test_data/write_eco/SCSAM048_ECO.R
In palderman/DSSAT: A Comprehensive R Interface for the DSSAT Cropping Systems Model
structure(list(`ECO#` = "SC0001", `ECO-NAME` = "RIDESA BRAZIL",
NS_LF_TIL = 3, N_LF_MAX_ILA = 15, TB0PHO = 12, TB1PHO = 16,
TB2PHO = 32, TBFPHO = 40, TBPER = 18, TBMAX_PER = 35, LTTHRESHOLD = 0.4,
FDEADLF = 0.75, RDM = 120, DPERCOEFF = 2.75, RWUEP1 = 0.3,
RWUEP2 = 0.9, T_MAX_WS_PHO = 0, T_MID_WS_PHO = 0.2, T_MIN_WS_PHO = 0.6,
T_MAX_WS_EXP = 0, T_MID_WS_EXP = 0.4, T_MIN_WS_EXP = 1, FRAC_SUC_BG = 0.5,
FRAC_HEX_BG = 0.5, INIT_PD_RAT = 12, IT_STR_TB_INI = 18,
IT_STR_TO1 = 31, IT_STR_TO2 = 55, IT_STR_TB_END = 60, IT_STR_PF_MAX = 0.95,
IT_STR_PF_MIN = 0, IT_STR_PF_TB = 0, IT_STR_PF_TM = 50, IT_STR_PF_TE = 800,
IT_STR_PF_D = 1, IT_STR_T_RED = 0.15, IT_STR_W_RED = 0.15,
MAX_PER_IT = 4, DSWAT_DDWS = 9.881798, DSWAT_DSUC = 11.24845,
HEX_MIN = 0.004, SUC_ACC_INI = 0.35, DSUC_FRAC_TS = 2.5,
TT_CHUMAT_LT = 1600), class = c("DSSAT_tbl", "tbl_df", "tbl",
"data.frame"), row.names = c(NA, -1L), v_fmt = c(`ECO#` = "%-7s",
`ECO-NAME` = "%-24s", NS_LF_TIL = "%9.0f", N_LF_MAX_ILA = "%15.0f",
TB0PHO = "%15.0f", TB1PHO = "%15.0f", TB2PHO = "%15.0f", TBFPHO = "%15.0f",
TBPER = "%15.0f", TBMAX_PER = "%15.0f", LTTHRESHOLD = "%15.1f",
FDEADLF = "%15.2f", RDM = "%15.0f", DPERCOEFF = "%15.2f", RWUEP1 = "%15.1f",
RWUEP2 = "%15.1f", T_MAX_WS_PHO = "%15.0f", T_MID_WS_PHO = "%15.1f",
T_MIN_WS_PHO = "%15.1f", T_MAX_WS_EXP = "%15.0f", T_MID_WS_EXP = "%15.1f",
T_MIN_WS_EXP = "%15.0f", FRAC_SUC_BG = "%15.1f", FRAC_HEX_BG = "%15.1f",
INIT_PD_RAT = "%15.0f", IT_STR_TB_INI = "%15.0f", IT_STR_TO1 = "%15.0f",
IT_STR_TO2 = "%15.0f", IT_STR_TB_END = "%15.0f", IT_STR_PF_MAX = "%15.2f",
IT_STR_PF_MIN = "%15.0f", IT_STR_PF_TB = "%15.0f", IT_STR_PF_TM = "%15.0f",
IT_STR_PF_TE = "%15.0f", IT_STR_PF_D = "%15.0f", IT_STR_T_RED = "%15.2f",
IT_STR_W_RED = "%15.2f", MAX_PER_IT = "%15.0f", DSWAT_DDWS = "%15.6f",
DSWAT_DSUC = "%15.5f", HEX_MIN = "%15.3f", SUC_ACC_INI = "%15.2f",
DSUC_FRAC_TS = "%15.1f", TT_CHUMAT_LT = "%15.0f"), first_line = "*SUGARCANE ECOTYPE COEFFICIENTS: SCSAM048 MODEL", comments = c("",
" Crop Coefficients for the SAMUCA (Sugarcane) model", " Scientific documentation in Appendix A of Vianna et al (2020):",
" https://doi.org/10.1016/j.compag.2020.105361", "", " COEFF \t\t \tDEFINITIONS",
" ===== \t\t \t===========", " NS_LF_TIL \tNumber of dry leaves to consider on canopy light",
"\t\t\t\t\ttransmission (#/tiller)", " N_LF_MAX_ILA \tNumber of leaves when leaves appear at it maximum initial",
" \t\t\t\t\tarea (#/tiller)", " TB0PHO \tMinimum base temperature for photosynthesis (°C)",
" TB1PHO \tOptimum temperature for photosynthesis (°C)",
" TB2PHO \tOptimum temperature for photosynthesis (°C)",
" TBFPHO \tMaximum base temperature for photosynhesis (°C)",
" TBPER \tMinimum base temperature for plant expansion (°C)",
" TBMAX_PER \tMaximum base temperature for plant expansion (°C)",
" LTTHRESHOLD \tThreshold of light transmited through canopy to start",
"\t\t\t\t\ttiller senescence (0-1)", " FDEADLF \tFraction of dryied leaves blade area considered on canopy",
"\t\t\t\t\tlight transmission (0-1)", " RDM \tMaximum root depth (cm)",
" DPERCOEFF \tMaximum plant expansion rate (mm/h)", " RWUEP1 \tWater Stress Sensitivity of Photosynthesis (dml)",
" RWUEP2 \tWater Stress Sensitivity of Plant Expansion (dml)",
" T_MAX_WS_PHO \tSupply/Demand ratio where water stress effect is maximum",
"\t\t\t\t\tfor photosynthesis (0-1)", " T_MID_WS_PHO \tSupply/Demand ratio where half of maximum water stress",
"\t\t\t\t\teffect (0.5) for photosynthesis occurs (0-1)", " T_MIN_WS_PHO \tSupply/Demand ratio where water stress effect on",
"\t\t\t\t\tphotosynthesis onsets (0-1)", " T_MAX_WS_EXP \tSupply/Demand ratio where water stress effect is maximum",
"\t\t\t\t\tfor expansion (0-1)", " T_MID_WS_EXP \tSupply/Demand ratio where half of maximum water stress",
"\t\t\t\t\teffect (0.5) for expansionoccurs (0-1)", " T_MIN_WS_EXP \tSupply/Demand ratio where water stress effect on expansion",
"\t\t\t\t\tonsets (0-1)", " FRAC_SUC_BG \tSucrose fraction of total sugars of below ground",
"\t\t\t\t\tinternode (0-1)", " FRAC_HEX_BG \tHexose fraction of total sugars of below ground",
"\t\t\t\t\tinternode (0-1)", " INIT_PD_RAT \tInitial plant depth for ratooning cane (cm)",
" IT_STR_TB_INI \tMinimum base temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_TO1 \tOptimum temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_TO2 \tOptimum temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_TB_END \tMaximum base temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_PF_MAX \tMaximum biomass partitioning fraction to structural parts",
"\t\t\t\t\tof internodes (0-1)", " IT_STR_PF_MIN \tMinimum biomass partitioning fraction to structural parts",
"\t\t\t\t\tof internodes (0-1)", " IT_STR_PF_TB \tThermal time for onset of biomass partitioning to internode",
"\t\t\t\t\tstructural parts (°Cdays)", " IT_STR_PF_TM \tThermal time where biomass partitioning to internodes",
"\t\t\t\t\tstructural parts is at maximum (°Cdays)", " IT_STR_PF_TE \tThermal time for biomass partitioning to internodes",
"\t\t\t\t\tstructural parts cessation (°Cdays)", " IT_STR_PF_D \tShape coefficient for biomass partitioning to internodes",
"\t\t\t\t\tstrucutural parts (dml)", " IT_STR_T_RED \tMaximum reduction of internode structural partitioning",
"\t\t\t\t\tdue to temperature (0-1)", " IT_STR_W_RED \tMaximum reduction of internode structural partitioning",
"\t\t\t\t\tdue to water stress (0-1)", " MAX_PER_IT \tMaximum expansion rate of internodes (mm/day)",
" DSWAT_DDWS \tWater weight increment per unit of structural biomass",
"\t\t\t\t\tgain (d[H2O]/d[STR])", " DSWAT_DSUC \tWater weight decrease per unit of sugars biomass",
"\t\t\t\t\tgain (d[H2O]/d[SUG])", " HEX_MIN \tMinimum hexoses fraction of total sugars in a growing",
"\t\t\t\t\tinternode (g/g)", " SUC_ACC_INI \tInternode total sugars concentration where sucrose",
"\t\t\t\t\taccumulation onsets (0-1)", " DSUC_FRAC_TS \tSucrose weight increment per unit of total sugars increment",
"\t\t\t\t\tin internodes (TSUG > suc_acc_ini) (d[SUC]/d[TSUG])",
" TT_CHUMAT_LT \tThermal time required after peak of population for",
"\t\t\t\t\ttillering stabilization (°Cdays)", ""))
palderman/DSSAT documentation built on Feb. 24, 2024, 4:38 a.m.
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structure(list(`ECO#` = "SC0001", `ECO-NAME` = "RIDESA BRAZIL",
NS_LF_TIL = 3, N_LF_MAX_ILA = 15, TB0PHO = 12, TB1PHO = 16,
TB2PHO = 32, TBFPHO = 40, TBPER = 18, TBMAX_PER = 35, LTTHRESHOLD = 0.4,
FDEADLF = 0.75, RDM = 120, DPERCOEFF = 2.75, RWUEP1 = 0.3,
RWUEP2 = 0.9, T_MAX_WS_PHO = 0, T_MID_WS_PHO = 0.2, T_MIN_WS_PHO = 0.6,
T_MAX_WS_EXP = 0, T_MID_WS_EXP = 0.4, T_MIN_WS_EXP = 1, FRAC_SUC_BG = 0.5,
FRAC_HEX_BG = 0.5, INIT_PD_RAT = 12, IT_STR_TB_INI = 18,
IT_STR_TO1 = 31, IT_STR_TO2 = 55, IT_STR_TB_END = 60, IT_STR_PF_MAX = 0.95,
IT_STR_PF_MIN = 0, IT_STR_PF_TB = 0, IT_STR_PF_TM = 50, IT_STR_PF_TE = 800,
IT_STR_PF_D = 1, IT_STR_T_RED = 0.15, IT_STR_W_RED = 0.15,
MAX_PER_IT = 4, DSWAT_DDWS = 9.881798, DSWAT_DSUC = 11.24845,
HEX_MIN = 0.004, SUC_ACC_INI = 0.35, DSUC_FRAC_TS = 2.5,
TT_CHUMAT_LT = 1600), class = c("DSSAT_tbl", "tbl_df", "tbl",
"data.frame"), row.names = c(NA, -1L), v_fmt = c(`ECO#` = "%-7s",
`ECO-NAME` = "%-24s", NS_LF_TIL = "%9.0f", N_LF_MAX_ILA = "%15.0f",
TB0PHO = "%15.0f", TB1PHO = "%15.0f", TB2PHO = "%15.0f", TBFPHO = "%15.0f",
TBPER = "%15.0f", TBMAX_PER = "%15.0f", LTTHRESHOLD = "%15.1f",
FDEADLF = "%15.2f", RDM = "%15.0f", DPERCOEFF = "%15.2f", RWUEP1 = "%15.1f",
RWUEP2 = "%15.1f", T_MAX_WS_PHO = "%15.0f", T_MID_WS_PHO = "%15.1f",
T_MIN_WS_PHO = "%15.1f", T_MAX_WS_EXP = "%15.0f", T_MID_WS_EXP = "%15.1f",
T_MIN_WS_EXP = "%15.0f", FRAC_SUC_BG = "%15.1f", FRAC_HEX_BG = "%15.1f",
INIT_PD_RAT = "%15.0f", IT_STR_TB_INI = "%15.0f", IT_STR_TO1 = "%15.0f",
IT_STR_TO2 = "%15.0f", IT_STR_TB_END = "%15.0f", IT_STR_PF_MAX = "%15.2f",
IT_STR_PF_MIN = "%15.0f", IT_STR_PF_TB = "%15.0f", IT_STR_PF_TM = "%15.0f",
IT_STR_PF_TE = "%15.0f", IT_STR_PF_D = "%15.0f", IT_STR_T_RED = "%15.2f",
IT_STR_W_RED = "%15.2f", MAX_PER_IT = "%15.0f", DSWAT_DDWS = "%15.6f",
DSWAT_DSUC = "%15.5f", HEX_MIN = "%15.3f", SUC_ACC_INI = "%15.2f",
DSUC_FRAC_TS = "%15.1f", TT_CHUMAT_LT = "%15.0f"), first_line = "*SUGARCANE ECOTYPE COEFFICIENTS: SCSAM048 MODEL", comments = c("",
" Crop Coefficients for the SAMUCA (Sugarcane) model", " Scientific documentation in Appendix A of Vianna et al (2020):",
" https://doi.org/10.1016/j.compag.2020.105361", "", " COEFF \t\t \tDEFINITIONS",
" ===== \t\t \t===========", " NS_LF_TIL \tNumber of dry leaves to consider on canopy light",
"\t\t\t\t\ttransmission (#/tiller)", " N_LF_MAX_ILA \tNumber of leaves when leaves appear at it maximum initial",
" \t\t\t\t\tarea (#/tiller)", " TB0PHO \tMinimum base temperature for photosynthesis (°C)",
" TB1PHO \tOptimum temperature for photosynthesis (°C)",
" TB2PHO \tOptimum temperature for photosynthesis (°C)",
" TBFPHO \tMaximum base temperature for photosynhesis (°C)",
" TBPER \tMinimum base temperature for plant expansion (°C)",
" TBMAX_PER \tMaximum base temperature for plant expansion (°C)",
" LTTHRESHOLD \tThreshold of light transmited through canopy to start",
"\t\t\t\t\ttiller senescence (0-1)", " FDEADLF \tFraction of dryied leaves blade area considered on canopy",
"\t\t\t\t\tlight transmission (0-1)", " RDM \tMaximum root depth (cm)",
" DPERCOEFF \tMaximum plant expansion rate (mm/h)", " RWUEP1 \tWater Stress Sensitivity of Photosynthesis (dml)",
" RWUEP2 \tWater Stress Sensitivity of Plant Expansion (dml)",
" T_MAX_WS_PHO \tSupply/Demand ratio where water stress effect is maximum",
"\t\t\t\t\tfor photosynthesis (0-1)", " T_MID_WS_PHO \tSupply/Demand ratio where half of maximum water stress",
"\t\t\t\t\teffect (0.5) for photosynthesis occurs (0-1)", " T_MIN_WS_PHO \tSupply/Demand ratio where water stress effect on",
"\t\t\t\t\tphotosynthesis onsets (0-1)", " T_MAX_WS_EXP \tSupply/Demand ratio where water stress effect is maximum",
"\t\t\t\t\tfor expansion (0-1)", " T_MID_WS_EXP \tSupply/Demand ratio where half of maximum water stress",
"\t\t\t\t\teffect (0.5) for expansionoccurs (0-1)", " T_MIN_WS_EXP \tSupply/Demand ratio where water stress effect on expansion",
"\t\t\t\t\tonsets (0-1)", " FRAC_SUC_BG \tSucrose fraction of total sugars of below ground",
"\t\t\t\t\tinternode (0-1)", " FRAC_HEX_BG \tHexose fraction of total sugars of below ground",
"\t\t\t\t\tinternode (0-1)", " INIT_PD_RAT \tInitial plant depth for ratooning cane (cm)",
" IT_STR_TB_INI \tMinimum base temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_TO1 \tOptimum temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_TO2 \tOptimum temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_TB_END \tMaximum base temperature for internode structural",
"\t\t\t\t\tpartitioning (°C)", " IT_STR_PF_MAX \tMaximum biomass partitioning fraction to structural parts",
"\t\t\t\t\tof internodes (0-1)", " IT_STR_PF_MIN \tMinimum biomass partitioning fraction to structural parts",
"\t\t\t\t\tof internodes (0-1)", " IT_STR_PF_TB \tThermal time for onset of biomass partitioning to internode",
"\t\t\t\t\tstructural parts (°Cdays)", " IT_STR_PF_TM \tThermal time where biomass partitioning to internodes",
"\t\t\t\t\tstructural parts is at maximum (°Cdays)", " IT_STR_PF_TE \tThermal time for biomass partitioning to internodes",
"\t\t\t\t\tstructural parts cessation (°Cdays)", " IT_STR_PF_D \tShape coefficient for biomass partitioning to internodes",
"\t\t\t\t\tstrucutural parts (dml)", " IT_STR_T_RED \tMaximum reduction of internode structural partitioning",
"\t\t\t\t\tdue to temperature (0-1)", " IT_STR_W_RED \tMaximum reduction of internode structural partitioning",
"\t\t\t\t\tdue to water stress (0-1)", " MAX_PER_IT \tMaximum expansion rate of internodes (mm/day)",
" DSWAT_DDWS \tWater weight increment per unit of structural biomass",
"\t\t\t\t\tgain (d[H2O]/d[STR])", " DSWAT_DSUC \tWater weight decrease per unit of sugars biomass",
"\t\t\t\t\tgain (d[H2O]/d[SUG])", " HEX_MIN \tMinimum hexoses fraction of total sugars in a growing",
"\t\t\t\t\tinternode (g/g)", " SUC_ACC_INI \tInternode total sugars concentration where sucrose",
"\t\t\t\t\taccumulation onsets (0-1)", " DSUC_FRAC_TS \tSucrose weight increment per unit of total sugars increment",
"\t\t\t\t\tin internodes (TSUG > suc_acc_ini) (d[SUC]/d[TSUG])",
" TT_CHUMAT_LT \tThermal time required after peak of population for",
"\t\t\t\t\ttillering stabilization (°Cdays)", ""))
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