netcdf test5_time20170802 { dimensions: TSTEP = UNLIMITED ; // (1 currently) DATE-TIME = 2 ; LAY = 42 ; VAR = 57 ; ROW = 42 ; COL = 60 ; variables: int TFLAG(TSTEP, VAR, DATE-TIME) ; TFLAG:units = "" ; TFLAG:long_name = "TFLAG " ; TFLAG:var_desc = "Timestep-valid flags: (1) YYYYDDD or (2) HHMMSS " ; float QNO3(TSTEP, LAY, ROW, COL) ; QNO3:units = "kg/ha" ; QNO3:missing_value = -9.999e+36f ; QNO3:long_name = "QNO3 " ; QNO3:var_desc = "N Loss in Surface Runoff " ; float SSFN(TSTEP, LAY, ROW, COL) ; SSFN:units = "kg/ha" ; SSFN:missing_value = -9.999e+36f ; SSFN:long_name = "SSFN " ; SSFN:var_desc = "N in Subsurface Flow " ; float PRKN(TSTEP, LAY, ROW, COL) ; PRKN:units = "kg/ha" ; PRKN:missing_value = -9.999e+36f ; PRKN:long_name = "PRKN " ; PRKN:var_desc = "N Loss in Percolate " ; float DN(TSTEP, LAY, ROW, COL) ; DN:units = "kg/ha" ; DN:missing_value = -9.999e+36f ; DN:long_name = "DN " ; DN:var_desc = "N-NO3 Denitrification " ; float DN2(TSTEP, LAY, ROW, COL) ; DN2:units = "kg/ha" ; DN2:missing_value = -9.999e+36f ; DN2:long_name = "DN2 " ; DN2:var_desc = "N-N2O from NO3 Denitrification " ; float AVOL(TSTEP, LAY, ROW, COL) ; AVOL:units = "kg/ha" ; AVOL:missing_value = -9.999e+36f ; AVOL:long_name = "AVOL " ; AVOL:var_desc = "N-NH3 Emission " ; float HMN(TSTEP, LAY, ROW, COL) ; HMN:units = "kg/ha" ; HMN:missing_value = -9.999e+36f ; HMN:long_name = "HMN " ; HMN:var_desc = "OC Change by Soil Respiration " ; float NFIX(TSTEP, LAY, ROW, COL) ; NFIX:units = "kg/ha" ; NFIX:missing_value = -9.999e+36f ; NFIX:long_name = "NFIX " ; NFIX:var_desc = "N Fixation " ; float YP(TSTEP, LAY, ROW, COL) ; YP:units = "kg/ha" ; YP:missing_value = -9.999e+36f ; YP:long_name = "YP " ; YP:var_desc = "P Loss with Sediment " ; float QAP(TSTEP, LAY, ROW, COL) ; QAP:units = "kg/ha" ; QAP:missing_value = -9.999e+36f ; QAP:long_name = "QAP " ; QAP:var_desc = "Labile P Loss in Runoff " ; float YON(TSTEP, LAY, ROW, COL) ; YON:units = "kg/ha" ; YON:missing_value = -9.999e+36f ; YON:long_name = "YON " ; YON:var_desc = "N Loss with Sediment " ; float YW(TSTEP, LAY, ROW, COL) ; YW:units = "ton/ha" ; YW:missing_value = -9.999e+36f ; YW:long_name = "YW " ; YW:var_desc = "Wind Erosion " ; float Q(TSTEP, LAY, ROW, COL) ; Q:units = "mm" ; Q:missing_value = -9.999e+36f ; Q:long_name = "Q " ; Q:var_desc = "Runoff " ; float HUSC(TSTEP, LAY, ROW, COL) ; HUSC:units = "none" ; HUSC:missing_value = -9.999e+36f ; HUSC:long_name = "HUSC " ; HUSC:var_desc = "Heat Unit Schedule " ; float HU_BASE0(TSTEP, LAY, ROW, COL) ; HU_BASE0:units = "none" ; HU_BASE0:missing_value = -9.999e+36f ; HU_BASE0:long_name = "HU_BASE0 " ; HU_BASE0:var_desc = "Base Heat Unit " ; float HU_FRAC(TSTEP, LAY, ROW, COL) ; HU_FRAC:units = "none" ; HU_FRAC:missing_value = -9.999e+36f ; HU_FRAC:long_name = "HU_FRAC " ; HU_FRAC:var_desc = "Heat Unit fraction " ; float L1_DEP(TSTEP, LAY, ROW, COL) ; L1_DEP:units = "m" ; L1_DEP:missing_value = -9.999e+36f ; L1_DEP:long_name = "L1_DEP " ; L1_DEP:var_desc = "Layer1 Depth " ; float L1_BD(TSTEP, LAY, ROW, COL) ; L1_BD:units = "t/m**3" ; L1_BD:missing_value = -9.999e+36f ; L1_BD:long_name = "L1_BD " ; L1_BD:var_desc = "Layer1 Bulk Density " ; float L1_NO3(TSTEP, LAY, ROW, COL) ; L1_NO3:units = "kg/ha" ; L1_NO3:missing_value = -9.999e+36f ; L1_NO3:long_name = "L1_NO3 " ; L1_NO3:var_desc = "Layer1 N - Nitrate " ; float L1_NH3(TSTEP, LAY, ROW, COL) ; L1_NH3:units = "kg/ha" ; L1_NH3:missing_value = -9.999e+36f ; L1_NH3:long_name = "L1_NH3 " ; L1_NH3:var_desc = "Layer1 N - Ammonia " ; float L1_ON(TSTEP, LAY, ROW, COL) ; L1_ON:units = "kg/ha" ; L1_ON:missing_value = -9.999e+36f ; L1_ON:long_name = "L1_ON " ; L1_ON:var_desc = "Layer1 Organic N " ; float L1_P(TSTEP, LAY, ROW, COL) ; L1_P:units = "kg/ha" ; L1_P:missing_value = -9.999e+36f ; L1_P:long_name = "L1_P " ; L1_P:var_desc = "Layer1 Mineral P " ; float L1_OP(TSTEP, LAY, ROW, COL) ; L1_OP:units = "kg/ha" ; L1_OP:missing_value = -9.999e+36f ; L1_OP:long_name = "L1_OP " ; L1_OP:var_desc = "Layer1 Organic P " ; float L1_C(TSTEP, LAY, ROW, COL) ; L1_C:units = "kg/ha" ; L1_C:missing_value = -9.999e+36f ; L1_C:long_name = "L1_C " ; L1_C:var_desc = "Layer1 Carbon " ; float L1_NITR(TSTEP, LAY, ROW, COL) ; L1_NITR:units = "kg/ha" ; L1_NITR:missing_value = -9.999e+36f ; L1_NITR:long_name = "L1_NITR " ; L1_NITR:var_desc = "Layer1 N - Nitrified NH3 " ; float L2_DEP(TSTEP, LAY, ROW, COL) ; L2_DEP:units = "m" ; L2_DEP:missing_value = -9.999e+36f ; L2_DEP:long_name = "L2_DEP " ; L2_DEP:var_desc = "Layer2 Depth " ; float L2_BD(TSTEP, LAY, ROW, COL) ; L2_BD:units = "t/m**3" ; L2_BD:missing_value = -9.999e+36f ; L2_BD:long_name = "L2_BD " ; L2_BD:var_desc = "Layer2 Bulk Density " ; float L2_NO3(TSTEP, LAY, ROW, COL) ; L2_NO3:units = "kg/ha" ; L2_NO3:missing_value = -9.999e+36f ; L2_NO3:long_name = "L2_NO3 " ; L2_NO3:var_desc = "Layer2 N - Nitrate " ; float L2_NH3(TSTEP, LAY, ROW, COL) ; L2_NH3:units = "kg/ha" ; L2_NH3:missing_value = -9.999e+36f ; L2_NH3:long_name = "L2_NH3 " ; L2_NH3:var_desc = "Layer2 N- Ammonia " ; float L2_ON(TSTEP, LAY, ROW, COL) ; L2_ON:units = "kg/ha" ; L2_ON:missing_value = -9.999e+36f ; L2_ON:long_name = "L2_ON " ; L2_ON:var_desc = "Layer2 Organic N " ; float L2_P(TSTEP, LAY, ROW, COL) ; L2_P:units = "kg/ha" ; L2_P:missing_value = -9.999e+36f ; L2_P:long_name = "L2_P " ; L2_P:var_desc = "Layer2 Mineral P " ; float L2_OP(TSTEP, LAY, ROW, COL) ; L2_OP:units = "kg/ha" ; L2_OP:missing_value = -9.999e+36f ; L2_OP:long_name = "L2_OP " ; L2_OP:var_desc = "Layer2 Organic P " ; float L2_C(TSTEP, LAY, ROW, COL) ; L2_C:units = "kg/ha" ; L2_C:missing_value = -9.999e+36f ; L2_C:long_name = "L2_C " ; L2_C:var_desc = "Layer2 Carbon " ; float L2_NITR(TSTEP, LAY, ROW, COL) ; L2_NITR:units = "kg/ha" ; L2_NITR:missing_value = -9.999e+36f ; L2_NITR:long_name = "L2_NITR " ; L2_NITR:var_desc = "Layer2 N - Nitrified NH3 " ; float T1_DEP(TSTEP, LAY, ROW, COL) ; T1_DEP:units = "m" ; T1_DEP:missing_value = -9.999e+36f ; T1_DEP:long_name = "T1_DEP " ; T1_DEP:var_desc = "TotalSoilnoLayer1 Depth " ; float T1_BD(TSTEP, LAY, ROW, COL) ; T1_BD:units = "t/m**3" ; T1_BD:missing_value = -9.999e+36f ; T1_BD:long_name = "T1_BD " ; T1_BD:var_desc = "TotalSoilnoLayer1 Bulk Density " ; float T1_NO3(TSTEP, LAY, ROW, COL) ; T1_NO3:units = "kg/ha" ; T1_NO3:missing_value = -9.999e+36f ; T1_NO3:long_name = "T1_NO3 " ; T1_NO3:var_desc = "TotalSoilnoLayer1 N - Nitrate " ; float T1_NH3(TSTEP, LAY, ROW, COL) ; T1_NH3:units = "kg/ha" ; T1_NH3:missing_value = -9.999e+36f ; T1_NH3:long_name = "T1_NH3 " ; T1_NH3:var_desc = "TotalSoilnoLayer1 N - Ammonia " ; float T1_ON(TSTEP, LAY, ROW, COL) ; T1_ON:units = "kg/ha" ; T1_ON:missing_value = -9.999e+36f ; T1_ON:long_name = "T1_ON " ; T1_ON:var_desc = "TotalSoilnoLayer1 Organic N " ; float T1_P(TSTEP, LAY, ROW, COL) ; T1_P:units = "kg/ha" ; T1_P:missing_value = -9.999e+36f ; T1_P:long_name = "T1_P " ; T1_P:var_desc = "TotalSoilnoLayer1 Mineral P " ; float T1_OP(TSTEP, LAY, ROW, COL) ; T1_OP:units = "kg/ha" ; T1_OP:missing_value = -9.999e+36f ; T1_OP:long_name = "T1_OP " ; T1_OP:var_desc = "TotalSoilnoLayer1 Organic P " ; float T1_C(TSTEP, LAY, ROW, COL) ; T1_C:units = "kg/ha" ; T1_C:missing_value = -9.999e+36f ; T1_C:long_name = "T1_C " ; T1_C:var_desc = "TotalSoilnoLayer1 Carbon " ; float T1_NITR(TSTEP, LAY, ROW, COL) ; T1_NITR:units = "kg/ha" ; T1_NITR:missing_value = -9.999e+36f ; T1_NITR:long_name = "T1_NITR " ; T1_NITR:var_desc = "TotalSoilnoLayer1 N - Nitrified NH3 " ; float L1_ANO3(TSTEP, LAY, ROW, COL) ; L1_ANO3:units = "kg/ha" ; L1_ANO3:missing_value = -9.999e+36f ; L1_ANO3:long_name = "L1_ANO3 " ; L1_ANO3:var_desc = "Layer1 N-NO3 AppRate " ; float L1_ANH3(TSTEP, LAY, ROW, COL) ; L1_ANH3:units = "kg/ha" ; L1_ANH3:missing_value = -9.999e+36f ; L1_ANH3:long_name = "L1_ANH3 " ; L1_ANH3:var_desc = "Layer1 N-NH3 AppRate " ; float L1_AON(TSTEP, LAY, ROW, COL) ; L1_AON:units = "kg/ha" ; L1_AON:missing_value = -9.999e+36f ; L1_AON:long_name = "L1_AON " ; L1_AON:var_desc = "Layer1 ON AppRate " ; float L1_AMP(TSTEP, LAY, ROW, COL) ; L1_AMP:units = "kg/ha" ; L1_AMP:missing_value = -9.999e+36f ; L1_AMP:long_name = "L1_AMP " ; L1_AMP:var_desc = "Layer1 MP AppRate " ; float L1_AOP(TSTEP, LAY, ROW, COL) ; L1_AOP:units = "kg/ha" ; L1_AOP:missing_value = -9.999e+36f ; L1_AOP:long_name = "L1_AOP " ; L1_AOP:var_desc = "Layer1 OP AppRate " ; float L2_ANO3(TSTEP, LAY, ROW, COL) ; L2_ANO3:units = "kg/ha" ; L2_ANO3:missing_value = -9.999e+36f ; L2_ANO3:long_name = "L2_ANO3 " ; L2_ANO3:var_desc = "Layer2 N-NO3 AppRate " ; float L2_ANH3(TSTEP, LAY, ROW, COL) ; L2_ANH3:units = "kg/ha" ; L2_ANH3:missing_value = -9.999e+36f ; L2_ANH3:long_name = "L2_ANH3 " ; L2_ANH3:var_desc = "Layer2 N-NH3 AppRate " ; float L2_AON(TSTEP, LAY, ROW, COL) ; L2_AON:units = "kg/ha" ; L2_AON:missing_value = -9.999e+36f ; L2_AON:long_name = "L2_AON " ; L2_AON:var_desc = "Layer2 ON AppRate " ; float L2_AMP(TSTEP, LAY, ROW, COL) ; L2_AMP:units = "kg/ha" ; L2_AMP:missing_value = -9.999e+36f ; L2_AMP:long_name = "L2_AMP " ; L2_AMP:var_desc = "Layer2 MP AppRate " ; float L2_AOP(TSTEP, LAY, ROW, COL) ; L2_AOP:units = "kg/ha" ; L2_AOP:missing_value = -9.999e+36f ; L2_AOP:long_name = "L2_AOP " ; L2_AOP:var_desc = "Layer2 OP AppRate " ; float UN1(TSTEP, LAY, ROW, COL) ; UN1:units = "kg/ha" ; UN1:missing_value = -9.999e+36f ; UN1:long_name = "UN1 " ; UN1:var_desc = "N Uptake by Crop " ; float HUI(TSTEP, LAY, ROW, COL) ; HUI:units = "None" ; HUI:missing_value = -9.999e+36f ; HUI:long_name = "HUI " ; HUI:var_desc = "Heat Unit Index " ; float LAI(TSTEP, LAY, ROW, COL) ; LAI:units = "None" ; LAI:missing_value = -9.999e+36f ; LAI:long_name = "LAI " ; LAI:var_desc = "Leaf Area Index " ; float CPHT(TSTEP, LAY, ROW, COL) ; CPHT:units = "m" ; CPHT:missing_value = -9.999e+36f ; CPHT:long_name = "CPHT " ; CPHT:var_desc = "Crop Height " ; // global attributes: :IOAPI_VERSION = "1.0 1997349 (Dec. 15, 1997)" ; :EXEC_ID = "???????????????? " ; :FTYPE = 1 ; :CDATE = 2023101 ; :CTIME = 1035 ; :WDATE = 2023101 ; :WTIME = 1035 ; :SDATE = 2017214 ; :STIME = 0 ; :TSTEP = 240000 ; :NTHIK = 1 ; :NCOLS = 60 ; :NROWS = 42 ; :NLAYS = 42 ; :NVARS = 57 ; :GDTYP = 2 ; :P_ALP = 30. ; :P_BET = 60. ; :P_GAM = 100.800003051758 ; :XCENT = 100.800003051758 ; :YCENT = 40. ; :XORIG = -450000. ; :YORIG = -1062000. ; :XCELL = 15000. ; :YCELL = 15000. ; :VGTYP = 2 ; :VGTOP = 63.f ; :VGLVLS = 0.22f, 0.23f, 0.24f, 0.25f, 0.26f, 0.27f, 0.28f, 0.29f, 0.3f, 0.31f, 0.32f, 0.33f, 0.34f, 0.35f, 0.36f, 0.37f, 0.38f, 0.39f, 0.4f, 0.41f, 0.42f, 0.43f, 0.44f, 0.45f, 0.46f, 0.47f, 0.48f, 0.49f, 0.5f, 0.51f, 0.52f, 0.53f, 0.54f, 0.55f, 0.56f, 0.57f, 0.58f, 0.59f, 0.6f, 0.61f, 0.62f, 0.63f, 1.f ; :GDNAM = "2017test5 " ; :UPNAM = " " ; :VAR-LIST = "QNO3 SSFN PRKN DN DN2 AVOL HMN NFIX YP QAP YON YW Q HUSC HU_BASE0 HU_FRAC L1_DEP L1_BD L1_NO3 L1_NH3 L1_ON L1_P L1_OP L1_C L1_NITR L2_DEP L2_BD L2_NO3 L2_NH3 L2_ON L2_P L2_OP L2_C L2_NITR T1_DEP T1_BD T1_NO3 T1_NH3 T1_ON T1_P T1_OP T1_C T1_NITR L1_ANO3 L1_ANH3 L1_AON L1_AMP L1_AOP L2_ANO3 L2_ANH3 L2_AON L2_AMP L2_AOP UN1 HUI LAI CPHT " ; :FILEDESC = "EPIC daily output data " ; :HISTORY = " " ; }