER NODE
+! 0.00 1.00 4.00 6.00 8.00 10.00 14.00 16.00 20.00 40.00 XVSHT(1-10)
+! .0300 .0530 .0640 .0670 .0710 .0680 .0640 .0520 .0360 .0060 YVSHT(1-10)
+! .0300 .0510 .0630 .0650 .0680 .0650 .0610 .0460 .0250 .0010 YVSWH(1-10)
+ 0.00 1.00 4.00 6.00 8.00 10.00 14.00 16.00 20.00 40.00 XVSHT(1-10)
+ .0300 .0530 .0630 .0660 .0690 .0660 .0620 .0510 .0340 .0060 YVSHT(1-10)
+ .0300 .0510 .0620 .0640 .0660 .0630 .0590 .0460 .0250 .0010 YVSWH(1-10)
+
+ -50.0 00.0 15.0 26.0 60.0 XHWTEM(1-5),TEMPERATURES
+ 0.40 0.40 0.50 1.00 1.00 YHWTEM(1-5),RELATIVE EXPAN
+ 0.00 5.00 7.50 10.00 15.00 20.00 30.00 80.00 XHWPAR(1-8),PAR VALUES
+ 4.00 2.00 1.50 1.25 1.05 1.00 1.00 1.00 YHWPAR(1-8),RELATIVE EXPAN
+
+!*EVAPOTRANSPIRATION
+ 0.68 1.1 KEP, EORATIO
+! 0.72 1.1 KEP, EORATIO
+
+*PHOSPHORUS CONTENT
+! Two options for Optimum and minimum P concentrations for shoots:
+! (1) supply values for shoots (leaf plus stem)
+! (2) supply values individually for leaf and for stem
+! If positive values for shoots are supplied, any values supplied for leaf and
+! stem will be ignored.
+ -99.0 -99.0 -99.0 Optimum Shoot Conc (emergence, 1st flower, full seed)
+ 0.0030 0.0025 0.0015 Optimum Leaf Conc (emergence, 1st flower, full seed)
+ 0.0020 0.0016 0.0010 Optimum Stem Conc (emergence, 1st flower, full seed)
+ 0.0014 0.0012 0.0005 Optimum Root Conc (emergence, 1st flower, full seed)
+ -99.0 0.0040 0.0005 Optimum Shell Conc (emergence, 1st flower, full seed)
+ -99.0 0.0045 0.0040 Optimum Seed Conc (emergence, 1st flower, full seed)
+
+ -99.0 -99.0 -99.0 Minimum Shoot Conc (emergence, 1st flower, full seed)
+ 0.0020 0.0015 0.0010 Minimum Leaf Conc (emergence, 1st flower, full seed)
+ 0.0003 0.0003 0.0003 Minimum Stem Conc (emergence, 1st flower, full seed)
+ 0.0003 0.0003 0.0003 Minimum Root Conc (emergence, 1st flower, full seed)
+ -99.0 0.0003 0.0003 Minimum Shell Conc (emergence, 1st flower, full seed)
+ -99.0 0.0030 0.0030 Minimum Seed Conc (emergence, 1st flower, full seed)
+
+ 50.0 20.0 10.0 Maximum Veg N:P ratio (emergence, 1st flower, full seed)
+ 5.0 5.0 1.0 Minimum Veg N:P ratio (emergence, 1st flower, full seed)
+
+ 0.80 1.00 SRATPHOTO, SRATPART
+ 0.20 FracPMobil - max fraction of P which can be mobilized from leaf & stem / day
+ 0.0020 ROOTRAD - radius of cylinder around roots from which soil P can be extracted (m)
+
+*NITROGEN STRESS PARAMETERS
+ 0.70 1.00 NSTR_FAC, NSTR_EXP !Operate on NSTRES (VEGGR 235)
+ 1.00 NRAT_FAC !Operate on NRATIO (VEGGR 297)
+! 0.10 0.50 EXCS_FAC, EXCS_EXP !Operate on EXCESS (VEGGR 366)
+ 0.20 0.50 EXCS_FAC, EXCS_EXP !Operate on EXCESS (VEGGR 366)
+
+! 0.70 1.00 NSTR_FAC, NSTR_EXP !Operate on NSTRES (VEGGR 235)
+! 0.80 NRAT_FAC !Operate on NRATIO (VEGGR 297)
+! 0.10 0.30 EXCS_FAC, EXCS_EXP !Operate on EXCESS (VEGGR 366)
+
+!! DEFAULT VALUES:
+! 0.70 1.00 NSTR_FAC, NSTR_EXP !Operate on NSTRES (VEGGR 235)
+! 1.00 NRAT_FAC !Operate on NRATIO (VEGGR 297)
+! 0.20 0.50 EXCS_FAC, EXCS_EXP !Operate on EXCESS (VEGGR 366)
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SIMULATION.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SIMULATION.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SIMULATION.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,173 @@
+*Codes for Simulations Options
+! DSSAT v4.5; 09/30/2010
+!
+! Codes currently used for simulation options for the DSSAT crop simulation
+! models.
+
+*Start Simulation
+ at CDE DESCRIPTION SO
+E On reported emergence date IB
+I When initial conditions measured IB
+P On reported planting date IB
+S On specified date IB
+
+*Simulation/Options/Water
+ at CDE DESCRIPTION SO
+Y Yes IB
+N No IB
+
+*Simulation/Options/Symbiosis
+ at CDE DESCRIPTION SO
+Y Yes IB
+N No IB
+U Unlimited N IB
+
+*Simulation/Options/CO2
+ at CDE DESCRIPTION
+W Read from weather file
+M Actual CO2; Mauna Loa, Hawaii (Keeling curve)
+D Use default value (380 vpm)
+
+*Simulation/Methods/Weather
+ at CDE DESCRIPTION SO
+M Measured data IB
+G Generated(WTG files) IB
+W Simulated internal(WGEN) IB
+S Simulated(SIMMETEO) IB
+
+*Simulation/Methods/Initial Soil Conditions
+ at CDE DESCRIPTION SO
+M As reported IB
+S Simulated output from previous model run IB
+
+*Simulation/Methods/Evapotransportation
+ at CDE DESCRIPTION SO
+F FAO-56 IB
+!D Dynamic Penman-Monteith IB
+!P FAO-24/(old Penman) IB
+R Priestley-Taylor/Ritchie IB
+!Z Hourly energy bal. method IB
+
+*Simulation/Methods/Infiltration
+ at CDE DESCRIPTION SO
+R Ritchie method IB
+S Soil Conservation Service IB
+N No mulch effects IB
+
+*Simulation/Methods/Photosynthesis
+ at CDE DESCRIPTION SO
+C Canopy curve (daily) IB
+R Radiation efficiency IB
+L Leaf photosynthesis response curve (hourly) IB
+
+*Simulation/Methods/Hydrology
+ at CDE DESCRIPTION SO
+R Ritchie water balance IB
+
+*Simulation/Methods/SOM
+ at CDE DESCRIPTION SO
+G Ceres (Godwin) IB
+P Century (Parton) IB
+
+*Simulation/Methods/Soil Evaporation
+ at CDE DESCRIPTION SO
+R Ritchie-Ceres IB
+S Suleiman-Ritchie IB
+
+*Simulation/Methods/Soil Layer Distribution
+ at CDE DESCRIPTION SO
+1 Model-specified soil layers IB
+2 Modified soil profile IB
+3 Unmodified soil profile IB
+
+*Simulation/Management/Planting
+ at CDE DESCRIPTION SO
+A Automatic IB
+R On reported date IB
+
+*Simulation/Management/Irrigation
+ at CDE DESCRIPTION SO
+A Automatic when required IB
+N Not irrigated IB
+F Fixed amount automatic IB
+R On reported dates IB
+D Days after planting IB
+
+*Simulation/Management/Fertilization
+ at CDE DESCRIPTION SO
+!A Automatic when required IB
+N Not fertilized IB
+F Fixed amount automatic IB
+R On reported dates IB
+D Days after planting IB
+
+*Simulation/Management/Residue
+ at CDE DESCRIPTION SO
+!A Automatic when required IB
+N No applications IB
+!F Fixed amount automatic IB
+R On reported dates IB
+D Days after planting IB
+
+*Simulation/Management/Harvest
+ at CDE DESCRIPTION SO
+A Automatic IB
+!G At reported stage(s) IB
+M At maturity IB
+R On reported date(s) IB
+D Days after planting IB
+
+*Simulation/Outputs
+ at CDE DESCRIPTION SO
+Y Experiment IB
+N Default IB
+
+*Simulation/Outputs/Options
+ at CDE DESCRIPTION SO
+Y Yes IB
+N No IB
+
+*Simulation/Outputs/Verbose
+ at CDE DESCRIPTION SO
+0 Only Summary.OUT IB
+N Minimal output IB
+Y Normal output IB
+D Detailed output IB
+A All outputs IB
+
+*Simulation/Crop Models
+ at MODEL CROP Description
+CRGRO BM CROPGRO-Bermuda
+CRGRO BH CROPGRO-Bahia
+CRGRO BN CROPGRO-Dry bean
+CRGRO BR CROPGRO-Brachiaria
+CRGRO CB CROPGRO-Cabbage
+CRGRO CH CROPGRO-Chickpea
+CRGRO CO CROPGRO-Cotton
+CRGRO CP CROPGRO-Cowpea
+CRGRO FA CROPGRO-Fallow
+CRGRO FB CROPGRO-Faba bean
+CRGRO GB CROPGRO-Grean bean
+CRGRO LT CROPGRO-Lentil
+CPGRO NP CROPGRO-Napier grass
+CRGRO PN CROPGRO-Peanut
+CRGRO PR CROPGRO-Bellpepper
+CRGRO SB CROPGRO-Soybean
+CRGRO TM CROPGRO-Tomato
+CRGRO VB CROPGRO-Velvetbean
+CSCER BA CSSIM-CERES-Barley
+CSCER WH CSSIM-CERES-Wheat
+CSCRP BA CSCRP-Barley
+CSCRP CS CSCRP-Cassava
+CSCRP WH CSCRP-Wheat
+MLCER ML CERES-Millet
+MZCER MZ CERES-Maize
+MZIXM MZ IXIM-Maize
+PTSUB PT SUBSTOR-Potato
+RICER RI CERES-Rice
+SCCAN SC CANEGRO-Sugarcane
+SCCSP SC CASUPRO-Sugarcane
+SGCER SG CERES-Sorghum
+SWCER SW CERES-Sweetcorn
+TNARO TN AROIDS-Taro
+TRARO TR AROIDS-Tanier
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOIL.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOIL.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOIL.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,93 @@
+*CODES FOR SOIL DATA
+! DSSAT v4.5; 09/30/2010
+!
+! Codes currently used for both detailed profile analysis and occasional
+! analysis of the surface layers are listed. The soil analysis codes are
+! also listed in the DATA.CDE file.
+!
+! The fields in the file are as follows:
+! CDE The 'universal' code used to facilitate data interchange.
+! DESCRIPTION A description of the code, with units.
+! SO The source of the codes (IB=IBSNAT). Codes added by a user should be
+! referenced in this field and the name and address of the person adding
+! the code should be entered as a comment (ie.with a '!' in column 1)
+! below this note. This is important to ensure that information from
+! different workers can be easily integrated.
+
+ at CDE DESCRIPTION SO
+C Clay IB
+CACO3 CaCO3 content, g kg-1 IB
+CL Clay loam IB
+L Loam IB
+LAT Latitude, degrees (decimals;+ve north) IB
+LONG Longitude, degrees (decimals;+ve east) IB
+LS Loamy sand IB
+S Sand IB
+SABD Bulk density, moist, g cm-3 IB
+SABL Depth, base of layer, cm IB
+SADAT Analysis date, year + days from Jan. 1 IB
+SAHB pH in buffer IB
+SAHW pH in water IB
+SAKE Potassium, exchangeable, cmol kg-1 IB
+SALB Albedo, fraction IB
+SANI Total nitrogen, % IB
+SAOC Organic carbon, % IB
+SAPX Phosphorus, extractable, mg kg-1 IB
+SBDM Bulk density, moist, g cm-3 IB
+SC Silty clay IB
+SCEC Cation exchange capacity, cmol kg-1 IB
+SCL Silty clay loam IB
+SCOM Color, moist, Munsell hue IB
+SCSFAM Family, SCS system IB
+SDUL Upper limit, drained, cm3 cm-3 IB
+SH20 Water, cm3 cm-3 IB
+SI Silt IB
+SIC Silty clay IB
+SICL Silty clay loam IB
+SIL Silty loam IB
+SITE Site name IB
+SL Sandy loam IB
+SLAL Aluminum IB
+SLB Depth, base of layer, cm IB
+SLBS Base saturation, cmol kg-1 IB
+SLCA Calcium, exchangeable, cmol kg-1 IB
+SLCF Coarse fraction (>2 mm), % IB
+SLCL Clay (<0.002 mm), % IB
+SLDP Soil depth, cm IB
+SLDR Drainage rate, fraction day-1 IB
+SLEC Electric conductivity, seimen IB
+SLFE Iron IB
+SLHB pH in buffer IB
+SLHW pH in water IB
+SLKE Potassium, exchangeable, cmol kg-1 IB
+SLLL Lower limit, cm3 cm-3 IB
+SLMG Magnesium, cmol kg-1 IB
+SLMH Master horizon IB
+SLMN Manganese IB
+SLNA Sodium, cmol kg-1 IB
+SLNF Mineralization factor, 0 to 1 scale IB
+SLNI Total nitrogen, % IB
+SLOC Organic carbon, % IB
+SLPA Phosphorus isotherm A, mmol kg-1 IB
+SLPB Phosphorus iostherm B, mmol l-1 IB
+SLPF Photosynthesis factor, 0 to 1 scale IB
+SLPO Phosphorus, organic, mg kg-1 IB
+SLPT Phosphorus, total, mg kg-1 IB
+SLPX Phosphorus, extractable, mg kg-1 IB
+SLRF Root growth factor, soil+plant, 0.0 to 1.0 IB
+SLRO Runoff curve no. (Soil Conservation Service) IB
+SLSI Silt (0.05 to 0.002 mm), % IB
+SLSU Sulphur IB
+SLTX Soil texture IB
+SLU1 Evaporation limit, mm IB
+SMHB pH in buffer determination method, code IB
+SMKE Potassium determination method, code IB
+SMPX Phosphorus determination code IB
+SNH4 Ammonium, KCl, g elemental N Mg-1 soil IB
+SNO3 Nitrate, KCl, g elemental N Mg-1 soil IB
+SRGF Root growth factor, soil only, 0.0 to 1.0 IB
+SSAT Upper limit, saturated, cm3 cm-3 IB
+SSKS Sat. hydraulic conductivity, macropore, cm h-1 IB
+
+
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFR045.SDA
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFR045.SDA (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFR045.SDA 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,147 @@
+*SOMFR045.SDA Stable SOM fractions - DSCSM045 Model 09/30/2010
+
+!========================================================================================================
+! Initial SOM fractions are based on previous land use / management,
+! soil type, number of years under this management and on initial
+! carbon composition.
+!
+! Values in these tables represent the fraction of total organic C (OC)
+! that is stable (SOM3). Intermediate (SOM2) and microbial (SOM1) SOM
+! are estimated in the DSSAT-CENTURY model based on these stable SOM
+! fractions as follows:
+! SOM1 = 0.05 * (1.0 - SOM3).
+! SOM2 = 1.0 - SOM3 - SOM1
+!
+! If measured values are entered into Soil Analysis section of
+! experiment file, those values supercede these. If no measured
+! values or field history are available, model uses Adiku's equaton:
+! SOM3 = (0.015 * (CLAY + SILT) + 0.069) / OC
+!
+!Five character field history code (FLHST) needs to be placed in
+! "FIELDS" section of FILEX:
+!*FIELDS
+!@L ID_FIELD WSTA.... FLSA FLOB FLDT FLDD FLDS FLST SLTX SLDP ID_SOIL FLNAME
+! 1 PLmodame ISDA9901 -99 -99 -99 200 -99 0 S 200 ISDA250001 Sample field history
+!@L ...........XCRD ...........YCRD .....ELEV .............AREA .SLEN .FLWR .SLAS FLHST FHDUR
+! 1 13.1 2.14 250 1728 48 1.3 3 FH101 11
+!========================================================================================================
+
+ at FH101 Cultivated with good management practices, initially cultivated land
+!100 yr continuous simulation approach, irrigated, high N application rate
+!Initial conditions: 44% stable C
+!Years this mgmt ->|---0 yrs----|----5 yrs----|---10 yrs----|---20 yrs----|---60 yrs----|-Steady State|
+!Soil depth (cm) ->| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40|
+@ L TEXTURE S3_T0 S3_D0 S3_T5 S3_D5 S3_T10 S3_D10 S3_T20 S3_D20 S3_T60 S3_D60 S3_TSS S3_DSS
+ 1 Sand 0.44 0.44 0.49 0.60 0.48 0.69 0.41 0.75 0.31 0.78 0.29 0.78
+ 2 LoamySand 0.44 0.44 0.55 0.63 0.60 0.75 0.62 0.84 0.60 0.88 0.60 0.88
+ 3 SandyLoam 0.44 0.44 0.50 0.60 0.52 0.70 0.50 0.78 0.44 0.82 0.43 0.82
+ 4 SiltyLoam 0.44 0.44 0.49 0.57 0.49 0.64 0.47 0.72 0.44 0.79 0.43 0.79
+ 5 Silt 0.44 0.44 0.49 0.56 0.48 0.64 0.46 0.71 0.43 0.77 0.43 0.77
+ 6 Loam 0.44 0.44 0.52 0.59 0.56 0.70 0.57 0.79 0.56 0.85 0.55 0.85
+ 7 SandClayLoam 0.44 0.44 0.57 0.60 0.65 0.72 0.72 0.83 0.75 0.91 0.75 0.91
+ 8 SiltClayLoam 0.44 0.44 0.52 0.56 0.55 0.65 0.58 0.74 0.60 0.83 0.60 0.83
+ 9 ClayLoam 0.44 0.44 0.54 0.58 0.59 0.67 0.64 0.78 0.68 0.87 0.68 0.87
+ 10 SandyClay 0.44 0.44 0.56 0.60 0.64 0.71 0.70 0.82 0.74 0.90 0.74 0.90
+ 11 SiltyClay 0.44 0.44 0.51 0.56 0.54 0.64 0.56 0.72 0.57 0.81 0.57 0.82
+ 12 Clay 0.44 0.44 0.53 0.57 0.59 0.66 0.63 0.76 0.67 0.85 0.67 0.86
+
+
+ at FH102 Cultivated with poor management practices, initially cultivated land
+!100 yr continuous simulation approach, non-irrigated, non-fertilized
+!Initial conditions: 44% stable C
+!Years this mgmt ->|---0 yrs----|----5 yrs----|---10 yrs----|---20 yrs----|---60 yrs----|-Steady State|
+!Soil depth (cm) ->| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40|
+@ L TEXTURE S3_T0 S3_D0 S3_T5 S3_D5 S3_T10 S3_D10 S3_T20 S3_D20 S3_T60 S3_D60 S3_TSS S3_DSS
+ 1 Sand 0.44 0.44 0.54 0.68 0.58 0.83 0.69 0.95 0.89 0.98 0.93 0.98
+ 2 LoamySand 0.44 0.44 0.56 0.66 0.59 0.81 0.62 0.93 0.86 0.98 0.94 0.98
+ 3 SandyLoam 0.44 0.44 0.53 0.64 0.54 0.78 0.54 0.91 0.76 0.98 0.89 0.98
+ 4 SiltyLoam 0.44 0.44 0.52 0.60 0.53 0.72 0.53 0.85 0.65 0.95 0.74 0.97
+ 5 Silt 0.44 0.44 0.51 0.60 0.52 0.72 0.52 0.84 0.64 0.95 0.73 0.96
+ 6 Loam 0.44 0.44 0.53 0.62 0.55 0.76 0.56 0.88 0.70 0.97 0.80 0.98
+ 7 SandClayLoam 0.44 0.44 0.56 0.62 0.62 0.75 0.67 0.88 0.81 0.97 0.85 0.98
+ 8 SiltClayLoam 0.44 0.44 0.53 0.59 0.56 0.70 0.59 0.83 0.71 0.95 0.77 0.96
+ 9 ClayLoam 0.44 0.44 0.54 0.60 0.58 0.72 0.62 0.85 0.73 0.96 0.79 0.96
+ 10 SandyClay 0.44 0.44 0.55 0.61 0.60 0.74 0.65 0.87 0.79 0.97 0.83 0.97
+ 11 SiltyClay 0.44 0.44 0.52 0.59 0.55 0.69 0.57 0.82 0.66 0.94 0.73 0.95
+ 12 Clay 0.44 0.44 0.54 0.59 0.58 0.71 0.63 0.84 0.75 0.95 0.80 0.96
+
+
+ at FH201 Cultivated with good management practices, initially grassland/forest
+!100 yr continuous simulation approach, irrigated, high N application rate
+!Initial conditions: 34% stable C
+!Years this mgmt ->|---0 yrs----|----5 yrs----|---10 yrs----|---20 yrs----|---60 yrs----|-Steady State|
+!Soil depth (cm) ->| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40|
+@ L TEXTURE S3_T0 S3_D0 S3_T5 S3_D5 S3_T10 S3_D10 S3_T20 S3_D20 S3_T60 S3_D60 S3_TSS S3_DSS
+ 1 Sand 0.34 0.34 0.43 0.55 0.43 0.66 0.39 0.74 0.31 0.78 0.29 0.78
+ 2 LoamySand 0.34 0.34 0.49 0.58 0.56 0.72 0.60 0.83 0.60 0.88 0.60 0.88
+ 3 SandyLoam 0.34 0.34 0.44 0.54 0.48 0.67 0.48 0.77 0.44 0.82 0.43 0.82
+ 4 SiltyLoam 0.34 0.34 0.42 0.50 0.45 0.60 0.45 0.71 0.44 0.79 0.43 0.79
+ 5 Silt 0.34 0.34 0.42 0.49 0.44 0.59 0.44 0.69 0.43 0.77 0.43 0.77
+ 6 Loam 0.34 0.34 0.46 0.53 0.52 0.66 0.55 0.78 0.56 0.85 0.56 0.85
+ 7 SandClayLoam 0.34 0.34 0.50 0.54 0.61 0.68 0.70 0.82 0.75 0.91 0.75 0.91
+ 8 SiltClayLoam 0.34 0.34 0.45 0.49 0.51 0.60 0.56 0.72 0.60 0.83 0.60 0.83
+ 9 ClayLoam 0.34 0.34 0.47 0.51 0.55 0.63 0.62 0.76 0.68 0.87 0.68 0.87
+ 10 SandyClay 0.34 0.34 0.50 0.53 0.59 0.67 0.69 0.81 0.74 0.90 0.74 0.90
+ 11 SiltyClay 0.34 0.34 0.45 0.49 0.49 0.59 0.53 0.70 0.57 0.81 0.57 0.82
+ 12 Clay 0.34 0.34 0.47 0.50 0.54 0.62 0.61 0.74 0.67 0.85 0.67 0.86
+
+
+ at FH202 Cultivated with poor management practices, initially grassland/forest
+!100 yr continuous simulation approach, non-irrigated, non-fertilzed
+!Initial conditions: 34% stable C
+!Years this mgmt ->|---0 yrs----|----5 yrs----|---10 yrs----|---20 yrs----|---60 yrs----|-Steady State|
+!Soil depth (cm) ->| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40|
+@ L TEXTURE S3_T0 S3_D0 S3_T5 S3_D5 S3_T10 S3_D10 S3_T20 S3_D20 S3_T60 S3_D60 S3_TSS S3_DSS
+ 1 Sand 0.34 0.34 0.46 0.62 0.51 0.80 0.62 0.94 0.87 0.98 0.93 0.98
+ 2 LoamySand 0.34 0.34 0.49 0.61 0.54 0.78 0.58 0.92 0.85 0.98 0.94 0.98
+ 3 SandyLoam 0.34 0.34 0.46 0.58 0.48 0.75 0.50 0.89 0.75 0.98 0.89 0.98
+ 4 SiltyLoam 0.34 0.34 0.45 0.54 0.47 0.68 0.49 0.83 0.65 0.96 0.76 0.97
+ 5 Silt 0.34 0.34 0.44 0.53 0.47 0.67 0.49 0.82 0.64 0.95 0.75 0.96
+ 6 Loam 0.34 0.34 0.46 0.56 0.50 0.72 0.53 0.87 0.70 0.97 0.82 0.98
+ 7 SandClayLoam 0.34 0.34 0.49 0.55 0.57 0.71 0.65 0.86 0.81 0.97 0.87 0.98
+ 8 SiltClayLoam 0.34 0.34 0.46 0.52 0.51 0.65 0.56 0.81 0.70 0.95 0.78 0.96
+ 9 ClayLoam 0.34 0.34 0.47 0.53 0.53 0.67 0.59 0.82 0.73 0.96 0.80 0.96
+ 10 SandyClay 0.34 0.34 0.48 0.54 0.56 0.70 0.63 0.85 0.79 0.97 0.85 0.97
+ 11 SiltyClay 0.34 0.34 0.45 0.51 0.49 0.64 0.54 0.79 0.66 0.94 0.74 0.95
+ 12 Clay 0.34 0.34 0.47 0.52 0.53 0.66 0.60 0.82 0.75 0.95 0.82 0.96
+
+
+ at FH301 Cultivated with good management practices, initially degraded
+!100 yr continuous simulation approach, irrigated, high N application rate
+!Initial conditions: Stable C from 100 year continuous simulations for FH102
+!Initial conditions: previously degraded land, use initial SOM from transient simulation scenarios
+!Years this mgmt ->|---0 yrs----|----5 yrs----|---10 yrs----|---20 yrs----|---60 yrs----|-Steady State|
+!Soil depth (cm) ->| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40|
+@ L TEXTURE S3_T0 S3_D0 S3_T5 S3_D5 S3_T10 S3_D10 S3_T20 S3_D20 S3_T60 S3_D60 S3_TSS S3_DSS
+ 1 Sand 0.93 0.98 0.82 0.91 0.69 0.85 0.51 0.80 0.32 0.78 0.29 0.78
+ 2 LoamySand 0.94 0.98 0.89 0.94 0.82 0.91 0.72 0.88 0.62 0.88 0.60 0.88
+ 3 SandyLoam 0.89 0.98 0.84 0.92 0.74 0.88 0.60 0.83 0.45 0.82 0.43 0.82
+ 4 SiltyLoam 0.74 0.97 0.78 0.90 0.68 0.85 0.56 0.81 0.45 0.79 0.43 0.79
+ 5 Silt 0.73 0.96 0.77 0.89 0.67 0.85 0.54 0.80 0.43 0.77 0.43 0.77
+ 6 Loam 0.80 0.98 0.83 0.92 0.75 0.89 0.66 0.86 0.56 0.85 0.56 0.85
+ 7 SandClayLoam 0.85 0.98 0.88 0.95 0.84 0.93 0.79 0.92 0.76 0.91 0.75 0.91
+ 8 SiltClayLoam 0.77 0.96 0.82 0.91 0.75 0.88 0.67 0.85 0.61 0.83 0.60 0.83
+ 9 ClayLoam 0.79 0.96 0.84 0.93 0.79 0.90 0.73 0.88 0.68 0.87 0.68 0.87
+ 10 SandyClay 0.83 0.97 0.87 0.94 0.83 0.93 0.78 0.91 0.74 0.90 0.74 0.90
+ 11 SiltyClay 0.73 0.95 0.80 0.91 0.73 0.88 0.65 0.84 0.57 0.82 0.57 0.82
+ 12 Clay 0.80 0.96 0.84 0.92 0.78 0.90 0.72 0.87 0.67 0.86 0.67 0.86
+
+
+ at FH302 Cultivated with poor management practices, initially degraded
+!Initial conditions: Stable C from 100 year continuous simulations for FH102
+!No change from initial degraded conditions
+!Years this mgmt ->|---0 yrs----|----5 yrs----|---10 yrs----|---20 yrs----|---60 yrs----|-Steady State|
+!Soil depth (cm) ->| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40| 0-20 20-40|
+@ L TEXTURE S3_T0 S3_D0 S3_T5 S3_D5 S3_T10 S3_D10 S3_T20 S3_D20 S3_T60 S3_D60 S3_TSS S3_DSS
+ 1 Sand 0.93 0.98 0.93 0.98 0.93 0.98 0.93 0.98 0.93 0.98 0.93 0.98
+ 2 LoamySand 0.94 0.98 0.94 0.98 0.94 0.98 0.94 0.98 0.94 0.98 0.94 0.98
+ 3 SandyLoam 0.89 0.98 0.89 0.98 0.89 0.98 0.89 0.98 0.89 0.98 0.89 0.98
+ 4 SiltyLoam 0.74 0.97 0.74 0.97 0.74 0.97 0.74 0.97 0.74 0.97 0.74 0.97
+ 5 Silt 0.73 0.96 0.73 0.96 0.73 0.96 0.73 0.96 0.73 0.96 0.73 0.96
+ 6 Loam 0.80 0.98 0.80 0.98 0.80 0.98 0.80 0.98 0.80 0.98 0.80 0.98
+ 7 SandClayLoam 0.85 0.98 0.85 0.98 0.85 0.98 0.85 0.98 0.85 0.98 0.85 0.98
+ 8 SiltClayLoam 0.77 0.96 0.77 0.96 0.77 0.96 0.77 0.96 0.77 0.96 0.77 0.96
+ 9 ClayLoam 0.79 0.96 0.79 0.96 0.79 0.96 0.79 0.96 0.79 0.96 0.79 0.96
+ 10 SandyClay 0.83 0.97 0.83 0.97 0.83 0.97 0.83 0.97 0.83 0.97 0.83 0.97
+ 11 SiltyClay 0.73 0.95 0.73 0.95 0.73 0.95 0.73 0.95 0.73 0.95 0.73 0.95
+ 12 Clay 0.80 0.96 0.80 0.96 0.80 0.96 0.80 0.96 0.80 0.96 0.80 0.96
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFX045.SDA
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFX045.SDA (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/SOMFX045.SDA 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,163 @@
+*SOMFX045.SDA Coefficients - DSCSM045 Model 09/30/2010
+======================================================
+This is an input file for the CENTURY-based soil organic matter/residue
+module. These variables and parameters can be considered as constant.
+The user does not have to modify these under normal circumstances.
+
+The variables CES1(L,IEL), CES2(L,IEL) an CES3(L,IEL), as given here,
+are only used to initialize the model; their value is modified during
+the model run. Even though these variables exist for each soil layer
+independently, only one common start value is given here as array
+element number 1.
+
+NAME VALUE UNITS
+==== ===== =====
+'CEDAM(1)' 15. ratio (unitless)
+'CEDAM(2)' 150. ratio (unitless)
+'CEDAM(3)' 150. ratio (unitless)
+'CES1(0,1)' 13. ratio (unitless); only for intialization
+'CES1(0,2)' 50. ratio (unitless); only for intialization ![AG;4/06; was 100]
+'CES1(0,3)' 50. ratio (unitless); only for intialization
+'CES1(1,1)' 10. ratio (unitless); only for intialization
+'CES1(1,2)' 50. ratio (unitless); only for intialization
+'CES1(1,3)' 50. ratio (unitless); only for initialization
+'CES1M(0,1)' 10. ratio (unitless)
+'CES1M(0,2)' 99. ratio (unitless)
+'CES1M(0,3)' 50. ratio (unitless)
+'CES1M(1,1)' 6. ratio (unitless)
+'CES1M(1,2)' 30. ratio (unitless)
+'CES1M(1,3)' 50. ratio (unitless)
+'CES1T(0,1)' 0.02 fraction (unitless)
+'CES1T(0,2)' 0.0015 fraction (unitless)
+'CES1T(0,3)' 0.0015 fraction (unitless)
+'CES1T(1,1)' 50. kg [N] / ha
+'CES1T(1,2)' 20. kg [P] / ha
+'CES1T(1,3)' 20. kg [S] / ha
+'CES1X(0,1)' 16. ratio (unitless)
+'CES1X(0,2)' 200. ratio (unitless)
+'CES1X(0,3)' 150. ratio (unitless)
+'CES1X(1,1)' 14. ratio (unitless)
+'CES1X(1,2)' 150. ratio (unitless)
+'CES1X(1,3)' 200. ratio (unitless)
+'CES2(1,1)' 17. ratio (unitless); only for initialization
+'CES2(1,2)' 117. ratio (unitless); only for initialization
+'CES2(1,3)' 117. ratio (unitless); only for initialization
+'CES21I(0,1)' 12. ratio (unitless)
+'CES21I(0,2)' 220. ratio (unitless)
+'CES21I(0,3)' 220. ratio (unitless)
+'CES21M(0,1)' 12. ratio (unitless)
+'CES21M(0,2)' 100. ratio (unitless)
+'CES21M(0,3)' 100. ratio (unitless)
+'CES21M(1,1)' 12. ratio (unitless)
+'CES21M(1,2)' 100. ratio (unitless)
+'CES21M(1,3)' 100. ratio (unitless)
+'CES21S(0,1)' 3. unitless multiplier
+'CES21S(0,2)' 5. unitless multiplier
+'CES21S(0,3)' 5. unitless multiplier
+'CES21T(1,1)' 20. kg [N] / ha
+'CES21T(1,2)' 20. kg [P] / ha
+'CES21T(1,3)' 20. kg [S] / ha
+'CES21X(0,1)' 20. ratio (unitless)
+'CES21X(0,2)' 400. ratio (unitless)
+'CES21X(0,3)' 400. ratio (unitless)
+'CES21X(1,1)' 20. ratio (unitless)
+'CES21X(1,2)' 400. ratio (unitless)
+'CES21X(1,3)' 400. ratio (unitless)
+'CES2LI(0,1)' 12. ratio (unitless)
+'CES2LI(0,2)' 220. ratio (unitless)
+'CES2LI(0,3)' 220. ratio (unitless)
+'CES2LI(1,1)' 12. ratio (unitless)
+'CES2LI(1,2)' 220. ratio (unitless)
+'CES2LI(1,3)' 220. ratio (unitless)
+'CES2LM(0,1)' 12. ratio (unitless)
+'CES2LM(0,2)' 100. ratio (unitless)
+'CES2LM(0,3)' 100. ratio (unitless)
+'CES2LM(1,1)' 12. ratio (unitless)
+'CES2LM(1,2)' 100. ratio (unitless)
+'CES2LM(1,3)' 100. ratio (unitless)
+'CES2LS(0,1)' 3. unitless multiplier
+'CES2LS(0,2)' 5. unitless multiplier
+'CES2LS(0,3)' 5. unitless multiplier
+'CES2LS(1,1)' 3. unitless multiplier
+'CES2LS(1,2)' 5. unitless multiplier
+'CES2LS(1,3)' 5. unitless multiplier
+'CES2LX(0,1)' 20. ratio (unitless)
+'CES2LX(0,2)' 400. ratio (unitless)
+'CES2LX(0,3)' 400. ratio (unitless)
+'CES2LX(1,1)' 20. ratio (unitless)
+'CES2LX(1,2)' 400. ratio (unitless)
+'CES2LX(1,3)' 400. ratio (unitless)
+'CES3(1,1)' 7. ratio (unitless); only for initialization
+'CES3(1,2)' 62. ratio (unitless); only for initialization
+'CES3(1,3)' 62. ratio (unitless); only for initialization
+'CES3M(1,1)' 6. ratio (unitless)
+'CES3M(1,2)' 50. ratio (unitless)
+'CES3M(1,3)' 50. ratio (unitless)
+'CES3T(1,1)' 20. kg [N] / ha
+'CES3T(1,2)' 20. kg [P] / ha
+'CES3T(1,3)' 20. kg [S] / ha
+'CES3X(1,1)' 8. ratio (unitless)
+'CES3X(1,2)' 200. ratio (unitless)
+'CES3X(1,3)' 200. ratio (unitless)
+'CESTR(1)' 150. ratio (unitless) ![AG;4/06; was 200]
+'CESTR(2)' 500. ratio (unitless)
+'CESTR(3)' 500. ratio (unitless)
+'CO2MET(0)' 0.55 fraction (unitless)
+'CO2MET(1)' 0.55 fraction (unitless)
+'CO2S1(0)' 0.60 fraction (unitless) !no longer used in v4.5.0.24, value set to soil layer 1 value
+'CO2S1I' 0.17 fraction (unitless)
+'CO2S1S' 0.68 unitless multiplier
+'CO2S2' 0.55 fraction (unitless)
+'CO2S3' 0.55 fraction (unitless)
+'CO2STR(0,1)' 0.45 fraction (unitless)
+'CO2STR(1,1)' 0.55 fraction (unitless)
+'CO2STR(0,2)' 0.3 fraction (unitless)
+'CO2STR(1,2)' 0.3 fraction (unitless)
+'CULMETQ' 1.0 unitless multiplier
+'CULS1Q' 1.6 unitless multiplier
+'CULS2Q' 1.6 unitless multiplier
+'CULS3Q' 1.6 unitless multiplier
+'CULSTRQ' 1.6 unitless multiplier
+'DECMET(0)' 0.04055 d-1
+'DECMET(1)' 0.05068 d-1
+'DECS1(0)' 0.01644 d-1
+'DECS1(1)' 0.02000 d-1
+'DECS2(1)' 0.000548 d-1
+'DECS3(1)' 0.000012 d-1
+'DECSTR(0)' 0.01068 d-1 [JWJ-new 0.001989]
+'DECSTR(1)' 0.01342 d-1 [JWJ-new 0.002500]
+'FRDAE(1)' 0.02 fraction (unitless)
+'FRDAE(2)' 0.02 fraction (unitless)
+'FRDAE(3)' 0.04 fraction (unitless)
+'FRMETI' 0.85 fraction (unitless)
+'FRMETS' 0.013 fraction (unitless)
+'LIGSTR(0)' 3. unitless multiplier
+'LIGSTR(1)' 3. unitless multiplier
+'RESDAX' 1000. kg [C] / ha
+'S1S3I' 0.003 fraction (unitless)
+'S1S3S' 0.032 fraction (unitless)
+'S2S3I' 0.003 fraction (unitless)
+'S2S3S' 0.009 fraction (unitless)
+'TXS1I' 0.25 unitless multiplier
+'TXS1S' 0.75 unitless multiplier
+
+'CES23(1,2)' 100.
+'CES23LM(0,2)' 100.
+'CES23LM(1,2)' 100.
+
+'CES23LX(0,2)' 400.
+'CES23LX(1,2)' 400.
+
+'CES23M(0,2)' 100.
+'CES23M(1,2)' 100.
+
+'CES23T(1,2)' 20. !with conversion g/m2 to kg/ha
+
+'CES23X(0,2)' 400.
+'CES23X(1,2)' 400.
+
+
+
+CES23a and CES23La are set to the same value, but yet given separately in case it needs to be changed during calibration.
+
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/TILOP045.SDA
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/TILOP045.SDA (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/TILOP045.SDA 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,307 @@
+*TILLAGE
+! DSSAT v4.5; 09/30/2010
+! Tilllage Input File
+!
+! JWW/CP/BB ...
+! 13/ 5/2003
+! 21/ 8/2008 - JWW minor edits, added roller harrow
+! 7/11/2008 - JWW changed CN effect to reduce values for most tillage
+! Implement names are changed substantially from Details.Cde
+!
+! Initial values are from Table 5-5 of RUSLE manual (which in turn relates to ASAE nomenclature)
+! and the SWAT manual (www.brc.tamus.edu/swat/manual2000/tilldb/dflt_tableA9.html)
+! RUSLE was used for Residue incorporated (presented in Table 5-5 as the inverse -- residue
+! left on the surface) and percent soil surface disturbed.
+! SWAT was the source of mixing efficiency and depth.
+!
+! A useful reference for basic farm machinery concepts is:
+! Hunt, D. Farm Power and Machinery Management 10th Ed.
+! It does not deal with effectiveness of tillage or incorporation of mulch.
+!
+! Discussion notes:
+! 1. Use of percentages vs fractions:
+! Although it makes more sense from a modeling perspective to use fractional changes
+! (e.g., 0.15) than percent changes, we expect most users to prefer percentages.
+!
+! 2. "Field operation" vs. "tillage operation":
+! We tend to discuss "tillage effects" but for completeness, the overall approach really
+! is for "field operations."
+!
+! 3. Handling of depth here vs in file X (proportional adjustment)
+! In TILLAGE.INP, the maximum depth of incorporation and mixing are assumed to be the
+! same. Thus, both are set by the maximum value of SLB. This maximum should be greater
+! than or equal to TDEP as reported in FILEX.
+!
+! 4. Depths reported for RUSLE and SWAT are quite different, especially given
+! that RUSLE is defined as "depth in which 75% of residue is buried":
+! __Depth_(cm)____
+! Implement RUSLE SWAT
+! --------------------------------
+! Moldboard 20 15
+! Spiketooth harrow 5 3
+! Is there a difference between mixing and incorporation?
+! Is the depth pre- or post-tillage operation
+! We need to chase original sources for such data.
+!
+! 5. CN2T HPAN SBDT SKST all need more research.
+! There were no initial estimates available. Default values used:
+! CN2T - +/- 5 or 10 based on expected effect
+! HPAN - 0
+! SBDT - +/- 5 or 10 based on expected effect
+! SKST - +/- 5 or 10 based on expected effect
+!
+! 7. SSDT (% soil surface disturbed) and CN2T (% change in curve number) should interact.
+! For the moment, we assume that CN2T is average effect over entire soil surface.
+!
+! 8. What outputs would people expect to see for tillage?
+!
+! ---------------------------------------------------------------------------------
+!
+! Definitions of parameters given in this file:
+! TIMPL - implement/operation code from DSSAT standard in FILEX
+! DESCRIPTION - Brief name of the implement (e.g., "moldboard plow")
+! COMMENT - Further information that would clarify the conditions for which the parameters
+! are considered valid (e.g., "into sod," ...)
+!
+! CN2T - Percent change in SCS curve number immediately after ith field operation.
+! RINP - Percent of residue incorporated
+! SSDT - Percent soil surface that is disturbed by the field operation.
+! MIXT - Mixing efficiency of tillage event
+! HPAN - Percent reduction in hard pan (if depth is sufficient to reach pan)
+!
+! SLB - Soil layer depth, cm -- maximum potential of operation.
+! SBDT - Percent change in bulk density just after field operation
+! SKST - Percent change in saturated hydraulic conductivity just after field operation (cm/day)
+!
+! Definitions of parameters also worth keeping in mind:
+! TDEP - depth of residue incorporation (here defined as 100% vs 75% in RUSLE
+! NTILL - number of tillage operations entered
+!
+!
+!TIMPL DESCRIPTION IMPLEMENT
+*TI001 V-Ripper One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -5.0 20 20 25 0
+@ SLB SBDT SKST
+ 8.00 -10.0 10.0
+ 30.00 -10.0 10.0
+ 35.00 5.0 -10.0
+
+*TI002 Subsoiler One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 50 40 45 0
+@ SLB SBDT SKST
+ 8.00 -10.0 10.0
+ 30.00 -15.0 20.0
+ 45.00 5.0 -10.0
+
+*TI003 Moldboard plow 20 cm depth One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 95 100 90 0
+@ SLB SBDT SKST
+ 15.00 -10.0 10.0
+ 20.00 5.0 -5.0
+
+*TI004 Chisel plow, sweeps One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 30 100 40 0
+@ SLB SBDT SKST
+ 15.00 -20.0 20.0
+
+*TI005 Chisel plow, straight point One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 40 100 30 0
+@ SLB SBDT SKST
+ 15.00 -20.0 20.0
+
+*TI006 Chisel plow, twisted shovels One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 55 100 50 0
+@ SLB SBDT SKST
+ 10.00 -10.0 10.0
+ 15.00 5.0 -10.0
+
+*TI007 Disk plow One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 70 100 85 0
+@ SLB SBDT SKST
+ 10.00 -10.0 20.0
+
+*TI008 Disk, 1-way
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 70 100 60 0
+@ SLB SBDT SKST
+ 10.00 -10.0 20.0
+
+*TI009 Disk, tandem One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 50 100 55 0
+@ SLB SBDT SKST
+ 7.50 -5.0 5.0
+
+*TI010 Disk, double disk One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 10 85 60 0
+@ SLB SBDT SKST
+ 10.00 -5.0 5.0
+
+*TI011 Cultivator, field One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 25 100 30 0
+@ SLB SBDT SKST
+ 10.00 -10.0 5.0
+
+*TI012 Cultivator, row One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 20 85 25 0
+@ SLB SBDT SKST
+ 2.50 -10.0 15.0
+
+*TI013 Cultivator, ridge till One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -5.0 60 90 25 0
+@ SLB SBDT SKST
+ 3.00 -10.0 10.0
+
+*TI014 Harrow, spike One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 20 100 25 0
+@ SLB SBDT SKST
+ 2.50 -10.0 10.0
+
+*TI015 Harrow, tine One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -5.0 15 100 20 0
+@ SLB SBDT SKST
+ 2.50 -10.0 10.0
+
+*TI016 Lister One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 80 100 15 0
+@ SLB SBDT SKST
+ 4.00 10.0 -5.0
+
+*TI017 Bedder One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 5.0 50 100 60 0
+@ SLB SBDT SKST
+ 5.00 10.0 -5.0
+
+*TI018 Blade cultivator One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 20 20 25 0
+@ SLB SBDT SKST
+ 7.50 5.0 -5.0
+
+*TI019 Fertilizer applicator, anhydr Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -5.0 20 15 10 0
+@ SLB SBDT SKST
+ 5.00 5.0 -5.0
+
+*TI020 Manure injector One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 50 40 10 0
+@ SLB SBDT SKST
+ 15.00 5.0 -5.0
+
+*TI022 Mulch treader One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 25 100 70 0
+@ SLB SBDT SKST
+ 5.00 5.0 -5.0
+
+*TI023 Plank One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 5.0 20 100 20 0
+@ SLB SBDT SKST
+ 4.00 10.0 -5.0
+
+*TI024 Roller packer One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 5.0 40 100 30 0
+@ SLB SBDT SKST
+ 4.00 10.0 -5.0
+
+*TI025 Drill, double-disk Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 10 85 15 0
+@ SLB SBDT SKST
+ 5.00 -5.0 5.0
+
+*TI026 Drill, deep furrow Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 30 100 10 0
+@ SLB SBDT SKST
+ 10.00 -5.0 5.0
+
+*TI031 Drill, no-till Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 20 60 10 0
+@ SLB SBDT SKST
+ 5.00 1.0 -2.0
+
+*TI032 Drill, no-till Into sod, generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 90 20 5 0
+@ SLB SBDT SKST
+ 5.00 1.0 -2.0
+
+*TI033 Planter, row Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 10 15 10 0
+@ SLB SBDT SKST
+ 5.00 5.0 0.0
+
+*TI034 Planter, no-till Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 15 15 5 0
+@ SLB SBDT SKST
+ 5.00 5.0 0.0
+
+*TI035 Planting stick (hand) Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 10 10 0 0
+@ SLB SBDT SKST
+ 5.00 0.0 0.0
+
+*TI036 Matraca hand planter Brazilian-style jab planter that meters seed
+@ CN2T RINP SSDT MIXT HPAN
+ 0.0 15 15 0 0
+@ SLB SBDT SKST
+ 5.00 0.0 0.0
+
+*TI037 Rod weeder Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -5.0 10 100 30 0
+@ SLB SBDT SKST
+ 2.50 -5.0 5.0
+
+*TI038 Rotary hoe Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 20 20 30 0
+@ SLB SBDT SKST
+ 2.50 -10.0 10.0
+
+*TI039 Roller harrow, cultipacker One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 20 100 40 0
+@ SLB SBDT SKST
+ 5.00 20.0 -5.0
+ 15.00 5.0 -5.0
+
+*TI041 Moldboard plow 25 cm One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 95 100 90 0
+@ SLB SBDT SKST
+ 20.00 -10.0 10.0
+ 25.00 5.0 -5.0
+
+*TI042 Moldboard plow 30 cm One pass, Generic soil conditions
+@ CN2T RINP SSDT MIXT HPAN
+ -10.0 95 100 90 0
+@ SLB SBDT SKST
+ 5.00 -10.0 10.0
+ 15.00 -5.0 5.0
+ 30.00 10.0 -5.0
+
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WEATHER.CDE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WEATHER.CDE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WEATHER.CDE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,91 @@
+*WEATHER DATA CODES
+! DSSAT v4.5; 09/30/2010
+
+! Headers used in the @ line to identify variables are listed first; codes
+! ('flags') used to designate data types are listed next.
+!
+! The fields in the file are as follows:
+! CDE The 'universal' code used to facilitate data interchange.
+! DESCRIPTION A description of the code, with units.
+! SO The source of the codes (IB=IBSNAT). Codes added by a user should be
+! referenced in this field and the name and address of the person adding
+! the code should be entered as a comment (ie.with a '!' in column 1)
+! below this note. This is important to ensure that information from
+! different workers can be easily integrated.
+
+*Headers
+ at CDE DESCRIPTION SO
+ALPHA Rainfall distribution scale parameter, monthly, mm-2 IB
+AMTH Angstrom 'a' coefficient, monthly, unitless IB
+ANGA Angstrom 'a' coefficient, yearly, unitless IB
+ANGB Angstrom 'b' coefficient, yearly, unitless IB
+BMTH Angstrom 'b' coefficient, monthly, unitless IB
+DATE Date, year + days from Jan. 1 IB
+DEWP Daily dewpoint temperature, C IB
+DURN Duration of summarization period for climate files, Yr IB
+ELEV Elevation, m IB
+EVAP Daily pan evaporation (mm d-1) IB
+GSDU Growing season duration, Day IB
+GSST Growing season start day, Doy IB
+INSI Institute and site code IB
+LAT Latitude, degrees (decimals) IB
+LONG Longitude, degrees (decimals) IB
+MTH Month, # IB
+NAMN Temperature minimum,all days,monthly average, C IB
+NASD Temperature minimum,all days,monthly standard deviation, C IB
+PAR Daily photosynthetic radiation, moles m-2 day-1 IB
+PDW Probability of a dry-wet sequence IB
+RAIN Daily rainfall (incl.snow), mm day-1 IB
+RAIY Rainfall, yearly total, mm IB
+REFHT Reference height for weather measurements, m IB
+RNUM Rainy days, # month-1 IB
+RTOT Rainfall total, mm month-1 IB
+SAMN Solar radiation,all days,monthly average, MJ m-2 d-1 IB
+SDMN Solar radiation,dry days,monthly average, MJ m-2 d-1 IB
+SDSD Solar radiation,dry days,monthly standard deviation, MJ m-2 d-1 IB
+SHMN Daily sunshine duration, monthly average, percent IB
+SOURCE Source of daily weather data, text IB
+SRAD Daily solar radiation, MJ m-2 day-1 IB
+SRAY Solar radiation,yearly average, MJ m-2 day-1 IB
+START Start of summary period for climate (CLI) files, Year IB
+SUNH Daily sunshine duration, percent IB
+SWMN Solar radiation,wet days,monthly average, MJ m-2 d-1 IB
+SWSD Solar radiation,wet days,monthly standard deviation, MJ m-2 d-1 IB
+TAMP Temperature amplitude, monthly averages, C IB
+TAV Temperature average for whole year, C IB
+TDRY Daily dry-bulb temperature, C IB
+TMAX Daily temperature maximum, C IB
+TMIN Daily temperature minimum, C IB
+TMNY Temperature minimum, yearly average, C IB
+TMXY Temperature maximum, yearly average, C IB
+TWET Daily wet-bulb temperature, C IB
+WIND Daily wind speed (km d-1) IB
+WNDHT Reference height for windspeed measurements, m IB
+XAMN Temperature maximum,all days,monthly average, C IB
+XDMN Temperature maximum,dry days,monthly average, C IB
+XDSD Temperature maximum,dry days,standard deviation, C IB
+XWMN Temperature maximum,wet days,monthly average, C IB
+XWSD Temperature maximum,wet days,standard deviation, C IB
+
+*Flags
+! Flags attached to data to indicate the nature of the original data. Upper
+! case flags = original data replaced; lower-case flags = original data.
+
+ at CDE DESCRIPTION SO
+A Above maximum - data replaced IB
+a Above maximum - but original data left IB
+B Below minimum - data replaced IB
+b Below minimum - - but original data left IB
+D Decadal averages only in original file - data replaced IB
+d Decadal averages only in original file - but original data left IB
+E Format error in original file - data replaced IB
+e Format error in original file - but original data left IB
+H Solar radiation as sunshine hours - data replaced IB
+h Solar radiation as sunshine hours - but original data left IB
+M Monthly averages only in original file - data replaced IB
+m Monthly averages only in original file - but original data left IB
+N No data in original file - data replaced IB
+n No data in original file - but original data left IB
+R Rate of change exceeded - data replaced IB
+r Rate of change exceeded - but original data left IB
+�
\ No newline at end of file
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.CUL
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.CUL (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.CUL 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,398 @@
+$CULTIVARS:WHCER045
+
+! LAST EDIT: 22/08/11
+
+! Coefficients used in the Cropsim-Ceres model differ from those used
+! in DSSAT Version 3.5 AND 4.0. They can be calculated (approximately) from
+! V3.5 coefficients as follows:
+
+! P1V = P1V(v3.5)*10
+! P1D = P1D(V3.5)*20
+! P5 = P5(V3.5)*20 + 430
+! G1 = G1(V3.5)*5 + 5
+! G2 = (G2(V3.5)*0.35+0.65) * P5/20
+! G3 = G3(V3.5)*0.7
+! PHINT = PHINT(V3.5)
+
+! Converted coefficients,and those listed below,should always be
+! tested by using them with real experiments and comparing model
+! outputs with measured values.
+
+*CULTIVARS:WHCER045
+ at VAR# VAR-NAME........ EXP# ECO# P1V P1D P5 G1 G2 G3 PHINT
+! 1 2 3 4 5 6 7
+999991 MINIMA . 999991 0 0 100 10 10 0.5 30
+999992 MAXIMA . 999992 60 200 999 50 80 8.0 150
+DFAULT DEFAULT . DFAULT 5 75 450 30 35 1.0 60
+!!!Below generics added by jwe for psdssat v0.5!!!
+990002 Winter-Default . IB0001 60 94 564 30 40 1.00 120
+990003 Winter-Default . IB0001 60 94 564 30 40 1.00 120
+990004 Winter-Default . IB0001 60 94 564 30 40 1.00 120
+990005 FACULTATIVE . IB0001 30 94 564 22 40 1.00 120
+990001 SPRING-HIGH LAT . IB0001 20 94 564 22 40 1.01 120
+990006 SPRING-LOW LAT . IB0001 5 94 564 22 40 1.01 120
+
+!!!!!!!! Generic pSIMS ME cultivars !!!!!!!!!!!!
+!!!Spring!!!
+ME1XXX ME1-generic . IB0001 20 94 564 22 39 1.00 120
+ME2AXX ME2A-generic . IB0001 20 94 564 22 40 1.00 120
+ME2BXX ME2B-generic . IB0001 20 94 564 22 40 1.00 120
+ME3XXX ME3-generic . IB0001 20 94 564 22 40 1.00 120
+ME4AXX ME4A-generic . IB0001 20 94 564 24 37 1.00 120
+ME4BXX ME4B-generic . IB0001 20 97 564 24 40 1.00 120
+ME4CXX ME4C-generic . IB0001 20 94 564 24 37 1.00 120
+ME5AXX ME5A-generic . IB0001 25 94 564 22 37 1.50 100
+ME5BXX ME5B-generic . IB0001 25 95 564 22 40 1.50 100
+ME6XXX ME6-generic . IB0001 30 110 564 22 40 1.50 120
+!!!Facultative!!!
+ME7XXX ME7-generic . IB0001 40 94 564 22 40 0.50 120
+ME8AXX ME8A-generic . IB0001 40 100 600 22 40 0.50 120
+ME8BXX ME8B-generic . IB0001 40 94 564 22 40 0.50 120
+ME9XXX ME9-generic . IB0001 20 94 564 24 37 0.50 120
+!!!Winter wheat!!!
+ME10XX ME10-generic . IB0001 60 110 600 22 40 0.50 135
+ME11XX ME11-generic . IB0001 60 130 600 22 40 0.50 135
+ME12XX ME12-generic . IB0001 60 110 600 22 40 0.50 135
+
+
+!!!!!!!!! MEGA ENVIRONMENT 1 !!!!!
+! Seri 82 Base Cultivar
+IB0010 Seri82BA . IB0001 20 94 564 22 39 1.03 120
+! Seri 82 Short Life Cycle
+IB0110 Seri82SL . IB0001 20 94 508 22 39 1.03 120
+! Seri 82 Long Life Cycle
+IB0210 Seri82LL . IB0001 20 94 621 22 39 1.03 120
+! Seri 82 YIELD (changes in the .ECO File as well as here)
+IB0310 Seri82YE . IB0101 20 94 564 25 43 1.03 120
+! Seri 82 Yield PLUS SHORT season
+IB0410 Seri82YS . IB0101 20 94 508 25 43 1.03 120
+! Seri 82 Yield PLUS LONG season
+IB0510 Seri82YL . IB0101 20 94 621 25 43 1.03 120
+
+
+! PBW343 Base Cultivar
+IB0011 PBW343BA . IB0001 20 94 564 22 40 1.01 120
+! PBW343 Short Life Cycle
+IB0111 PBW343SL . IB0001 20 94 508 22 40 1.01 120
+! PBW343 Long Life Cycle
+IB0211 PBW343LL . IB0001 20 94 621 22 40 1.01 120
+! PBW343 YIELD (Changes in the .ECO file as well as here)
+IB0311 PBW343YE . IB0101 20 94 564 25 44 1.01 120
+! PBW343 Yield PLUS Short Season
+IB0411 PBW343YS . IB0101 20 94 508 25 44 1.01 120
+! PBW343 Yield PLUS Long Season
+IB0511 PBW343YL . IB0101 20 94 621 25 44 1.01 120
+
+
+!!!!!!!!! MEGA ENVIRONEMNT 2A !!!!!!
+
+! Kubsa Base Cultivar
+IB0012 KubsaBA . IB0001 20 94 564 22 40 1.01 120
+! Kubsa Short Life Cycle
+IB0112 KubsaSL . IB0001 20 94 508 22 40 1.01 120
+! Kubsa Long Life Cycle
+IB0212 KubsaLL . IB0001 20 94 621 22 40 1.01 120
+! Kubsa YIELD (Changes in the .ECO file as well as here)
+IB0312 KubsaYE . IB0101 20 94 564 25 44 1.01 120
+! Kubsa Yield PLUS Short Season
+IB0412 KubsaYS . IB0101 20 94 508 25 44 1.01 120
+! Kubsa Yield PLUS Long Season
+IB0512 KubsaYL . IB0101 20 94 621 25 44 1.01 120
+
+!!!!! MEGA ENVIRONMENT 2B !!!!!!!
+
+! Tajan Base Cultivar
+IB0013 TajanBA . IB0001 20 94 564 24 37 1.01 120
+! Tajan Short Life Cycle
+IB0113 TajanSL . IB0001 20 94 508 24 37 1.01 120
+! Tajan Long Life Cycle
+IB0213 TajanLL . IB0001 20 94 621 24 37 1.01 120
+! Tajan YIELD (Changes in the .ECO file as well as here)
+IB0313 TajanYE . IB0101 20 94 564 27 40 1.01 120
+! Tajan Yield PLUS SHORT season
+IB0413 TajanYS . IB0101 20 94 508 27 40 1.01 120
+! Tajan Yield PLUS LONG season
+IB0513 TajanYS . IB0101 20 94 621 27 40 1.01 120
+
+!!!!!! MEGA ENVIRONMENT 3 !!!!!!!
+
+! Alondra Base Cultivar
+IB0014 AlondraBA . IB0001 20 94 564 22 40 1.01 120
+! Alondra Short Life Cycle
+IB0114 AlondraSL . IB0001 20 94 508 22 40 1.01 120
+! Alondra Long Life Cycle
+IB0214 AlondraLL . IB0001 20 94 621 22 40 1.01 120
+! Alondra YIELD (Changes in the .ECO file as well as here)
+IB0314 AlondraYE . IB0101 20 94 564 25 44 1.01 120
+! Alondra Yield PLUS Short Season
+IB0414 AlondraYS . IB0101 20 94 508 25 44 1.01 120
+! Alondra Yield PLUS Long Season
+IB0514 AlondraYL . IB0101 20 94 621 25 44 1.01 120
+
+
+!!!!! MEGA ENVIRONMENT 4A and MEGA ENVIRONMENT 9 Have same CV!!!!!!
+
+! Bacanora Base Cultivar
+IB0015 BacanoraBA . IB0001 20 94 564 24 37 1.00 120
+! Bacanora Short Life Cycle
+IB0115 BacanoraSL . IB0001 20 94 508 24 37 1.00 120
+! Bacanora Long Life Cycle
+IB0215 BacanoraLL . IB0001 20 94 621 24 37 1.00 120
+! Bacanora YIELD (Changes in the .ECO file as well as here)
+IB0315 BacanoraYE . IB0101 20 94 564 27 40 1.00 120
+! Bacanora Yield PLUS SHORT season
+IB0415 BacanoraYS . IB0101 20 94 508 27 40 1.00 120
+! Bacanora Yield PLUS LONG season
+IB0515 BacanoraYL . IB0101 20 94 621 27 40 1.00 120
+
+
+!!!!! MEGA ENVIRONMENT 4B !!!!!!!
+
+! DonErnesto Base Cultivar
+IB0016 DonErnestoBA . IB0001 20 94 564 22 40 1.01 120
+! DonErnesto Short Life Cycle
+IB0116 DonErnestoSL . IB0001 20 94 508 22 40 1.01 120
+! DonErnesto Long Life Cycle
+IB0216 DonErnestoLL . IB0001 20 94 621 22 40 1.01 120
+! DonErnesto YIELD (Changes in the .ECO file as well as here)
+IB0316 DonErnestoYE . IB0101 20 94 564 25 44 1.01 120
+! DonErnesto Yield PLUS Short Season
+IB0416 DonErnestoYS . IB0101 20 94 508 25 44 1.01 120
+! DonErnesto Yield PLUS Long Season
+IB0516 DonErnestoYL . IB0101 20 94 621 25 44 1.01 120
+
+!!!!! MEGA ENVIRONMENT 4C !!!!!
+
+! HI617 Base Cultivar
+IB0017 HI617BA . IB0001 20 94 564 22 40 1.01 120
+! HI617 Short Life Cycle
+IB0117 HI617SL . IB0001 20 94 508 22 40 1.01 120
+! HI617 Long Life Cycle
+IB0217 HI617LL . IB0001 20 94 621 22 40 1.01 120
+! HI617 YIELD (Changes in the .ECO file as well as here)
+IB0317 HI617YE . IB0101 20 94 564 25 44 1.01 120
+! HI617 Yield PLUS Short Season
+IB0417 HI617YS . IB0101 20 94 508 25 44 1.01 120
+! HI617 Yield PLUS Long Season
+IB0517 HI617YL . IB0101 20 94 621 25 44 1.01 120
+
+
+!!!!! MEGA ENVIRONMENT 5A !!!!!!
+
+! Kanchan Base Cultivar
+IB0018 KanchanBA . IB0001 20 94 564 22 40 1.01 120
+! Kanchan Short Life Cycle
+IB0118 KanchanSL . IB0001 20 94 508 22 40 1.01 120
+! Kanchan Long Life Cycle
+IB0218 KanchanLL . IB0001 20 94 621 22 40 1.01 120
+! Kanchan YIELD (Changes in the .ECO file as well as here)
+IB0318 KanchanYE . IB0101 20 94 564 25 44 1.01 120
+! Kanchan Yield PLUS Short Season
+IB0418 KanchanYS . IB0101 20 94 508 25 44 1.01 120
+! Kanchan Yield PLUS Long Season
+IB0518 KanchanYL . IB0101 20 94 621 25 44 1.01 120
+
+
+!!!!!! MEGA ENVIRONMENT 5B !!!!!!!
+
+! Debiera Base Cultivar
+IB0019 DebieraBA . IB0001 20 94 564 22 40 1.01 120
+! Debiera Short Life Cycle
+IB0119 DebieraSL . IB0001 20 94 508 22 40 1.01 120
+! Debiera Long Life Cycle
+IB0219 DebieraLL . IB0001 20 94 621 22 40 1.01 120
+! Debiera YIELD (Changes in the .ECO file as well as here)
+IB0319 DebieraYE . IB0101 20 94 564 25 44 1.01 120
+! Debiera Yield PLUS Short Season
+IB0419 DebieraYS . IB0101 20 94 508 25 44 1.01 120
+! Debiera Yield PLUS Long Season
+IB0519 DebieraYL . IB0101 20 94 621 25 44 1.01 120
+
+!!!!! MEGA ENVIRONMENT 6 !!!!!!!!
+
+
+! Saratov Base Cultivar
+IB0020 SaratovBA . IB0001 30 94 564 22 40 1.01 120
+! Saratov Short Life Cycle
+IB0120 SaratovSL . IB0001 30 94 508 22 40 1.01 120
+! Saratov Long Life Cycle
+IB0220 SaratovLL . IB0001 30 94 621 22 40 1.01 120
+! Saratov YIELD (Changes in the .ECO file as well as here)
+IB0320 SaratovYE . IB0101 30 94 564 25 44 1.01 120
+! Saratov Yield PLUS Short Season
+IB0420 SaratovYS . IB0101 30 94 508 25 44 1.01 120
+! Saratov Yield PLUS Long Season
+IB0520 SaratovYL . IB0101 30 94 621 25 44 1.01 120
+
+
+!!!!! MEGA ENVIRONMENT 7 !!!!!!!!!
+
+
+! Pehlivan Base Cultivar
+IB0021 PehlivanBA . IB0001 40 94 564 22 40 1.00 120
+! Pehlivan Short Life Cycle
+IB0121 PehlivanSL . IB0001 40 94 508 22 40 1.00 120
+! Pehlivan Long Life Cycle
+IB0221 PehlivanLL . IB0001 40 94 621 22 40 1.00 120
+! Pehlivan YIELD (Changes in the .ECO file as well as here)
+IB0321 PehlivanYE . IB0101 40 94 564 25 44 1.00 120
+! Pehlivan Yield PLUS Short Season
+IB0421 PehlivanYS . IB0101 40 94 508 25 44 1.00 120
+! Pehlivan Yield PLUS Long Season
+IB0521 PehlivanYL . IB0101 40 94 621 25 44 1.00 120
+
+
+
+!!!! MEGA ENVIRONMENT 8A !!!!!!!!
+
+! HalconSNA Base Cultivar
+IB0022 HalconsnaBA . IB0001 20 94 564 22 40 1.00 120
+! HalconSNA Short Life Cycle
+IB0122 HalconsnaSL . IB0001 20 94 508 22 40 1.00 120
+! HalconSNA Long Life Cycle
+IB0222 HalconsnaLL . IB0001 20 94 621 22 40 1.00 120
+! Pehlivan YIELD (Changes in the .ECO file as well as here)
+IB0322 HalconsnaYE . IB0101 20 94 564 25 44 1.00 120
+! HalconSNA Yield PLUS Short Season
+IB0422 HalconsneYS . IB0101 20 94 508 25 44 1.00 120
+! HalconSNA Yield PLUS Long Season
+IB0522 HalconsnaYL . IB0101 20 94 621 25 44 1.00 120
+
+
+!!!! MEGA ENVIRONMENT 8B !!!!!!
+
+! Katya Base Cultivar
+IB0023 KatyaBA . IB0001 40 94 564 22 40 1.00 120
+! Katya Short Life Cycle
+IB0123 KatyaSL . IB0001 40 94 508 22 40 1.00 120
+! Katya Long Life Cycle
+IB0223 KatyaLL . IB0001 40 94 621 22 40 1.00 120
+! Katya YIELD (Changes in the .ECO file as well as here)
+IB0323 KatyaYE . IB0101 40 94 564 25 44 1.00 120
+! Katya Yield PLUS Short Season
+IB0423 KatyaYS . IB0101 40 94 508 25 44 1.00 120
+! Katya Yield PLUS Long Season
+IB0523 KatyaYL . IB0101 40 94 621 25 44 1.00 120
+
+!!!!! MEGA ENVIRONEMNT 9 is with 4 same cultivar!!!!!!
+!!!!! MEGA ENVIRONMENT 10A !!!!!!!!!
+
+! There is no name for this cultivar yet (ME 10A) I will call it ChinaB Base Cultivar
+IB0024 ChinaBBA . IB0001 60 94 564 30 40 1.00 120
+! ChinaB Short Life Cycle
+IB0124 ChinaBSL . IB0001 60 94 508 30 40 1.00 120
+! ChinaB Long Life Cycle
+IB0224 ChinaBLL . IB0001 60 94 621 30 40 1.00 120
+! ChinaB YIELD (Changes in the .ECO file as well as here)
+IB0324 ChinaBYE . IB0101 60 94 564 33 44 1.00 120
+! ChinaB Yield PLUS Short Season
+IB0424 ChinaBYS . IB0101 60 94 508 33 44 1.00 120
+! ChinaB Yield PLUS Long Season
+IB0524 ChinaBYL . IB0101 60 94 621 33 44 1.00 120
+
+!!!!! MEGA ENVIRONMENT 10B !!!!!!
+
+! Bezostaya Base Cultivar
+IB0025 BezostayaBA . IB0001 60 94 564 30 40 1.00 120
+! Bezostaya Short Life Cycle
+IB0125 BezostayaSL . IB0001 60 94 508 30 40 1.00 120
+! Bezostaya Long Life Cycle
+IB0225 BezostayaLL . IB0001 60 94 621 30 40 1.00 120
+! Bezostaya YIELD (Changes in the .ECO file as well as here)
+IB0325 BezostayaYE . IB0101 60 94 564 33 44 1.00 120
+! Bezostaya Yield PLUS Short Season
+IB0425 BezostayaYS . IB0101 60 94 508 33 44 1.00 120
+! Bezostaya Yield PLUS Long Season
+IB0525 BezostayaYL . IB0101 60 94 621 33 44 1.00 120
+
+!!!!!! MEGA ENVIRONMENT 11A !!!!!!!
+
+! Brigadier Base Cultivar
+IB0026 BrigadierBA . IB0001 60 94 564 30 40 1.00 120
+! Brigadier Short Life Cycle
+IB0126 BrigadierSL . IB0001 60 94 508 30 40 1.00 120
+! Brigadier Long Life Cycle
+IB0226 BrigadierLL . IB0001 60 94 621 30 40 1.00 120
+! Brigadier YIELD (Changes in the .ECO file as well as here)
+IB0326 BrigadierYE . IB0101 60 94 564 33 44 1.00 120
+! Brigadier Yield PLUS Short Season
+IB0426 BrigadierYS . IB0101 60 94 508 33 44 1.00 120
+! Brigadier Yield PLUS Long Season
+IB0526 BrigadierYL . IB0101 60 94 621 33 44 1.00 120
+
+
+
+!!!!! MEGA ENVIRONMENT 11B !!!!!!!
+! There is no name for this cultivar yet (ME 11B) I will call it Korea Base Cultivar
+IB0027 KoreaBA . IB0001 60 94 564 30 40 1.00 120
+! Korea Short Life Cycle
+IB0127 KoreaSL . IB0001 60 94 508 30 40 1.00 120
+! Korea Long Life Cycle
+IB0227 KoreaLL . IB0001 60 94 621 30 40 1.00 120
+! Korea YIELD (Changes in the .ECO file as well as here)
+IB0327 KoreaYE . IB0101 60 94 564 33 44 1.00 120
+! Korea Yield PLUS Short Season
+IB0427 KoreaYS . IB0101 60 94 508 33 44 1.00 120
+! Korea Yield PLUS Long Season
+IB0527 KoreaYL . IB0101 60 94 621 33 44 1.00 120
+
+
+!!!!! MEGA ENVIRONMENT 12 !!!!!!
+! Gerek79 Base Cultivar
+IB0028 Gerek79BA . IB0001 60 94 564 30 40 1.00 120
+! Gerek79 Short Life Cycle
+IB0128 Gerek79SL . IB0001 60 94 508 30 40 1.00 120
+! Gerek79 Long Life Cycle
+IB0228 Gerek79LL . IB0001 60 94 621 30 40 1.00 120
+! Gerek79 YIELD (Changes in the .ECO file as well as here)
+IB0328 Gerek79YE . IB0101 60 94 564 33 44 1.00 120
+! Gerek79 Yield PLUS Short Season
+IB0428 Gerek79YS . IB0101 60 94 508 33 44 1.00 120
+! Gerek79 Yield PLUS Long Season
+IB0528 Gerek79YS . IB0101 60 94 621 33 44 1.00 120
+
+
+
+!!!!!! CULTIVAR USED BY SIKA !!!!
+! Kauz Base Cultivar
+IB0029 KauzBA . IB0001 20 94 564 24 37 1.01 120
+! Kauz Short Life Cycle
+IB0129 KauzSL . IB0001 20 94 508 24 37 1.01 120
+! Kautz Long Life Cycle
+IB0229 KauzLL . IB0001 20 94 621 24 37 1.01 120
+! Kauz YIELD (Changes in the .ECO file as well as here)
+IB0329 KauzYE . IB0101 20 94 564 27 40 1.01 120
+! Kauz Yield PLUS SHORT season
+IB0429 KauzYS . IB0101 20 94 508 27 40 1.01 120
+! Kauz Yield PLUS LONG season
+IB0529 KauzYL . IB0101 20 94 621 27 40 1.01 120
+
+
+! Attila Base Cultivar
+IB0030 AttilaBA . IB0001 20 94 564 22 39 1.01 120
+! Attila Short Life Cycle
+IB0130 AttilaSL . IB0001 20 94 508 22 39 1.01 120
+! Attila Long Life Cycle
+IB0230 AttilaLL . IB0001 20 94 621 22 39 1.01 120
+! Attila YIELD (Changes in the .ECO file as well as here)
+IB0330 AttilaYE . IB0101 20 94 564 25 43 1.01 120
+! Attila Yield PLUS Short Season
+IB0430 AttilaYS . IB0101 20 94 508 25 43 1.01 120
+! Attila Yield PLUS Long Season
+IB0530 AttilaYL . IB0101 20 94 621 25 43 1.01 120
+
+
+
+! COEFF DEFINITION
+! ======== ==========
+! VAR# Identification code or number for the specific cultivar.
+! VAR-NAME Name of cultivar.
+! EXP# Number of experiments used to generate parameters
+! ECO# Ecotype code for this cultivar,points to entry in ECO file
+! P1V Days,optimum vernalizing temperature,required for vernalization
+! P1D Photoperiod response (% reduction in rate/10 h drop in pp)
+! P5 Grain filling (excluding lag) phase duration (oC.d)
+! G1 Kernel number per unit canopy weight at anthesis (#/g)
+! G2 Standard kernel size under optimum conditions (mg)
+! G3 Standard,non-stressed mature tiller wt (incl grain) (g dwt)
+! PHINT Interval between successive leaf tip appearances (oC.d)
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.ECO
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.ECO (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.ECO 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,72 @@
+$ECOTYPES:WHCER045
+
+! LAST EDIT: 22/08/11
+
+! Coefficients presented here differ from those used in DSSAT
+! Version 3.5. They have been developed from 'parameters'
+! embedded in the code of the Ceres model,from the Cropsim model,
+! and from the literature. They are likely to change as more
+! experience is gained, and should not yet be taken as fixed.
+
+! In Ceres3.5, P1=400 for PHINT=95; P2=phint*3; P3=phint*2; P4=200,
+! with anthesis occurring in P4 after 80 units.
+
+*ECOTYPE:WHCER045
+! ------PHENOLOGY(PHASE_DURATIONS)------ P.MOD --MAX_RUE-- LEAF PRODN ------LEAF_SIZES------ LEAF_SENESC TILLER_PRODUCTION ---TILLER_DEATH-- ROOTS -----CANOPY------ ---COMPOSITION-- KILL
+ at ECO# P1 P2FR1 P2 P3 P4FR1 P4FR2 P4 VEFF PARUE PARU2 PHL2 PHF3 LA1S LAFV LAFR SLAS LSPHS LSPHE TIL#S TIPHE TIFAC TDPHS TDPHE TDFAC RDGS HTSTD AWNS KCAN RS%S GN%S GN%MN TKFH
+! 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
+999991 100 0 100 100 0.15 0.05 100 0.0 1.0 1.0 4.0 1.0 1.0 0.01 0.10 100 4.0 5.5 2.5 2.0 0.5 1.5 2.0 0.0 1.0 60 0.0 .65 10 1.0 0.0 -10
+999992 500 .60 500 500 0.35 0.25 500 1.0 6.0 6.0 200 1.6 20.0 0.80 3.00 600 5.7 6.5 7.0 4.0 2.0 4.0 6.0 20.0 5.0 150 10.0 .95 60 3.5 6.0 -25
+
+DFAULT 200 .25 200 200 0.25 0.10 200 0.5 2.7 2.7 15 1.3 5.0 0.10 0.50 400 5.5 6.3 3.5 2.5 1.0 2.5 6.0 4.0 3.0 100 0.0 .85 30 3.0 0.0 -10
+
+! Ecotype file used in Future Farm Baseline
+IB0001 200 .25 200 200 0.25 0.10 200 0.5 2.7 2.7 15 1.3 5.0 0.10 0.50 400 5.5 6.3 3.5 2.5 1.0 2.5 6.0 4.0 3.0 100 0.0 .85 30 3.0 0.0 -10
+! Ecotype fle with increase in RUE for Yield increase
+IB0101 200 .25 200 200 0.25 0.10 200 0.5 2.9 2.9 15 1.3 5.0 0.10 0.50 400 5.5 6.3 3.5 2.5 1.0 2.5 6.0 4.0 3.0 100 0.0 .85 30 3.0 0.0 -10
+
+CAWH01 362 .25 258 172 .25 .10 200 0.5 2.7 2.7 13 1.0 3.0 0.05 0.30 300 4.2 6.0 3.0 2.5 1.0 2.7 6.0 4.0 3.0 100 0.0 .85 30 3.0 2.0 -10
+USWH01 400 .25 285 190 .25 .10 200 1.0 2.7 2.7 13 1.0 2.0 0.15 0.01 400 5.3 6.5 4.5 2.0 0.8 2.2 6.0 4.0 3.0 100 5.0 .85 30 2.2 1.9 -20
+UKWH01 421 .25 300 200 .25 .10 200 0.5 2.7 2.7 13 1.0 2.0 0.10 0.30 485 5.7 6.3 4.5 2.0 0.5 2.2 6.0 20.0 3.0 100 0.0 .85 60 2.0 1.0 -15
+
+! COEFF DEFINITION
+! ===== ==========
+! AWNS Awn score (0-10;10=very long)
+! ECO# Code for the ecotype (code)
+! GN%MN Minimum grain N (%)
+! GN%S Standard grain N (%)
+! HTSTD Standard canopy height (cm)
+! KCAN PAR extinction coefficient (#)
+! LA1S Area of standard first leaf (cm2)
+! LAFR Increase in potential area of leaves,reproductive phase (fr/leaf)
+! LAFV Increase in potential area of leaves,vegetative phase (fr/leaf)
+! LARS Area of standard reproductive phase leaf (cm2)
+! LAVS Area of standard vegetative phase leaf (cm2)
+! LLIFE Life of leaves during vegetative phase (phyllochrons)
+! LSPHE Final leaf senescence ends (GrowhStage)
+! LSPHS Final leaf senescence starts (GrowhStage)
+! P1 Duration of phase end juvenile to terminal spikelet (PVTU)
+! P2 Duration of phase terminal spikelet to end leaf growth (TU)
+! P2FR1 Duration of phase terminal spikelet to jointing (fr P2)
+! P3 Duration of phase end leaf growth to end spike growth (TU)
+! P4 Duration of phase end spike growth to end grain fill lag (TU)
+! P4FR1 Duration of phase end spike growth to anthesis (fr P4)
+! P4FR2 Duration of phase anthesis start to anthesis end (fr P4)
+! PARU2 PAR conversion to dm ratio,after last leaf (g/MJ) (If -99,set to PARUE)
+! PARUE PAR conversion to dm ratio,before last leaf stage (g/MJ)
+! PHFn Factor by which PHINTS is multiplied -> PHINT for phase (#)
+! PHLn Leaf # produced during phyllochron phase (#)
+! PPFPE Daylength factor,pre emergence (#,0-1)
+! RDGS Root depth growth rate,early phase (cm/standard d)
+! RS%S Reserves part of assimilates going to stem (%)
+! SLAS Specific leaf area,standard first leaf (cm2/g)
+! TDFAC Tiller death factor (%/st.day when tiller wt 2xstandard wt)
+! TDPHE Tiller death ending stage (GrowthStage)
+! TDPHS Tiller death start stage (GrowthStage)
+! TIFAC Tiller initiation (rate) factor (fr of phyllochron based) (#)
+! TIL#S Tiller production starts (leaf #)
+! TIPHE Tillering phase end stage (GrowthStage)
+! TKFH Temperature at which killed when fully hardened (oC)
+! VEFF Vernalization effect (Rate reduction when unvernalized (fr)
+! WFGU Water stress factor,growth,upper (fr)
+! WFPU Water stress factor,photosynthesis,upper (fr)
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.SPE
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.SPE (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/common.isimip/WHCER045.SPE 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,232 @@
+$SPECIES:WHCER045
+
+! LAST EDIT: 22/08/11
+
+! Coefficients differ from those used in DSSAT Versions 3.5 and 4.0x.
+! They have been developed from 'parameters' embedded in the code of
+! the Ceres model,from the Cropsim model,and from the literature.
+! They are likely to change as more experience is gained,and should
+! not be taken as fixed. This is particularly relevant for the
+! temperature response characteristics, and for some root growth
+! and activity coefficients.
+
+*SPECIES:WHCER045
+! Phase durations
+ at PGERM PEMRG P0 P6 ! Germination,emrgence/cm,juvenile,post-maturity
+ 10 8.0 0 200
+! Development rate responses to environment
+ at PPFPE PPTHR PPEND ! Photoperiod factor pre-emerge,threshold,end sensitivity
+ 1.0 20.0 2.0
+! Roots
+ at RLIG% RLWR RSEN% RRESP RLDGR !Lignin%,length/wt,senescence,resp.
+ 10.0 0.98 .80 0.40 500
+! Leaves
+ at LLIG% LAXS LSHFR LSHAW PHL1 PHF1 SLAMN SLACF
+ 10.0 900 0.33 70.0 2.0 0.8 0.5 0.02
+ at LLIFE LWLOS LRPHS
+ 4.0 0.50 3.0
+@ LASF
+ 0.00
+ 0.10
+ 0.10
+ 0.10
+ 0.10
+ 1.00
+@ CHT% CLA%
+ 0 0
+ 50 50
+ 100 100
+@ TPAR TSRAD
+ 0.07 0.25
+! Tillers
+ at TGR02
+ 0.80
+! Stems
+ at SLIG% SAWS SGPHE SSPHS SSEN%
+ 10.0 25.0 4.45 5.8 .53
+! Chaff
+@ CHFR CHSTG
+ 0.65 3.8
+! Grain
+ at GLIG%
+ 10.0
+! Seed
+@ SDWT SDAFR
+ .0284 0.50
+! Photosynthesis
+ at CO2RF CO2F
+ 0 0.00
+ 220 0.71
+ 330 1.00
+ 440 1.08
+ 550 1.17
+ 660 1.25
+ 770 1.32
+ 880 1.38
+ 990 1.43
+ 9999 1.50
+! CH2O distribution/mobilization
+ at PTFMX
+ 0.98
+@ PTFS PTFA STFR
+ 0.65 0.10 0.00
+ 0.70 0.10 0.15
+ 0.75 0.10 0.51
+ 0.80 0.10 1.00
+ 0.98 0.35 1.00
+ 0.98 0.35 1.00
+! Cold hardiness
+@ TKUH HDUR
+ -6.0 10.0
+! Temperature responses
+ at TRGEM TRDV1 TRDV2 TRLFG TRPHS TRVRN TRHAR TRGFW TRGFN
+ 1 0 0 0 0 -5 -5 0 0
+ 26 26 30 10 5 0 0 16 16
+ 50 50 50 20 25 7 5 27 35
+ 60 60 60 35 35 15 10 35 45
+
+! WATER loss,uptake,etc..
+! Evapotranspiration
+ at EORATIO
+ 1.0
+! Water uptake
+ at RWUPM RWUMX
+ 0.02 0.03
+! Water shortage effects
+! 1. Based on ratio potential uptake/potential loss
+@ WFPU WFPGF WFGU WFTU WFTL WFSU
+ 1.0 1.0 1.3 1.0 0.5 0.6
+! 2. Based on soil water content as a fraction of DUL-LL or SAT-DUL
+ at WFGEU WFRGU
+ 0.50 0.25
+! Leaf area loss when senescence accelerated by water shortage
+ at LLOSW ! Fr/d
+ 0.02
+
+! NITOGEN uptake,distribution,etc.
+! N uptake
+ at NH4MN NO3MN RTNO3 RTNH4
+ 0.0 0.0 0.006 0.006
+! N demand
+@ NTUPF ! Fraction of deficit that can be filled per day
+ 0.05
+! N concentrations
+ at GN%MX SDN%
+ 3.2 1.9
+@ LN%S SN%S RN%S LN%MN SN%MN RN%MN
+ 8.0 2.5 2.04 0.80 0.65 1.53
+ 6.4 2.0 1.97 0.75 0.60 1.47
+ 5.3 1.0 1.89 0.70 0.55 1.41
+ 4.0 0.8 1.82 0.65 0.50 1.36
+ 3.1 0.6 1.77 0.60 0.45 1.33
+ 2.7 0.5 1.73 0.65 0.40 1.29
+ 1.5 0.4 1.68 0.60 0.40 1.26
+ 1.0 0.4 1.68 0.55 0.40 1.26
+! N mobilization
+ at NLAB%
+ 20
+! N shortage effects (Fraction of span from lowest to upper N conc.)
+@ NFPU NFPL NFGU NFGL NFTU NFTL NFSU NFSF ! Phs,tillering,senecence
+ 1.00 0.00 1.0 0.0 1.0 0.0 0.4 0.1
+! N shortage effects (Based on soil NO3 and NH4 concentrations)
+@ NCRG
+ 30
+! Leaf area loss when senescence accelerated by N shortage
+ at LLOSN ! Fr/d
+ 0.02
+
+! COEFF DEFINITION
+! ===== ==========
+! CHFR Fraction of assimilates to chaff (#)
+! CHSTG Chaff growth start stage (GrowthStage)
+! CHT% Canopy ht as % of maximum for lf area distribution (%)
+! CLA$ Canopy leaf area % associated with height % (%)
+! CO2F CO2 factor,photosynthesis,relative (0-1)
+! CO2RF CO2 reference (vpm)
+! GLIG% Grain lignin (%)
+! GN%MX Grain N,maximum (For when assimilate supply limited) (%)
+! HDUR Days for complete cold hardening (d)
+! LASF Leaf area senesced (fr,start phase)
+! LAXS Maximum area of leaves on main stem (cm2)
+! LLIFE Life of leaves during vegetative phase (phyllochrons)
+! LLIG% Leaf lignin (%)
+! LLOSN Loss of leaf area from N stress(fr/d.unit N stress)
+! LLOSW Loss of leaf area from water stress(fr/d.unit water stress)
+! LN%MN Leaf minimum N (%)
+! LN%S Leaf standard N (%)
+! LRPHS Stage after which dead leaves retained (GrowthStage)
+! LSHAW Leaf sheath area/weight ratio (cm2/g)
+! LSHFR Leaf sheath fraction (fr of lamina+sheath)
+! LWLOS Leaf dry matter loss,normal senescence (fr)
+! NCRG N concentration factor,root growth (ppm for maximum growth)
+! NFGL N stress factor,growth,lower (fr)
+! NFGU N stress factor,growth,upper (fr)
+! NFPL N stress factor,photosynthesis,lower (fr)
+! NFPU N stress factor,photosynthesis,upper (fr)
+! NFSU N stress factor,senescence,threshold (fr)
+! NFSF N factor to trigger final senescence (#)
+! NFTL N stress factor,tillering,lower (fr)
+! NFTU N stress factor,tillering,upper (fr)
+! NH4MN NH4 minimum concentration for uptake (mg/MG)
+! NLAB% Labile N during grain filling (%)
+! NO3MN NO3 minimum concentration for uptake (mg/MG)
+! NTUPF N top-up fraction (/d)
+! NUMAX N uptake rate,maximum (fr of available/day)
+! P0 Juvenile phase duration (oC.days)
+! P6 Phase duration 6 (post physio.maturity (oC.d)
+! PEMRG Emergence phase duration (Thermal units per cm depth)
+! PGERM Germination phase duration (Hydrothermal units)
+! PHFn Factor by which PHINTS is multiplied -> PHINT for phase (#)
+! PHLn Leaf # produced during phyllochron phase (#)
+! PPEND Photoperiod sensitivity end stage (#)
+! PPFPE Photoperiod factor,pre emergence (#,0-1)
+! PPTHR Photoperiod threshold (h above which no effect)
+! PTFA Partition to tops,adjustment coeff.by phase (#)
+! PTFS Partition to tops,standard,by stage (fr)
+! PTFMX Partition fraction to tops,maximum (fr)
+! RLDGR Root length/root depth growth ratio (cm/cm;greater->more early rt.)
+! RLIG% Root lignin (%)
+! RLWR Root length weight ratio (m/(0.01g)
+! RN%MN Root minimum N (%)
+! RN%S Root standard N (%)
+! RRESP Root respiration fraction (fr)
+! RSEN% Root senescence (%/standard day)
+! RTNO3 NO3 uptake/root length (mg N/cm.day)
+! RTNH4 NH4 uptake/root length (mg N/cm.day)
+! RWUMX Maximum water uptake rate (cm3/cm.d)
+! RWUPM Water saturation factor,pore space limit (fr)
+! SAWS Stem area/weight ratio,standard (cm2/g)
+! SDAFR Seed reserves availability (fr/standard day)
+! SDN% Seed N, standard (%)
+! SDWT Seed dry weight (g/seed)
+! SGPHE Stem growth phase end stage (GrowthStage)
+! SLACF Specific leaf area change with leaf position (fr/leaf)
+! SLAMN Specific leaf area,minimum,fr non stressed (#)
+! SLIG% Stem lignin (%)
+! SN%MN Stem minimum N (%)
+! SN%S Stem standard N (%)
+! SSEN% Stem senescence (%/standard day)
+! SSPHS Stem senesence phase start stage (GrowthStage)
+! STFR Stem fraction,leaf+stem (fr)
+! TGR02 Growth rate of tiller 2 (pot.leaf area relative to main shoot)
+! TKUH Temp.at which 50% kill,unhardened seedling (oC)
+! TKUH Temp.at which 50% kill,unhardened seedling (oC)
+! TPAR Transmission of photosynthetically active radiation (fr)
+! TRDV1 Temperature response,development 1 (oC)
+! TRDV2 Temperature response,development 2 (oC)
+! TRGEM Temperature response,germination and pre-emergence growth (oC)
+! TRGFN Temperature response,grain filling,N (oC)
+! TRGFW Temperature response,grain filling,dry weight(oC)
+! TRHAR Temperature response,hardening for winter survival (oC)
+! TRLFG Temperature response,leaf growth (oC)
+! TRPHS Temperature response,photosynthesis (oC)
+! TRVRN Temperature response,vernalization (oC)
+! TSRAD Transmission of solar radiation (fr)
+! WFGEU Water factor,seed germination,upper (fr)
+! WFGU Water stress factor,growth,upper (fr)
+! WFPGF Water factor,phs,adjustment when grain filling (0,1=no,full sress)
+! WFPU Water stress factor,photosynthesis,upper (fr)
+! WFRGU Water factor,root growth,upper threshold (0-1)
+! WFSU Water stress factor,senescence,threshold (fr)
+! WFTL Water stress factor,tillering,lower (fr)
+! WFTU Water stress factor,tillering,upper (fr)
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/Campaign.nc4
===================================================================
(Binary files differ)
Property changes on: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/Campaign.nc4
___________________________________________________________________
Added: svn:mime-type
+ application/octet-stream
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/exp_template.json
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/exp_template.json (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/exp_template.json 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,253 @@
+{
+ "soil_id": "XY01234567_1",
+ "person_notes": "Joshua Elliott",
+ "local_name": "GenericName",
+ "wst_id": "GENERIC1",
+ "exname": "X1234568MZ_1",
+ "institution": "Computation Institute, University of Chicago",
+ "fl_name": "GenericField1",
+ "site_name": "GenericLatitude, GenericLongitude",
+ "trno": "1",
+ "trt_name": "GenericTreatment1",
+ "id_field": "GENERIC",
+ "exname_o": "X1234567MZ",
+ "dssat_sequence": {
+ "data": [
+ {
+ "em": "0",
+ "co": "0",
+ "trno": "1",
+ "sq": "1",
+ "trt_name": "GenericTreatment1",
+ "seqid": "1",
+ "sm": "1",
+ "op": "0"
+ }
+ ]
+ },
+ "dssat_simulation_control": {
+ "data": [
+ {
+ "sm": "1",
+ "planting": {
+ "ph2od": "30",
+ "pfday": "113",
+ "ph2ol": "40",
+ "pfyer": "80",
+ "plday": "173",
+ "plyer": "80",
+ "ph2ou": "100",
+ "pstmx": "40",
+ "pstmn": "10"
+ },
+ "irrigation": {
+ "ithru": "100",
+ "iroff": "GS000",
+ "imeth": "IR001",
+ "imdep": "40",
+ "ireff": ".75",
+ "iramt": "10",
+ "ithrl": "75"
+ },
+ "management": {
+ "irrig": "A",
+ "plant": "A",
+ "ferti": "D",
+ "resid": "A",
+ "harvs": "M"
+ },
+ "methods": {
+ "evapo": "F",
+ "nswit": "1",
+ "light": "E",
+ "wther": "M",
+ "infil": "S",
+ "photo": "L",
+ "mesom": "G",
+ "mesol": "2",
+ "incon": "M",
+ "mesev": "S",
+ "hydro": "R"
+ },
+ "outputs": {
+ "grout": "N",
+ "caout": "N",
+ "ovvew": "Y",
+ "niout": "N",
+ "waout": "N",
+ "fropt": "14",
+ "sumry": "Y",
+ "opout": "N",
+ "chout": "N",
+ "diout": "N",
+ "fname": "N",
+ "vbose": "N",
+ "miout": "N"
+ },
+ "harvests": {
+ "hfrst": "0",
+ "hlyer": "81",
+ "hpcnr": "0",
+ "hpcnp": "100",
+ "hlday": "365"
+ },
+ "residues": {
+ "rtime": "1",
+ "ripcn": "100",
+ "ridep": "20"
+ },
+ "general": {
+ "sname": "Irrigated",
+ "nyers": "31",
+ "rseed": "2150",
+ "start": "S",
+ "nreps": "1",
+ "sdday": "001",
+ "sdyer": "80",
+ "smodel": "MZCER"
+ },
+ "nitrogen": {
+ "ncode": "FE001",
+ "nmdep": "30",
+ "naoff": "GS000",
+ "nmthr": "10",
+ "namnt": "50"
+ },
+ "options": {
+ "symbi": "Y",
+ "dises": "N",
+ "phosp": "N",
+ "water": "Y",
+ "till": "N",
+ "co2": "M",
+ "potas": "N",
+ "chem": "N",
+ "nitro": "Y"
+ }
+ }
+ ]
+ },
+ "management": {
+ "events": [
+ {
+ "pldp": "50.0",
+ "plrs": "75",
+ "cul_id": "HY0001",
+ "plds": "R",
+ "crid": "MZ",
+ "plpoe": "5.0",
+ "cul_name": "HY01",
+ "plma": "S",
+ "seqid": "1",
+ "date": "19800101",
+ "pl_name": "1979I",
+ "plpop": "5.0",
+ "event": "planting"
+ },
+ {
+ "fedep": "15",
+ "feamn": "100",
+ "feacd": "AP002",
+ "fe_name": "high",
+ "fecd": "FE001",
+ "seqid": "1",
+ "date": "1",
+ "event": "fertilizer"
+ },
+ {
+ "fedep": "15",
+ "feamn": "100",
+ "feacd": "AP002",
+ "fe_name": "high",
+ "fecd": "FE001",
+ "seqid": "1",
+ "date": "45",
+ "event": "fertilizer"
+ },
+ {
+ "irstg": "GS000",
+ "irmdp": "40",
+ "iame": "IR001",
+ "irept": "100",
+ "irthr": "75",
+ "seqid": "1",
+ "ireff": "1.00",
+ "date": "20110101",
+ "iamt": "10",
+ "irval": "79.0",
+ "event": "irrigation",
+ "irop": "IR001"
+ },
+ {
+ "seqid": "1",
+ "ha_name": "Maize",
+ "date": "",
+ "event": "harvest"
+ }
+ ]
+ },
+ "dssat_environment_modification": {
+ "data": [
+ {
+ "em": "1",
+ "data": {
+ "erad": "A 0",
+ "ewind": "A 0",
+ "emin": "A 0",
+ "odday": "001",
+ "emax": "A 0",
+ "erain": "A 0.0",
+ "eday": "A 0",
+ "eco2": "R 320",
+ "envnam": "EnvMod",
+ "odyer": "80",
+ "edew": "A 0"
+ }
+ }
+ ]
+ },
+ "soil": {
+ "soil_id": "XY01234567_1",
+ "soilLayer": [
+ {
+ "sllb": "15"
+ }
+ ],
+ "sa": "1",
+ "sadat": "19800410"
+ },
+ "initial_conditions": {
+ "icpcr": "MZ",
+ "icrp": "0",
+ "icrze": "1",
+ "icdat": "19800101",
+ "icrip": "100",
+ "icrn": "1",
+ "ic_name": "1000kg Residue",
+ "icrdp": "10",
+ "icrag": "1000",
+ "icrz#": "1",
+ "soilLayer": [
+ {
+ "icno3": ".1",
+ "icbl": "10",
+ "icnh4": ".1"
+ },
+ {
+ "icno3": ".1",
+ "icbl": "40",
+ "icnh4": ".1"
+ },
+ {
+ "icno3": ".1",
+ "icbl": "100",
+ "icnh4": ".1"
+ },
+ {
+ "icno3": ".1",
+ "icbl": "200",
+ "icnh4": ".1"
+ }
+ ]
+ }
+}
\ No newline at end of file
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,13 @@
+model dssat45
+campaign /scratch/midway/maheshwari/psims/campaigns/pdssat/ggcmi.maize
+soils /scratch/midway/maheshwari/psims/data/soils/hwsd200.wrld.30min
+weather /scratch/midway/maheshwari/psims/data/clim/agmerra
+refdata /scratch/midway/maheshwari/psims/campaigns/pdssat/common.isimip
+bintransfer $PWD/bin/DSCSM045.EXE,$PWD/tapps/pdssat/psims2WTH.py,$PWD/tapps/pdssat/OUT2psims.py,$PWD/bin/camp2json.py,$PWD/tapps/pdssat/jsons2dssat.py
+tappwth psims2WTH.py:-o:GENERIC1.WTH:-v:tasmin,tasmax,rsds,pr,wind
+tappcamp camp2json.py:-c:Campaign.nc4:-e:exp_template.json:-o:experiment.json
+tappinp jsons2dssat.py:-x:X1234567.MZX:-s:soil.json:-e:experiment.json:-S:SOIL.SOL
+executable DSCSM045.EXE:A:X1234567.MZX
+outtypes .WTH,.MZX,.SOL,.OUT,.json
+postprocess ./OUT2psims.py:-i:Summary.OUT:-v:PDAT,ADAT,MDAT,CWAM,HWAM,IRCM,PRCM,ETCM:--delta:30:-s:4:-y:31:--ref_year:1980
+NCconcat ../bin/append.sh:PDAT,ADAT,MDAT,CWAM,HWAM,IRCM,PRCM,ETCM:"PlantDate,AnthesisDate,MaturityDate,TotalBiomass,Yield,IrrigationApplied,GrowingSeasonPrecip,GrowingSeasonET":"DOY,DOY,DOY,kg/ha,kg/ha,mm,mm,mm":720:360:30:31:4:1980:./parts:out.psims.dssat45.agmerra.maize.nc4
Added: SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params2
===================================================================
--- SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params2 (rev 0)
+++ SwiftApps/Swift-MapRed/psims/campaigns/pdssat/ggcmi.maize/params2 2013-09-23 01:00:26 UTC (rev 7103)
@@ -0,0 +1,13 @@
+model dssat45
+campaign /project/joshuaelliott/psims/campaigns/pdssat/ggcmi.maize
+soils /project/joshuaelliott/psims/data/soils/hwsd1.wrld.30min
+weather /project/joshuaelliott/psims/data/clim/agcfsr
+refdata /project/joshuaelliott/psims/campaigns/pdssat/common.isimip
+bintransfer $PWD/bin/DSCSM045.EXE,$PWD/tapps/pdssat/psims2WTH.py,$PWD/tapps/pdssat/OUT2psims.py,$PWD/tapps/pdssat/camp2json_dssat.py,$PWD/tapps/pdssat/jsons2dssat.py
+tappwth psims2WTH.py:-o:GENERIC1.WTH:-v:tasmin,tasmax,rsds,pr,wind
+tappcamp camp2json_dssat.py:-c:Campaign.nc4:-e:exp_template.json:-o:experiment.json
+tappinp jsons2dssat.py:-x:X1234567.MZX:-s:soil.json:-e:experiment.json:-S:SOIL.SOL
+executable DSCSM045.EXE:A:X1234567.MZX
+outtypes .WTH,.MZX,.SOL,.OUT,.json
+postprocess ./OUT2psims.py:-i:Summary.OUT:-v:PDAT,ADAT,MDAT,CWAM,HWAM,IRCM,PRCM,ETCM:--delta:30:-s:4:-y:31:--ref_year:1980
+NCconcat ../bin/append.sh:PDAT,ADAT,MDAT,CWAM,HWAM,IRCM,PRCM,ETCM:"PlantDate,AnthesisDate,MaturityDate,TotalBiomass,Yield,IrrigationApplied,GrowingSeasonPrecip,GrowingSeasonET":"DOY,DOY,DOY,kg/ha,kg/ha,mm,mm,mm":720:360:30:31:4:1980:./parts:out.psims.dssat45.agcfsr.maize.nc4
Modified: SwiftApps/Swift-MapRed/psims/swiftcommand.sh
===================================================================
--- SwiftApps/Swift-MapRed/psims/swiftcommand.sh 2013-09-23 00:41:49 UTC (rev 7102)
+++ SwiftApps/Swift-MapRed/psims/swiftcommand.sh 2013-09-23 01:00:26 UTC (rev 7103)
@@ -1 +1,3 @@
+#time swift -tc.file tc.data -sites.file $site.xml -config cf RunpSIMS.swift -model=$model -scenarios=$scenarios -weather=$weather -refdata=$refdata -bindata=$bindata -bintransfer=$bintransfer -executable=$executable -outtypes=$outtypes -postprocess=$postprocess
+
swift -tc.file tc.data -sites.file midway.xml, -config cf RunpSIMS.swift -model=dssat45 -campaign=/scratch/midway/maheshwari/psims/campaigns/pdssat/ggcmi.maize -soils=/scratch/midway/maheshwari/psims/data/soils/hwsd200.wrld.30min -weather=/scratch/midway/maheshwari/psims/data/clim/agmerra -refdata=/scratch/midway/maheshwari/psims/campaigns/pdssat/common.isimip -bintransfer=/scratch/midway/maheshwari/psims/bin/DSCSM045.EXE,/scratch/midway/maheshwari/psims/tapps/pdssat/psims2WTH.py,/scratch/midway/maheshwari/psims/tapps/pdssat/OUT2psims.py,/scratch/midway/maheshwari/psims/bin/camp2json.py,/scratch/midway/maheshwari/psims/tapps/pdssat/jsons2dssat.py -tappwth=psims2WTH.py:-o:GENERIC1.WTH:-v:tasmin,tasmax,rsdsr,wind -tappcamp=camp2json.py:-c:Campaign.nc4:-e:exp_template.json:-o:experiment.json -tappinp=jsons2dssat.py:-x:X1234567.MZX:-s:soil.json:-e:experiment.json:-S:SOIL.SOL -executable=DSCSM045.EXE:A:X1234567.MZX -outtypes=.WTH,.MZX,.SOL,.OUT,.json -postprocess=./OUT2psims.py:-
i:Summary.OUT:-v:PDAT,ADAT,MDAT,CWAM,HWAM,IRCM,PRCM,ETCM:--delta:30:-s:4:-y:31:--ref_year:1980 -NCconcat=../bin/append.sh:PDAT,ADAT,MDAT,CWAM,HWAM,IRCM,PRCM,ETCM:PlantDate,AnthesisDate,MaturityDate,TotalBiomass,Yield,IrrigationApplied,GrowingSeasonPrecip,GrowingSeasonET:DOY,DOY,DOY,kg/ha,kg/ha,mm,mm,mm:720:360:30:31:4:1980:./parts:out.psims.dssat45.agmerra.maize.nc4
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