Mercurial > repos > siwaa > redelac_stics_g
comparison config/internal_variables_v10.csv @ 0:c7d424481b03 draft
"planemo upload for repository https://forgemia.inra.fr/redelac"
| author | siwaa |
|---|---|
| date | Wed, 07 Jun 2023 06:08:27 +0000 |
| parents | |
| children |
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| -1:000000000000 | 0:c7d424481b03 |
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| 1 name;definition;unit;name in code;english name;who | |
| 2 A_LAI;shapes of the senescence curve;SD;;;DR | |
| 3 absodrp;variable relecting the nitrogen status of the crop from the starting date of filling of harvested organs;SD;absodrp;;FF | |
| 4 absz;actual N uptake in each elementary soil layer;kg N ha-1 day-1;absz;;FF | |
| 5 albsol;albedo of the soil;SD;albsol;;ML | |
| 6 alloresp;daily coeffiscient of allocation of remobilised biomass between structural and reserves pools of perennial organs;SD;alloresp;;LS | |
| 7 amplsurf;daily thermal amplitude at the surface;degreesC;amplsurf;;JL | |
| 8 amplz;daily thermal amplitude;degreesC;amplz;;JL | |
| 9 azorac;amount of mineral nitrogen in the rooting zone;kg N ha-1;azorac;;FF | |
| 10 B_LAI;shapes of the growth curve;SD;;;DR | |
| 11 bpsisol;retention curve parameter 2;SD;bpsisol;;JL | |
| 12 CCper;carbon concentration in perennial organs;g C kg-1 DM;CCper;;FF | |
| 13 CCrac;carbon concentration in roots;g C kg-1 DM;CCRac;;FF | |
| 14 coeflev;ratio between the emerged and the germinated density depending on non-optimal water content and temperature conditions;SD;coeflev (l.268 de Stics_levee.f90);;DR | |
| 15 coeflevb;ratio between the emerged and the germinated density depending on the crust layer;SD;coeflev (l.270 de Stics_levee.f90);;ML | |
| 16 concN;mean nitrate concentration in each elementary soil layer;kg N ha-1 mm-1 water;concN;;FF | |
| 17 conv;daily convection flow of N in each elementary soil layer;kg N ha-1 day-1;conv;;FF | |
| 18 crust;indicator of crust conditions at the soil surface;0/1;null;;DR | |
| 19 CsurNper;C/N ratio of the storage organs;SD;;;DR | |
| 20 CsurNresid;C/N ratio of falling leaves;SD;CsurNresid;CN_ratio_falling_leaves;DR | |
| 21 CsurNressuite;C/N ratio of calculated crop residue for the next crop;SD;CsurNressuite;CN_ratio_residu_returning_in_soil;DR | |
| 22 CsurNsol;C to N ratio of soil throughout time;SD;CsurNsol;;FF | |
| 23 cuh;chilling hourly units;degrees C;cuh;;DR | |
| 24 cumoffrN;sum of nitrogen soil supply over the profile;kg N ha-1;cumoffrN;sum_soil_N_supply;DR | |
| 25 da;bulk soil density;g cm-3;daz??;bulk_soil_density;AM | |
| 26 DELTABSO;nitrogen dependant biomass growth;t ha-1 day-1;?;;AM variable | |
| 27 deltai_1;daily increase of the green leaf index for determinate crops;m2 leaf m-2 soil;?;;AM | |
| 28 deltai_2;daily increase of the green leaf index for indeterminate crops;m2 leaf m-2 soil;?;;AM | |
| 29 deltai_dens; density component of deltai; plant m-2; ??; density_component_deltai;AM | |
| 30 deltai_dev;phasic development component of deltai;m2 plant-1 degree.day-1;;deltai_dev;AM | |
| 31 deltai_stress;stress component of deltai;SD;;deltai_stress;AM | |
| 32 deltai_T;thermal component of deltai;degree.days;;deltai_T;AM | |
| 33 deltaimax;maximum increase in leaf expansion;m2 leaf m-2 soil;?;;AM | |
| 34 DELTAMSRESEN;senescence rate of residual dry matter after forage crop cutting;t DM ha-1 day-1;?;;AM | |
| 35 deltat;gradient of the relationship between saturation pressure and temperature;mbars;deltat;saturation_deficit;DR | |
| 36 deltatemp;difference in mean daily temperature inside and outside a greenhouse;degrees C;deltatemp;;ML | |
| 37 deltaz_stress;Stress component of deltaz;SD;??;stress_component_deltaz;AM | |
| 38 deltaz_T;Thermal component of deltaz;cm day-1;??;thermal_component_deltaz;AM | |
| 39 densiteger;density of germinated plants;plants.m-2;densiteger;;ML | |
| 40 densitelev;density of emerged plants;plants.m-2;densitelev;;ML | |
| 41 diff;diffusion flow of N in each elementary soil layer;kg N ha-1 day-1;diff;;FF | |
| 42 difNe;effective diffusion coefficient of nitrate in soil;cm2 day-1;diff;;FF | |
| 43 dltafv;daily biomass partitioning to the structural part of green leaves;t DM ha-1;dltafv;;LS | |
| 44 dltamsrac;daily root gowth;t DM ha-1 day-1;dltamsrac;;FF | |
| 45 dltamsracmort;daily dead root biomass on the root depth;t DM ha-1 day-1;dltamsracmort;dailydeadrootbiomass?;DR | |
| 46 dltaQCracmort; Cumulative amount of C lost by dead roots over the soil profile;kg N ha-1 day-1;;;DR | |
| 47 dltaQNracmort; Cumulative amount of N lost by dead roots over the soil profile;kg N ha-1 day-1;;;DR | |
| 48 dltaremobsen;daily biomass remobilised during leaves senescence;t DM ha-1;dltaremobsen;;LS | |
| 49 dltares;daily biomass partitioning to the temporary reserves;t DM ha-1;deltares;;LS | |
| 50 dltaresper;daily biomass remobilised from temporary reserves allocated to perennial organs reserves;t DM ha-1;dltaresper;;LS | |
| 51 dltarestemp;daily biomass remobilised from temporary reserves to perennial organs;t DM ha-1;dltarestemp;;LS | |
| 52 dltarestemp2;daily biomass remobilised from temporary reserves to perennial organs;t DM ha-1;dltarestemp;;LS | |
| 53 dltat;daily biomass partitioning to the structural part of stems;t DM ha-1;dltat;;LS | |
| 54 dos;saturation deficit within the canopy;mbars;dos;;ML | |
| 55 dpHvol;increase of soil pH after manure application;SD;dpHvol;;FF | |
| 56 dpHvolm;maximum pH increase following the application of slurry (taking into account the amount of inorganic N applied) ;SD;dpHvolm;;FF | |
| 57 drlsenf;length of dead fine roots in layer iz on day n;cm cm-2 soil;;;DR | |
| 58 drlseng;length of dead coarse roots in layer iz on day n;cm cm-2 soil;;;DR | |
| 59 dsat;air saturation deficit;mbars;dsat;air_saturation_deficit;DR | |
| 60 DURAGE;natural lifespan of leaves;Q10;?;;AM | |
| 61 DURVIEFv;maximal lifespan of an adult leaf;Q10;?;;AM | |
| 62 DURVIEIp;lifespan of a young leal (at the AMF stage) expressed as a proportion of DURVIEF;SD;?;;AM | |
| 63 E;snow compaction parameter;mm mm-1 day-1;E;E_snow_compaction;DR | |
| 64 Edirectm;maximum value of Edirect;mm day-1;Edirectm;;ML | |
| 65 effN;Nitrogen use efficiency;SD;effN;NUE;DR | |
| 66 elong;elongation of the coleoptile;cm;elong;;DR | |
| 67 emissa;emissivity of the atmosphere;0-1;emissa;;ML | |
| 68 epz;daily transpiration flow in each elementary soil layer;mm day-1;epz;;FF | |
| 69 ePT(t);potential evapotranspiration according to Priestley-Taylor formula;mm day-1;pas dans le code;;ML | |
| 70 estimet;evapotranspiration estimated from the water balance for the previous day and the climatic demand of the day in case of greenhouse;mm day-1;estimet;;ML | |
| 71 esz;evaporation soil profile;mm day-1 cm-1;esz;;ML | |
| 72 etmax;maximum value of daily evaporation flux;W m-2;etmax;;ML | |
| 73 etmin;minimum value of daily evaporation flux;W m-2;etmin;;ML | |
| 74 FGELJUV;frost index acting on LAI during the juvenile phase;SD;?;;AM | |
| 75 fgellev;frost index acting on plant density during the plantlet phase;SD;fgellev;;DR | |
| 76 FGELVEG;frost index acting on LAI during the vegetative phase;SD;?;;AM | |
| 77 fh;moisture factor on humus and residue decomposition rates;SD;fh;;FF | |
| 78 fluxrac;potential N uptake rate in each elementary soil layer;kg N ha-1 day-1;fluxrac;;FF | |
| 79 fluxsol;daily soil N supply in each elementary soil layer;kg N ha-1 day-1;fluxsol;;FF | |
| 80 FPH;soil pH effect on the volatilisation;pH;volmax;volatilisation_pH_reduction;DR | |
| 81 Fr;ratio of rain in repartition between rain and snow rain;0-1;?;;DR | |
| 82 fracinsol;insolation fraction;0-1;fracinsol;;ML | |
| 83 fruis;proportion of run-off water above the activation threshold (pminruis);SD;fruis;;ML | |
| 84 Fs;ratio of snow in repartition between rain and snow rain;0-1;fs;;DR | |
| 85 ftempremp;thermal stress index as a function of temperature using cardinal temperatures (tminremp et tmaxremp);0-1;ftempremp;;PL | |
| 86 FsNH3;potential ammonia volatilization rate;microgram m-2 day-1;FsNH3;;FF | |
| 87 fth;temperature factor on humus mineralisation rate;SD;fth;;FF | |
| 88 ftr;temperature factor on residue decomposition rate;SD;ftr;;FF | |
| 89 gamma;psychrometrc constant;mb degreeC-1;gamma;gamma_psychometric_constant;DR | |
| 90 gmax;maximum value of daily soil heat flux;W m-2;GMAX;;ML | |
| 91 gmin;minimum value of daily soil heat flux;W m-2;GMIN;;ML | |
| 92 grainsnb;number of grains per square meter;grains m-2;??;grainsnb;BD | |
| 93 ha;residual soil water content in the sed bed;mm water cm soil-1;ha;;ML | |
| 94 HB;soil layer between the seedbe and the root front;cm;null;;DR | |
| 95 hn;wilting point mean in the seed bed;mm water cm soil-1;hn;;DR | |
| 96 hucc;elementary layer soil water content at field capacity;mm water cm soil-1;hucc;;JL | |
| 97 HCUM;available water over the rooting zone;mm water g soil-1 x 100;pas dans le code;;ML | |
| 98 humin;elementary layer soil water content at wilting point;mm water cm soil-1;humin;;JL | |
| 99 humirac;influence of soil water content on germination and root growth;SD;humirac;soil_water_content_germination_roor;AM | |
| 100 humsol;soil moisture;mm water cm soil-1;humsol;;DR | |
| 101 hur;microporosity elementary layer soil water content;mm water cm soil-1;hur;;JL | |
| 102 hx;mean water content at field capacity in the sed bed;mm water cm soil-1;hx;;DR | |
| 103 ilets;date of the plantlet stage;days;ilets;;DR | |
| 104 IMB;date of the beginning of seed moistening;days;null;;DR | |
| 105 INNI;instantaneous nitrogen index;SD;?;;AM variable | |
| 106 jvi;vernalizing contribution of a given day;nb days;;;ML | |
| 107 K;melting rate;mm degrees C-1 day-1;K;K_snow;DR | |
| 108 K_LAI;maximal LAI produced;m2 m-2;;;DR | |
| 109 K2;actual mineralisation rate of humus;day-1;K2;;FF | |
| 110 K2hum;potential mineralisation rate of humus;day-1;K2hum;;FF | |
| 111 kgdiffus;proportion of diffusive radiation reaching the soil;SD;?;;AM | |
| 112 kgdirect;proportion of direct radiation reaching the soil;SD;?;;AM | |
| 113 kh;coefficient of heat transfer in the cold shelter;W m-2 K-1;kh;;ML | |
| 114 ks;coefficient of energy losses between the outside and inside of the shelter;W m-2 K-1;ks;;ML | |
| 115 L;latent heat of vaporization;MJ kg-1;L;latent_heat;DR | |
| 116 laieffcum;LAI removed;SD;laieffcum;LAI_removed;DR | |
| 117 lairognecum;sum of topped leaf area index ;m2 m-2;lairognecum;sum_lai_topped;DR | |
| 118 longsperacf;specific fine root length;cm g-1;;;DR + AM Variable calculated in chap root | |
| 119 longsperacg;specific coarse root length;cm g-1;;;DR + AM Variable calculated in chap root | |
| 120 lracsentot; total length of senescent roots;cm root cm-2 soil; lracsentot; total_death_root;AM devrait etre dans variable | |
| 121 lracsenz; death root length density at depth z;cm root cm-3 soil; lracsenz; death_root_length_density_z;AM unite a verifier | |
| 122 lracz;efficient root length density;cm root cm-3 soil;??;efficient_root_length_density;AM | |
| 123 M;snow in the process of melting;mm day-1;M;M_melting_snow;DR | |
| 124 MASECABSO;biomass accounting for nitrogen absorption;t DM ha-1;?;;AM variable | |
| 125 mouill;water retained on the foliage;mm;mouill;water_retained_by_foliage;DR | |
| 126 mouillmulch;water retained by the vegetal mulch;mm;mouillmulch;;ML | |
| 127 Mrf;liquid water in the snow cover in the process of refreezing;mm day-1;Mrf;M_liquid_snow;DR | |
| 128 msracmort;dead root biomass on the root depth;t ha-1;deadrootbiomass?;;DR | |
| 129 nbgraingel; number of frozen grains per square meter;grains m-2;nbgraingel;;PL | |
| 130 nbgrains; number of grains per square meter;grains m-2;nbgrains;;PL | |
| 131 nbjgrauto;days of autotrophy for a moistened seed;days;nbjgrauto;;ML | |
| 132 nbjhumec;maximal period that seedcan be in a moist status without seed death occurs ;days;nbjhumec;;DR | |
| 133 NH3g;ammonia concentration in the gaseous soil phase;mol l-1;NH3g;;FF | |
| 134 NH3surf;ammonia concentration at the soil surface;microgram N m-3;NH3surf;;FF | |
| 135 nit;amount of NO3-N in an elementary layer; kg N ha-1;nit;;JL | |
| 136 nodn;coefficient used to take into account the effect of the soil mineral N content on the potential N fixation;SD;nodn;;FF | |
| 137 Nvolatorg;volatilizable NH4;kg N ha-1;Nvolatorg;;FF | |
| 138 Nvolorg;actual ammonia volatilization rate;kg N ha-1 day-1;Nvolorg;;FF devrait etre ds variables de sortie | |
| 139 offrN;mineral N available for root uptake in each elementary soil layer;kg N ha-1;offrN;;FF | |
| 140 pgraingel; weight of frozen grains per square meter;g m-2;pgraingel;;PL | |
| 141 pgrain; weight of grains per square meter;g m-2;pgrain;;PL | |
| 142 pHvol;soil surface pH varying after organic residue application (such as slurry);SD;pHvol;;FF | |
| 143 propfixpot;phenology-dependent coefficient used to calculate potential N fixation;SD;propfixpot;;FF | |
| 144 propvolat;proportion of the volatilizable N fraction of the residue;SD;propvolat;;FF | |
| 145 ps;density of the snow cover;kg m-3;ps_in;ps_snow_density;DR | |
| 146 psisol;soil potential of the elementary layer;Mpa;psisol;;JL | |
| 147 psisols;retention curve parameter 1;MPa;psisols;;JL | |
| 148 QNplantule;amount of nitrogen in the plantlet;kg N ha-1;null;;DR | |
| 149 QNplmax;maximal amount of N possible in the crop;kg N ha-1;QNplmax;maximal_N_in_plant;DR | |
| 150 raa;aerodynamic resistance between the canopy and the reference height of weather measurements;s m-1;raa;;FF | |
| 151 raamax;maximum daily value of the aerodynamic resistance between the cover et the reference level zr;W m-2;raamax;;ML | |
| 152 raamin;minimum daily value of the aerodynamic resistance between the cover et the reference level zr;W m-2;raamin;;ML | |
| 153 racinepsi;efficient root length density participating in predawn potential, located in the moist layers (PSISOL < -1.5 Mpa), else =0.;cm root cm-3 soil;racinepsi;root_psi;JL un moment racinepsi=lracz comprend pas | |
| 154 rac;resistance of the canopy boundary layer;s m-1;rac;;ML | |
| 155 Ratm;atmospheric component of the long wave radiation;MJ m-2 day-1;Ratm;;ML | |
| 156 rc;resistance of canopy;s m-1;?;;ML | |
| 157 rdiffus;diffusive radiation;MJ m-2 day-1;?;;AM | |
| 158 rdirect;direct radiation;MJ m-2 day-1;?;;AM | |
| 159 rdroit;radiation not intercepted by the crop;MJ m-2 day-1;rdroit;;AM | |
| 160 reprac;underground/total biomass partitioning coefficient;SD; reprac; root_over_total_biomass_partitioning_coefficient;AM | |
| 161 rgex;extraterrestrial radiation;MJ m-2 day-1;rgex;;ML | |
| 162 Rglo;long wave radiation;MJ m-2 day-1;RGLO;;ML | |
| 163 rgmax;maximum daily value of the global radiation;W m-2;rgmax;;ML | |
| 164 rgmin;minimum daily value of the global radiation;W m-2;rgmin;;ML | |
| 165 rl;root length density at depth z;cm root cm-3 soil; rl; root_length_density_z;AM devrait etre dans variable | |
| 166 rlf;length of fine roots in layer iz on day n;cm cm-2 soil;;;DR | |
| 167 rlg;length of coarse roots in layer iz on day n;cm cm-2 soil;;;DR | |
| 168 rlj_dens; plant density component of rlj;plant m-2; ??; plant_density_component_rlj;AM | |
| 169 rlj_dev; plant density component of rlj;m root plant-1 degree-day-1; ??; plant_density_component_rlj;AM | |
| 170 rlj_stress; stress component of root length growth rlj;SD; ??; stress_component_rlj;AM | |
| 171 rlj_T; thermal component of root length growth rlj;degreeC day-1; ??; thermal_component_of_rlj;AM | |
| 172 rljfront; root length growth at the root front; m root m-2 day-1; ??; rlj_at_root_front;AM | |
| 173 rnet_PE;Net radiation for Brunt formula;MJ m-2;rnet;net_radiation;DR | |
| 174 rnet_PT;Net radiation for Priestley-Taylor evapotranspiration calculation;MJ m-2;rnet dans calceeq;net_radiation;DR | |
| 175 rnetmax;maximum value of daily net radiation;W m-2;rnetmax dans caltcult.f90;;ML | |
| 176 rnetmin;minimum value of daily net radiation;W m-2;rnetmin dans caltcult.f90;;ML | |
| 177 rnetP;net radiation affecting the crop;MJ m-2;;;ML | |
| 178 Rsol;surface comopnent of the long wave radiation;MJ m-2 day-1;Rsolglo;;ML | |
| 179 RsRso;total to extraterrestrial radiation ratio;SD;RsRso;;AM | |
| 180 rtransmis;radiation transmistted through the crop;MJ m-2 day-1;rtransmis;;AM | |
| 181 Sdry;water in solid state in the snow cover;mm;Sdry;;PL | |
| 182 S_WE;ratio between the snow water equivalent;mm;;;DR | |
| 183 Swet;water in liquid state in the snow cover;mm;Swet;;PL | |
| 184 sat;macroporosity elementary layer soil water content;mm water cm soil-1;sat;;JL | |
| 185 SB;seed bed;cm;null;;DR | |
| 186 sbv;specific surface area of biomass;cm2 g-1;sbvmax;specific_surface_area_biomass;DR | |
| 187 sbvmax;leaf expansion allowed per unit of biomass accumulated;cm2 g-1;?;;AM | |
| 188 sla;maximum SLA (specific leaf area) of green leaves;cm2 g-1;slamax;maximum_specific_leaf_area;DR | |
| 189 somger;growing degree-days from planting in the seed bed;degrees C;somger;;DR | |
| 190 SOMSEN;current thermal time for senescence;Q10;?;;AM | |
| 191 ST_LAI;growing degree-days since emergence;degreesC;;;DR | |
| 192 stdebsenrac_p; life span of roots;degreeC day-1; ??; life_span_root; AM devrait etre dans parameters | |
| 193 SURFAO;fraction of surface in the shade;SD;?;;AM | |
| 194 SURFAS;fraction of surface in the sun;SD;?;;AM | |
| 195 surfouvre;proportion of vents related to the total surface area of the greenhouse;0-1;surfouvre;;ML | |
| 196 tair;mean air temperature (measured );degreesC;tairveille;mean_air_temperature;DR | |
| 197 TDEW;dewpoint temperature;degreesC;TDEW;;ML | |
| 198 teta;available water content in the root zone;cm3 water cm-3 soil;?;;AM variable | |
| 199 tetsen;threshold soil water content accelering senescence;cm3 water cm-3 soil;?;;AM parameter? tetstomate and teturg designed as variable? or parameter? | |
| 200 TF_LAI;growing degree-days for the point of inflexion of the complete senescence;degrees C;;;DR | |
| 201 TI_LAI;growing degree-days for the point of inflexion of the growth curve ;degrees C;;;DR | |
| 202 tmin;minimum temperature ;degreesC;tmin(n);min_air_temperature;DR | |
| 203 tnh;normalized time (day) for humus mineralization;SD;tnh;;FF | |
| 204 tpm;vapour pressure in air;mbars;tpm;;ML | |
| 205 TRECOUVMAXp;proportion of the soil covered by isolated plant;SD;?;;AM | |
| 206 tsol;soil temperature ;degrees C;tsol;Soil_temp;DR | |
| 207 TURSAL;mean water stress TURFAC experienced since emergence;SD;?;;AM | |
| 208 TVAR;saturating vapour pressure as a function of temperature;mbars;TVAR;;ML | |
| 209 Vabs;specific N absorption capacity of the roots;micromole N h-1 cm-1 root;Vabs;;FF | |
| 210 vabsmoy;Nitrogen uptake rate;Kg N ha-1 day-1;vabsmoy;Nitrogen_uptake_rate;DR | |
| 211 VABSN;nitrogen accumulation rate in the plant (uptake and fixation);kg N ha-1 day-1;?;;AM variable | |
| 212 wfps;water filled pore space;SD;wfps;;BM | |
| 213 wfpscc;water filled pore space at fied capacity;SD;wfpscc;;BM | |
| 214 wsat;total porosity;SD;wsat;;JL | |
| 215 XMULCH;thickness of mulch created by evaporation from the soil;cm;pas dans le code;;ML | |
| 216 z0;crop roughness;m;z0;;ML | |
| 217 z0s;soil or understorey crop roughness;m;z0solnu;;ML | |
| 218 zdemi;root depth that ensures at least an extraction near the soil surface of 20% of the water available;cm; zdemi; threshold_extraction_20%_water_available;AM | |
| 219 znonli;root depth if no obstacle;cm; znonli; root_depth_without_obstacle;AM | |
| 220 code_diff_rac;1 two types of roots (fine and coarse roots or 2 a single mean type of root;SD;codediffroot;;AM voir si c’est bien ce nom parameter | |
| 221 codeinstal;Technical code to describe either seedling or already installed crop;SD;codeinstal;;AM parameter | |
| 222 nhet;number of days of heterotrophy during germination;day;nhet;;AM calculé dans chap root | |
| 223 newrac;root length growth thanks to seed reserve remobilization during germination;m day-1;newrac;;AM variable calculées dans chap root | |
| 224 dis;A voir avec Nicolas;?;dis;;AM variable calculées dans chap root | |
| 225 debsenracf;thermal time units defining the begining of root senescence for fine roots;degreeC day-1;debsenracf;;AM parameter chap root | |
| 226 debsenracg;thermal time units defining the begining of root senescence for coarse roots;degreeC day-1;debsenracg;;AM parameter chap root | |
| 227 drliz;daily root length emission per elementary layer;cm root cm-3 soil;drliz;;AM variable calculées dans chap root | |
| 228 Wi;index of soil water availability (0-1);SD;;;DR | |
| 229 aevap;soil evaporation parameter combining climatic and soils aspects;mm;;;DR | |
| 230 EVAP0;accumulation of evaporative fluxes (esol, Emd, emulch);mm;;;DR | |
| 231 RNETP1;net radiation affecting the crop (use for direct evaporation);MJ m-2 day-1;;;DR | |
| 232 RNETP2;net radiation affecting the crop (use for transpiration);MJ m-2 day-1;;;DR | |
| 233 dh;displacement height;m;;;DR | |
| 234 hmin;water content at permanent wilting point of macro layer;%weight;;;DR | |
| 235 vnit;nitrification rate;mg N kg-1 day-1;vnit;;FF | |
| 236 vnitpot;potential nitrification rate;mg N kg-1 day-1;vnitpot;;FF | |
| 237 theta_sat;volumic soil water content at saturation;cm3 cm-3;theta_sat;;FF | |
| 238 devjour;daily development rate;ND;devjourfr;;PL | |
| 239 k;growth compartment;ND;i;;PL | |
| 240 croifruit;fruit growth;g m-2;croifruit;;PL | |
| 241 teaugrain;Water content of (harvested) organs;g g-1;teaugrain;;PL | |
| 242 dltazo;daily increase of grain nitrogen content;kgN.ha-1.day-1;dltazo;;PL-BD | |
| 243 potcroifruit;potential growth of a fruit;g.fruit-1.day-1;potcroifruit;;BD | |
| 244 dfr;fruit development stage of each age class;SD;dfr;;BD | |
| 245 mafraisfeuille;leaf fresh matter;t.ha-1;mafraisfeuille;;BD | |
| 246 mafraistige;structural stem fresh matter;t.ha-1;mafraistige;;BD | |
| 247 mafraisres;reserve fresh matter;t.ha-1;mafraisres;;BD | |
| 248 resperenne0;initial biomass reserve;t.ha-1;resperenne0;;BD | |
| 249 sum_eos;sum of daily maximum evaporation flux;mm;;;DR | |
| 250 z;soil elementary layer of 1 cm;cm;z;;DR |