abso(n);N uptake rate by the crop;kg.ha-1.d-1;p;real;n;2
age_prairie;age of the forage crop since sowing;year;p;integer;0;1
airg(n);daily amount of irrigation water;mm.d-1;sc;real;n;0
albedolai;albedo of the crop including soil and vegetation;SD;sc;real;0;0
allocfruit;allocation ratio of assimilates to the fruits;0-1;p;real;0;2
amm_1_30;amount of   NH4-N in the soil layer 1 to 30 cm;kg.ha-1;sc;real;0;0
amm_31_60;amount of  NH4-N in the soil layer 31-60 cm;kg.ha-1;sc;real;0;0
amm_61_90;amount of  NH4-N in the soil layer 61-90 cm;kg.ha-1;sc;real;0;0
ammomes;amount of NH4-N in soil over the depth profmes;kg.ha-1;sc;real;0;0
amptcultmat;mean daily temperature range (tcult) during the reproductive phase (stages lax - rec);degreeC;c;real;0;0
anit(n);daily amount of fertiliser-N added to crop;kg.ha-1.d-1;sc;real;n;0
anit_engrais(n);Daily nitrogen provided by fertiliser;kgN.ha-1 j-1;sc;real;n;0
anit_uree(n);amount of animal urine returned to the soil;kgN.ha-1 j-1;sc;real;n;0
anoxmoy;index of anoxia over the root depth;0-1;p;real;0;1
AZamm(1);amount of  NH4-N in soil layer 1;kg.ha-1;sc;real;1;0
AZamm(2);amount of  NH4-N in soil layer 2;kg.ha-1;sc;real;2;0
AZamm(3);amount of  NH4-N in soil layer 3;kg.ha-1;sc;real;3;0
AZamm(4);amount of  NH4-N in soil layer 4;kg.ha-1;sc;real;4;0
AZamm(5);amount of  NH4-N in soil layer 5;kg.ha-1;sc;real;5;0
azlesd;daily amount of NO3-N leached in mole drains;kg.ha-1.d-1;soil;real;0;0
AZnit(1);amount of  NO3-N in soil layer 1;kg.ha-1;soil;real;1;0
AZnit(2);amount of  NO3-N in soil layer 2;kg.ha-1;soil;real;2;0
AZnit(3);amount of  NO3-N in soil layer 3;kg.ha-1;soil;real;3;0
AZnit(4);amount of  NO3-N in soil layer 4;kg.ha-1;soil;real;4;0
AZnit(5);amount of  NO3-N in soil layer 5;kg.ha-1;soil;real;5;0
azomes;amount of NO3-N in soil over the depth profmes;kg.ha-1;sc;real;0;0
azsup_by_horizon(1);lixiviation under the horizon 1;kgN.ha-1;sc;real;1;0
azsup_by_horizon(2);lixiviation under the horizon 2;kgN.ha-1;sc;real;2;0
azsup_by_horizon(3);lixiviation under the horizon 3;kgN.ha-1;sc;real;3;0
azsup_by_horizon(4);lixiviation under the horizon 4;kgN.ha-1;sc;real;4;0
azsup_by_horizon(5);lixiviation under the horizon 5;kgN.ha-1;sc;real;5;0
azsup_under_profmes;lixiviation under the depth of measurement profmes;kgN.ha-1;sc;real;0;0
bouchon;index showing if the shrinkage slots are opened (0) or closed (1);code 0/1;sc;real;0;0
Cb;amount of C in the microbial biomass decomposing organic residues mixed with soil;kg.ha-1;sc;real;0;0
Cbmulch;amount of C in the microbial biomass decomposing organic residues at soil surface (mulch);kg.ha-1;sc;real;0;0
cdemande;cumulative amount of N needed by the plant  (plant needs);kg.ha-1;p;real;0;1
cEdirect;total evaporation (water evaporated by the soil + intercepted by leaves and mulch) integrated over the cropping season;mm;sc;real;0;1
cEdirecttout;total evaporation (water evaporated by the soil + intercepted by leaves and mulch) integrated over the simulation period;mm;sc;real;0;1
cep;cumulative transpiration over the cropping season of plant 1;mm;p;real;0;1
cep2;cumulative transpiration over the cropping season of plants 1 and 2;mm;sc;real;0;1
ces;cumulative evaporation over the cropping season;mm;p;real;0;1
cestout;cumulative evaporation over the simulation period;mm;sc;real;0;0
cet;cumulative evapotranspiration over the cropping season;mm;p;real;0;1
cet_from_lev;cumulative evapotranspiration over the cropping season (from emergence or budbreak);mm;sc;real;0;1
cet_from_plt;cumulative evapotranspiration over the cropping season (from planting or budbreak);mm;sc;real;0;1
cetm;cumulative maximum evapotranspiration over the cropping season;mm;p;real;0;1
Cetmtout;cumulative maximum evapotranspiration over the simulation period;mm;c;real;0;0
cetp;cumulative potential evapotranspiration (PET) over the cropping season;mm;p;real;0;1
chargefruit;number of filling grains or ripe fruits;m-2;p;real;0;1
Chuma;amount of active C in humified organic matter;kg.ha-1;sc;real;0;0
Chumi;amount of inert C in humified organic matter;kg.ha-1;sc;real;0;0
Chumt;amount of C in humified organic matter (active + inert fractions);kg.ha-1;sc;real;0;0
cintermulch;cumulative amount of rain intercepted by the mulch;mm;sc;real;0;0
cinterpluie;cumulative amount of rain intercepted by the leaves;mm;p;real;0;1
Cmulch;amount of C in the whole plant mulch;kg.ha-1;sc;real;0;0
Cmulchdec;amount of C in the decomposable mulch;kg.ha-1;sc;real;0;0
Cmulchnd;amount of C in the non decomposable mulch;kg.ha-1;sc;real;0;0
CNgrain;N concentration in fruits;% dry weight;p;real;0;2
Cnondec(1);amount of C in the undecomposable mulch made of residues of type 1;kg.ha-1;sc;real;1;0
Cnondec(10);amount of C in the undecomposable mulch made of residues of type 10;kg.ha-1;sc;real;10;0
Cnondec(2);amount of C in the undecomposable mulch made of residues of type 2;kg.ha-1;sc;real;2;0
Cnondec(3);amount of C in the undecomposable mulch made of residues of type 3;kg.ha-1;sc;real;3;0
Cnondec(4);amount of C in the undecomposable mulch made of residues of type 4;kg.ha-1;sc;real;4;0
Cnondec(5);amount of C in the undecomposable mulch made of residues of type 5;kg.ha-1;sc;real;5;0
Cnondec(6);amount of C in the undecomposable mulch made of residues of type 6;kg.ha-1;sc;real;6;0
Cnondec(7);amount of C in the undecomposable mulch made of residues of type 7;kg.ha-1;sc;real;7;0
Cnondec(8);amount of C in the undecomposable mulch made of residues of type 8;kg.ha-1;sc;real;8;0
Cnondec(9);amount of C in the undecomposable mulch made of residues of type 9;kg.ha-1;sc;real;9;0
CNplante;N concentration in the aboveground plant;% dry weight;p;real;0;2
CO2(n);atmospheric CO2 concentration above 330 ppm;ppm;c;real;n;0
CO2hum;daily amount of CO2-C emitted due to the mineralisation of soil humus;kg.ha-1.d-1;sc;real;0;0
CO2res;daily amount of CO2-C emitted due to the mineralisation of organic residues;kg.ha-1.d-1;sc;real;0;0
CO2sol;daily amount of CO2-C emitted due to soil mineralisation (humus and organic residues);kg.ha-1.d-1;sc;real;0;0
codebbch_output;code of the bbch stage (see plant file);0-99;p;integer;0;1
concN_W_drained;daily nitrate concentration in drainage water;mg NO3.l-1.day;soil;real;0;0
concNO3les;nitrate concentration in drained water;mg NO3.l-1;soil;real;0;0
concNO3sol(1);nitrate concentration in soil layer 1;mg NO3.l-1;sc;real;1;0
concNO3sol(2);nitrate concentration in soil layer 2;mg NO3.l-1;sc;real;2;0
concNO3sol(3);nitrate concentration in soil layer 3;mg NO3.l-1;sc;real;3;0
concNO3sol(4);nitrate concentration in soil layer 4;mg NO3.l-1;sc;real;4;0
concNO3sol(5);nitrate concentration in soil layer 5;mg NO3.l-1;sc;real;5;0
condenit;ratio of actual to potential denitrifying rate;0-1;soil;real;0;0
couvermulch;cover ratio of mulch;0-1;sc;real;0;0
cpluie;cumulative amount of rain over the simulation period;mm;sc;real;0;0
cprecip;cumulative water supply over the cropping season (precipitation + irrigation);mm;p;real;0;1
cpreciptout;cumulative water supply over the simulation period (precipitation + irrigation);mm;sc;real;0;0
Cr;amount of C in organic residues mixed with soil in the profhum layer;kg.ha-1;sc;real;0;0
Cresiduprofil(1);amount of C in residues over the soil depth profhum in the residue type 1;kg.ha-1;sc;real;1;0
Cresiduprofil(10);amount of C in residues over the soil depth profhum in the residue type 10;kg.ha-1;sc;real;10;0
Cresiduprofil(2);amount of C in residues over the soil depth profhum in the residue type 2;kg.ha-1;sc;real;2;0
Cresiduprofil(3);amount of C in residues over the soil depth profhum in the residue type 3;kg.ha-1;sc;real;3;0
Cresiduprofil(4);amount of C in residues over the soil depth profhum in the residue type 4;kg.ha-1;sc;real;4;0
Cresiduprofil(5);amount of C in residues over the soil depth profhum in the residue type 5;kg.ha-1;sc;real;5;0
Cresiduprofil(6);amount of C in residues over the soil depth profhum in the residue type 6;kg.ha-1;sc;real;6;0
Cresiduprofil(7);amount of C in residues over the soil depth profhum in the residue type 7;kg.ha-1;sc;real;7;0
Cresiduprofil(8);amount of C in residues over the soil depth profhum in the residue type 8;kg.ha-1;sc;real;8;0
Cresiduprofil(9);amount of C in residues over the soil depth profhum in the residue type 9;kg.ha-1;sc;real;9;0
crg;cumulative global radiation over the cropping season;MJ.m-2;p;real;0;1
crgtout;cumulative global radiation over the simulation period;MJ.m-2;c;real;0;0
Crprof;amount of C in deep organic residues mixed with soil (below the profhum depth);kg.ha-1;sc;real;0;0
Crtout;total amount of C in organic residues present over the whole soil profile;kg.ha-1;sc;real;0;0
CsurNrac;C/N ratio of living roots; g g-1;sc;real;0;0
CsurNracmort;C/N ratio of dead roots (cumulative); g g-1;sc;real;0;0
CsurNres_pature;C/N ratio of residues in case of pasture; g g-1;sc;real;0;0
CsurNsol;C/N ratio of soil organic matter in the profhum layer; g g-1;soil;real;0;0
ctairtout;cumulative air temperature (tair) over the simulation period;degreeC;c;real;0;0
ctcult;cumulative crop temperature (tcult) over the cropping season;degreeC;p;real;0;1
ctculttout;cumulative crop temperature (tcult) over the simulation period;degreeC;c;real;0;0
ctetptout;cumulative potential evapotranspiration (pet) over the simulation period;mm;c;real;0;0
ctmoy;cumulative air temperature over the cropping season;degreeC;p;real;0;1
cum_et0;cumulative maximum evapotranspiration over the cropping season (eop+eos);mm;p;real;0;0
cum_et0_from_lev;cumulative maximum evapotranspiration over the cropping season from  germination or budbreak (eop+eos);mm;sc;real;0;0
cum_immob;cumulative amount of N immobilised by the microbial biomass decomposing residues;kg.ha-1;sc;real;0;0
cum_immob_positif;cumulative amount of N immobilised by the microbial biomass decomposing residues (positive value);kg.ha-1;sc;real;0;0
cumlracz;cumulative length of active roots per soil surface;cm.cm-2;p;real;0;1
cumraint;cumulative intercepted radiation;MJ.m-2;p;real;0;1
cumrg;cumulative global radiation during the stage sowing-harvest;MJ.m-2;p;real;0;1
cumvminh;daily amount of N mineralised from humus;kg.ha-1.d-1;soil;real;0;0
cumvminr;daily amount of N mineralised from organic residues;kg.ha-1.d-1;soil;real;0;0
da(1);bulk density of the layer 1 (recalculated  by the model if codeDSTtass is 1);g.cm-3;soil;real;1;0
da(2);bulk density of the layer 2 (recalculated  by the model if codeDSTtass is 1);g.cm-3;soil;real;2;0
date_irrigations(1);date of irrigation;julian day;sc;integer;1;0
date_irrigations(10);date of irrigation;julian day;sc;integer;10;0
date_irrigations(11);date of irrigation;julian day;sc;integer;11;0
date_irrigations(12);date of irrigation;julian day;sc;integer;12;0
date_irrigations(13);date of irrigation;julian day;sc;integer;13;0
date_irrigations(14);date of irrigation;julian day;sc;integer;14;0
date_irrigations(15);date of irrigation;julian day;sc;integer;15;0
date_irrigations(16);date of irrigation;julian day;sc;integer;16;0
date_irrigations(17);date of irrigation;julian day;sc;integer;17;0
date_irrigations(18);date of irrigation;julian day;sc;integer;18;0
date_irrigations(19);date of irrigation;julian day;sc;integer;19;0
date_irrigations(2);date of irrigation;julian day;sc;integer;2;0
date_irrigations(20);date of irrigation;julian day;sc;integer;20;0
date_irrigations(21);date of irrigation;julian day;sc;integer;21;0
date_irrigations(22);date of irrigation;julian day;sc;integer;22;0
date_irrigations(23);date of irrigation;julian day;sc;integer;23;0
date_irrigations(24);date of irrigation;julian day;sc;integer;24;0
date_irrigations(25);date of irrigation;julian day;sc;integer;25;0
date_irrigations(26);date of irrigation;julian day;sc;integer;26;0
date_irrigations(27);date of irrigation;julian day;sc;integer;27;0
date_irrigations(28);date of irrigation;julian day;sc;integer;28;0
date_irrigations(29);date of irrigation;julian day;sc;integer;29;0
date_irrigations(3);date of irrigation;julian day;sc;integer;3;0
date_irrigations(30);date of irrigation;julian day;sc;integer;30;0
date_irrigations(4);date of irrigation;julian day;sc;integer;4;0
date_irrigations(5);date of irrigation;julian day;sc;integer;5;0
date_irrigations(6);date of irrigation;julian day;sc;integer;6;0
date_irrigations(7);date of irrigation;julian day;sc;integer;7;0
date_irrigations(8);date of irrigation;julian day;sc;integer;8;0
date_irrigations(9);date of irrigation;julian day;sc;integer;9;0
day_after_begin_simul;number of days from the beginning of simulation;days;sc;integer;0;0
day_after_emergence;number of days after emergence;days;p;integer;0;1
day_after_sowing;days after sowing or planting;days;sc;integer;0;0
day_cut;cut day;julian day;p;integer;0;0
DCbmulch;change in C amount in microbial biomass decomposing mulch between the beginning and the end of simulation;kg.ha-1;sc;real;0;0
DChumt;change in humified organic C in soil between beginning and end of simulation;kg.ha-1;sc;real;0;0
DCmulch;change in mulch C between the beginning and end of simulation;kg.ha-1;sc;real;0;0
DCr;change in C of organic residues between begining and end of simulation;kg.ha-1;sc;real;0;0
DCrprof;change in deep root C between the beginning and end of simulation;kg.ha-1;sc;real;0;0
deltai(n);daily increase in green leaf index per soil surface;m2.m-2.d-1;p;real;n;2
deltaz;rate of deepening of the root front;cm.d-1;p;real;0;1
demande;daily N requirement of the plant to maximise crop growth;kg.ha-1.d-1;p;real;0;2
demandeper;daily N requirement of the perennial organs to maximise crop growth;kg.ha-1.d-1;p;real;0;2
demanderac;daily N requirementof the roots to maximise crop growth;kg.ha-1.d-1;p;real;0;2
demandetot;daily N requirement of the plant to maximise crop growth after susbtracting N fixation;kg.ha-1.d-1;p;real;0;0
densite;actual sowing density;plants.m-2;p;real;0;1
densiteequiv;equivalent plant density for the understorey crop;plants.m-2;p;real;0;1
dfol;within the shape leaf density;m2.m-3;p;real;0;1
diftemp1intercoupe;mean difference between crop and air temperatures during the vegetative phase (emergence - maximum LAI);degreeC;p;real;0;0
diftemp2intercoupe;mean difference between crop and air temperatures during the reproductive phase (maximum LAI - maturity);degreeC;p;real;0;0
dltags;daily growth rate of the plantlets;t.ha-1.d-1;p;real;0;2
dltaisen;daily change in the senescent leaf area index;m2.m-2.d-1;p;real;0;2
dltams(n);daily growth rate of the plant;t.ha-1.d-1;p;real;n;2
dltamsen;daily senescence rate of the plant;t.ha-1.d-1;p;real;0;2
dltaremobil;daily amount of perennial reserves remobilised;t.ha-1.d-1;p;real;0;2
dltaremobilN;daily amount of perennial N reserves remobilised;kg.ha-1.d-1;p;real;0;2
dltmsrac_plante;pour sorties ArchiSTICS: biomasse journaliere allouee aux racines; g.m2.sol;p;real;0;0
DNbmulch;change in biomass N associated with the mulch between beginning and end of simulation;kg.ha-1;sc;real;0;0
DNhumt;change in humified organic N in soil between beginning and end of simulation;kg.ha-1;sc;real;0;0
DNmulch;change in mulch N between beginning and end of simulation;kg.ha-1;sc;real;0;0
DNr;change in N of organic residues between begining and end of simulation;kg.ha-1;sc;real;0;0
DNrprof;change in N of deep dead roots between begining and end of simulation;kg.ha-1;sc;real;0;0
DQNtot2;change in N content of the two plants (aerial + root + perennial organs) between beginning and end of simulation;kg.ha-1;sc;real;0;0
drain;daily amount of water drained at the base of the soil profile;mm.d-1;sc;real;0;0
drain_from_lev;cumulative amount of water drained at the base of the soil profile during the crop cycle (emergence or budbreak to harvest);mm;sc;real;0;0
drain_from_plt;cumulative amount of water drained at the base of the soil profile during the crop cycle (planting to harvest);mm;sc;real;0;0
drat;cumulative amount of water drained at the base of the soil profile during the simulation period;mm;sc;real;0;0
drlsenmortalle;root biomass corresponding to dead tillers;t.ha-1.d-1;p;real;0;0
DSMN;change in soil mineral N between beginning and end of simulation;kg.ha-1;sc;real;0;0
DSOC;change in soil organic C (without residues) between beginning and end of simulation;kg.ha-1;sc;real;0;0
DSOCtot;change in total soil organic C (with residues) between beginning and end of simulation;kg.ha-1;sc;real;0;0
DSON;change in soil organic N (without residues) between beginning and end of simulation;kg.ha-1;sc;real;0;0
DSONtot;change in total soil organic N (with residues) between beginning and end of simulation;kg.ha-1;sc;real;0;0
DSTN;change in total soil N (mineral + organic) between beginning and end of simulation;kg.ha-1;sc;real;0;0
dtj(n);thermal time for root growth;degreeC.d;p;real;n;0
dureehumec;number of hours which are wet (rainy days or days when tcult < dew point);hour;c;real;0;0
dureeRH;number of night hours during which relative humidity exceeds a 90% threshold;hour;c;real;0;0
durvie(n);actual life span of the leaf surface;degreeC;p;real;n;3
eai;equilvalent leaf area for ear;m2.m-2;p;real;0;2
ebmax;maximum value of radiation use efficiency;cg.MJ-1;p;real;0;1
ebmax_gr; Maximum radiation use efficiency during the vegetative stage (AMF-DRP);g MJ-1;p;real;0;0
Edirect;daily amount of water evaporated by the soil + intercepted by leaves and mulch;mm.d-1;sc;real;0;0
efda;reduction factor on root growth due to physical constraint (through bulk density);0-1;p;real;0;0
efdensite;density factor on leaf area growth;0-1;p;real;0;0
efdensite_rac;density factor on root growth;0-1;p;real;0;0
efNrac_mean;reduction factor on root growth rate due to mineral N concentration;0-1;p;real;0;0
em_N2O;daily amount of N2O-N emitted from soil;kg.ha-1.d-1;sc;real;0;0
em_N2Oden;daily amount of N2O-N emitted from soil by denitrification;kg.ha-1.d-1;sc;real;0;0
em_N2Onit;daily amount of N2O-N emitted from soil by nitrification;kg.ha-1.d-1;sc;real;0;0
Emd;daily amount of water directly evaporated after leaves interception;mm.d-1;p;real;0;1
emulch;daily amount of water directly evaporated after mulch interception;mm.d-1;sc;real;0;0
eo;intermediary variable for the computation of evapotranspiration;mm.d-1;sc;real;0;0
eop;daily maximum transpiration flux;mm.d-1;p;real;0;2
eos;daily maximum evaporation flux;mm.d-1;sc;real;0;0
ep;daily actual transpiration flux;mm.d-1;p;real;0;2
epc_recal(1);thickness of the soil layer 1 (recalculated  by the model if codeDSTtass is 1);cm;soil;real;1;0
epc_recal(2);thickness of the soil layer 2 (recalculated  by the model if codeDSTtass is 1);cm;soil;real;2;0
epc_recal(3);thickness of the soil layer 3 (recalculated  by the model if codeDSTtass is 1);cm;soil;real;3;0
epc_recal(4);thickness of the soil layer 4 (recalculated  by the model if codeDSTtass is 1);cm;soil;real;4;0
epc_recal(5);thickness of the soil layer 5 (recalculated  by the model if codeDSTtass is 1);cm;soil;real;5;0
epsib;radiation use efficiency;t.ha-1.MJ-1.m2;p;real;0;2
esol;daily actual soil evaporation flux;mm.d-1;sc;real;0;0
et;daily evapotranspiration (esol + ep);mm.d-1;sc;real;0;0
et0;daily maximun evapotranspiration flux (transpiration + soil evaporation);mm;p;real;0;0
etm;daily maximum evapotranspiration (esol + eop);mm.d-1;sc;real;0;0
etm_etr1moy;etm/etr ratio on the vegetative phase;0-1;p;real;0;1
etm_etr2moy;etm/etr ratio on the reproductive phase;0-1;p;real;0;1
etpp(n);daily potential evapotranspiration as given by the formula of Penman;mm.d-1;c;real;n;0
etr_etm1moy;etr/etm ratio on the vegetative phase;0-1;p;real;0;1
etr_etm2moy;etr/etm ratio on the reproductive phase;0-1;p;real;0;1
exces(1);amount of water in the macroporosity of the layer 1;mm;sc;real;1;0
exces(2);amount of water in the macroporosity of the layer 2;mm;sc;real;2;0
exces(3);amount of water in the macroporosity of the layer 3;mm;sc;real;3;0
exces(4);amount of water in the macroporosity of the layer 4;mm;sc;real;4;0
exces(5);amount of water in the macroporosity of the layer 5;mm;sc;real;5;0
exobiom;reduction factor on biomass growth due to water excess;0-1;p;real;0;1
exofac;waterlogging index;0-1;p;real;0;1
exofac1moy;mean value of the waterlogging index during the vegetative stage (emergence - fruit establishment);0-1;p;real;0;1
exofac2moy;mean value of the waterlogging index during the reproductive stage (fruit establishment - maturity);0-1;p;real;0;1
exolai;reduction factor on leaf growth due to water excess;0-1;p;real;0;1
fapar;proportion of the radiation intercepted;0-1;p;real;0;2
fco2;specie-dependant CO2 effect on radiation use efficiency;SD;p;real;0;0
fco2s;specie-dependant CO2 effect onstomate closure;SD;p;real;0;0
fgelflo;reduction factor on the number of fruits due to frost;0-1;p;real;0;1
fixmaxvar;maximal rate of BNF (symbiotic fixation);kg.ha-1.d-1;p;real;0;2
fixpot;potential rate of BNF (symbiotic fixation);kg.ha-1.d-1;p;real;0;2
fixreel;actual rate of BNF (symbiotic fixation);kg.ha-1.d-1;p;real;0;2
flurac;daily amount of N taken up by the plant when N uptake is limited by the plant capacity absorption;kg.ha-1.d-1;p;real;0;1
flusol;daily amount of N taken up by the plant when N uptake is limited by the transfer from soil to root;kg.ha-1.d-1;p;real;0;1
fpari;radiation effect on  conversion efficiency;g.MJ-1;p;real;0;1
fpari_gr;radiation factor on the calculation of conversion efficiency;g MJ-1;p;real;0;0
fpft;daily sink capacity of fruits;g.m-2.d-1;p;real;0;2
fpv(n);daily sink capacity of growing leaves;g.m-2.d-1;p;real;n;2
FsNH3;daily amount of NH3-N emitted from soil by volatilisation;micro g.m-2.d-1;sc;real;0;0
fstressgel;reduction factor on leaf growth due to frost;0-1;p;real;0;1
ftemp;reduction factor on biomass growth due to temperature-related epsibmax;0-1;p;real;0;1
fxa;reduction factor on BNF (symbiotic fixation) due to soil anoxia;0-1;sc;real;0;0
fxn;reduction factor on BNF (symbiotic fixation) due to mineral N concentration;0-1;sc;real;0;0
fxt;reduction factor on BNF (symbiotic fixation) due to soil temperature;0-1;sc;real;0;0
fxw;reduction factor on BNF (symbiotic fixation) due to soil water content;0-1;sc;real;0;0
gel1;stress factor on leaves damaged by frost before amf stage (end of juvenile phase );0-1;p;real;0;0
gel1_percent;proportion of leaves damaged by frost before amf stage (end of juvenile phase );%;p;real;0;0
gel2;stress factor on leaves damaged by frost after amf stage (end of juvenile phase );0-1;p;real;0;0
gel2_percent;proportion of leaves damaged by frost after amf stage (end of juvenile phase );%;p;real;0;0
gel3;stress factor on flowers or fruits damaged by frost;0-1;p;real;0;0
gel3_percent;proportion of flowers or fruits damaged by frost;%;p;real;0;0
GHG;Greenhouse Gas emission (CO2 + N2O) expressed in CO2eq/ha =Qem_N2O*44/28*296 -DSOC*44/12;kg.ha-1;sc;real;0;0
grain_dry_weight_mg;Grain unit dry weight;mg;p;real;0;0
H2Orec;water content of harvested organs;0-1;p;real;0;2
H2Orec_percent;water content of harvested organs;% fresh weight;p;real;0;0
hauteur;height of canopy;m;p;real;0;2
HI_C;harvest index for carbon;0-1;p;real;0;0
HI_N;harvest index for nitrogen;0-1;p;real;0;0
Hmax;maximum height of water table between drains;cm;soil;real;0;0
Hnappe;height of water table affecting plant growth;cm;soil;real;0;0
Hpb;minimum depth of perched water table;cm;soil;real;0;0
Hph;maximum depth of perched water table;cm;soil;real;0;0
HR(1);water content of the soil layer 1;% dry weight;sc;real;1;0
HR(2);water content of the soil layer 2;% dry weight;sc;real;2;0
HR(3);water content of the soil layer 3;% dry weight;sc;real;3;0
HR(4);water content of the soil layer 4;% dry weight;sc;real;4;0
HR(5);water content of the soil layer 5;% dry weight;sc;real;5;0
HR_mm(1);water content of the soil layer 1;mm;sc;real;1;0
HR_mm(2);water content of the soil layer 2;mm;sc;real;2;0
HR_mm(3);water content of the soil layer 3;mm;sc;real;3;0
HR_mm(4);water content of the soil layer 4;mm;sc;real;4;0
HR_mm(5);water content of the soil layer 5;mm;sc;real;5;0
HR_mm_1_30;water content of the layer 1-30 cm;mm;sc;real;0;0
HR_mm_31_60;water content of the layer 31-60 cm;mm;sc;real;0;0
HR_mm_61_90;water content of the layer 61-90 cm;mm;sc;real;0;0
HR_vol_1_10;water content of the layer 1-10 cm;mm-3.mm-3;sc;real;0;0
HR_vol_1_30;water content of the layer 1-30 cm  (table);mm-3.mm-3;sc;real;0;0
HR_vol_121_150;water content of the layer 121-150 cm  (table);mm-3.mm-3;sc;real;0;0
HR_vol_151_180;water content of the layer 151-180 cm  (table);mm-3.mm-3;sc;real;0;0
HR_vol_31_60;water content of the layer 31-60 cm  (table);mm-3.mm-3;sc;real;0;0
HR_vol_61_90;water content of the layer 61-90 cm  (table);mm-3.mm-3;sc;real;0;0
HR_vol_91_120;water content of the layer 91-120 cm (table);mm-3.mm-3;sc;real;0;0
huile;oil content of harvested organs;0-1;p;real;0;2
huile_percent;oil content of harvested organs;% fresh weight;p;real;0;0
humair;air moisture content;0-1;c;real;0;0
humair_percent;air moisture content;% saturation;c;real;0;0
humidite;air moisture content in the canopy;0-1;sc;real;0;0
humidite_percent;air moisture content in the canopy;% saturation;sc;real;0;0
humirac_mean;reduction factor on root growth due to soil water content (mean value over the root profile);0-1;p;real;0;1
hur_10_vol;soil water content in the soil at 10 cm ;cm/cm;sc;real;0;0
husup_by_horizon(1);drainage under the horizon 1;mm;sc;real;1;0
husup_by_horizon(2);drainage under the horizon 2;mm;sc;real;2;0
husup_by_horizon(3);drainage under the horizon 3;mm;sc;real;3;0
husup_by_horizon(4);drainage under the horizon 4;mm;sc;real;4;0
husup_by_horizon(5);drainage under the horizon 5;mm;sc;real;5;0
husup_under_profmes;drainage under the depth of measurement profmes;mm;sc;real;0;0
iamfs;date of amf stage (maximum acceleration of leaf growth, end of juvenile phase );julian day;p;integer;0;1
idebdess;date of onset of water dynamics in harvested organs;julian day;p;integer;0;1
idebdorms;date of entry into dormancy;julian day;p;integer;0;1
idrps;starting date of filling of harvested organs;julian day;p;integer;0;1
ifindorms;date of emergence from dormancy;julian day;p;integer;0;1
iflos;date of flowering;julian day;p;integer;0;1
iflos_minus_150;date of flowering minus150 degrees day;julian day;p;integer;0;1
iflos_plus_150;date of flowering plus 150 degrees day;julian day;p;integer;0;1
igers;date of germination;julian day;p;integer;0;1
ilans;date of lan stage (leaf index nil);julian day;p;integer;0;1
ilaxs;date of lax stage (leaf index maximum);julian day;p;integer;0;1
ilevs;date of emergence;julian day;p;integer;0;1
imats;date of start of physiological maturity;julian day;p;integer;0;1
imontaisons;date of start of stem elongation;julian day;p;integer;0;0
infil_recal(1);infiltrability parameter at the base of the layer 1;mm.d-1;soil;real;1;0
infil_recal(2);infiltrability parameter at the base of the layer 2;mm.d-1;soil;real;2;0
infil_recal(3);infiltrability parameter at the base of the layer 3;mm.d-1;soil;real;3;0
infil_recal(4);infiltrability parameter at the base of the layer 4;mm.d-1;soil;real;4;0
infil_recal(5);infiltrability parameter at the base of the layer 5;mm.d-1;soil;real;5;0
inn;nitrogen nutrition index (NNI);0-2;p;real;0;2
inn1intercoupe;average NNI during the cut (cut crop vegetative phase: emergence to maximum LAI);0-2;p;real;0;0
inn1moy;average NNI during the vegetative stage;0-2;p;real;0;1
inn2intercoupe;average NNI during the cut (cut crop reproductive phase: maximum LAI  to maturity);0-2;p;real;0;0
inn2moy;average NNI during the reproductive stage;0-2;p;real;0;1
innlai;reduction factor on leaf growth due to NNI (nitrogen deficiency);innmin to 1;p;real;0;2
inns;reduction factor on biomass growth due to NNI (nitrogen deficiency);innmin to 1;p;real;0;2
innsenes;nitrogen stress index affecting leaves death;innmin to 1;p;real;0;2
inous;ending date for setting of harvested organs;julian day;p;real;0;1
intermulch;daily amount of water intercepted by the mulch (vegetal);mm.d-1;sc;real;0;0
interpluie;daily amount of water intercepted by leaves;mm.d-1;p;real;0;2
iplts;date of sowing or planting;julian day;p;integer;0;1
irazo(n);nitrogen harvest index;0-1;p;real;n;2
ircarb(n);carbon harvest index;0-1;p;real;n;2
irecs;date of harvest (first if several);julian day;p;integer;0;1
irrigjN;daily amount of mineral N added by irrigation;kg.ha-1.d-1;sc;real;0;0
irrigN;cumulative amount of mineral N added by irrigation;kg.ha-1;sc;real;0;0
isens;date of  begninning leaf senescence stage;julian day;p;integer;0;1
izrac;water excess stress index on roots;0-1;p;real;0;1
lai(n);leaf area index (table);m2.m-2;p;real;n;2
lai_mx_av_cut;LAI before cut (for cut crops , for others = lai(n) );SD;p;real;0;1
laimax;maximum leaf area index;m2.m-2;p;real;0;2
laisen(n);leaf area index of senescent leaves (table);m2.m-2;p;real;n;2
largeur;width of the plant shape;m;p;real;0;1
leaching_from_lev;cumulative amount of NO3-N leached at the base of the soil profile during the crop cycle ( emergence or budbreak to harvest);kg.ha-1;sc;real;0;0
leaching_from_plt;cumulative amount of NO3-N leached at the base of the soil profile during the crop cycle (planting to harvest);kg.ha-1;sc;real;0;0
leai;Leaf+ear area index = lai +eai;m2.m-2;p;real;0;2
lessiv;daily amount of NO3-N leached at the base of the soil profile;kg.ha-1.d-1;sc;real;0;0
lracf(1);root length density of fine roots in layer 1;cm.cm-3;p;real;1;0
lracf(2);root length density of fine roots in layer 2;cm.cm-3;p;real;2;0
lracf(3);root length density of fine roots in layer 3;cm.cm-3;p;real;3;0
lracf(4);root length density of fine roots in layer 4;cm.cm-3;p;real;4;0
lracf(5);root length density of fine roots in layer 5;cm.cm-3;p;real;5;0
lracg(1);root length density of coarse roots in layer 1;cm.cm-3;p;real;1;0
lracg(2);root length density of coarse roots in layer 2;cm.cm-3;p;real;2;0
lracg(3);root length density of coarse roots in layer 3;cm.cm-3;p;real;3;0
lracg(4);root length density of coarse roots in layer 4;cm.cm-3;p;real;4;0
lracg(5);root length density of coarse roots in layer 5;cm.cm-3;p;real;5;0
LRACH(1);root length density in soil layer 1;cm.cm-3;p;real;1;0
LRACH(2);root length density in soil layer 2;cm.cm-3;p;real;2;0
LRACH(3);root length density in soil layer 3;cm.cm-3;p;real;3;0
LRACH(4);root length density in soil layer 4;cm.cm-3;p;real;4;0
LRACH(5);root length density in soil layer 5;cm.cm-3;p;real;5;0
lracsentotf;cumulative length of senescent roots;cm root.cm-2 soil;p;real;0;1
lracsentotg;cumulative length of senescent roots;cm root.cm-2 soil;p;real;0;1
mabois;biomass removed by pruning;t.ha-1;p;real;0;2
maenfruit;biomass of harvested organ envelops;t.ha-1;p;real;0;2
mafauche;biomass of forage cuts;t.ha-1;p;real;0;0
mafauchetot;cumulative biomass of forage cuts;t.ha-1;p;real;0;0
mafeuil;biomass of leaves;t.ha-1;p;real;0;2
mafeuil_kg_ha;Dry matter of leaves;kg.ha-1;p;real;0;0
mafeuiljaune;biomass of yellow leaves;t.ha-1;p;real;0;2
mafeuiltombe;biomass of fallen leaves;t.ha-1;p;real;0;2
mafeuiltombefauche;biomass of fallen leaves between two cuts;t.ha-1;p;real;0;1
mafeuilverte;biomass of green leaves;t.ha-1;p;real;0;2
mafou;biomass of harvested organs for cut crops;t.ha-1;p;real;0;1
mafrais;aboveground fresh matter;t.ha-1;p;real;0;2
mafruit;biomass of harvested organs;t.ha-1;p;real;0;1
mafruit_kg_ha;Dry matter of harvested organs;kg.ha-1;p;real;0;0
maperenne;biomass of perennial organs;t.ha-1;p;real;0;2
maperennemort;biomass of dead perennial organs;t.ha-1;p;real;0;2
masec(n);biomass of aboveground plant (table);t.ha-1;p;real;n;2
masec_kg_ha;Aboveground dry matter;kg.ha-1;p;real;0;0
masec_mx_av_cut;Aboveground dry matter before cut(for cut crops, for others = masec(n) );t.ha-1;p;real;0;1
masecneo;biomass of newly-formed organs;t.ha-1;p;real;0;2
masecnp;biomass of aerials and non perennial organs;t.ha-1;p;real;n;2
masectot;total plant biomass (aerials + roots + perennial organs);t.ha-1;p;real;0;1
masecveg;biomass of vegetative organs;t.ha-1;p;real;0;2
matigestruc;biomass of stems (only structural parts);t.ha-1;p;real;0;2
matigestruc_kg_ha;Dry matter of stems (only structural parts);kg.ha-1;p;real;0;0
matuber;biomass of tuber (harvested organs, only calculated for sugarbeet);t.ha-1;p;real;0;1
mean_swfac_flo_p_m_150;swfac mean on the period flowering minus 150 degrees day to flowering plus 150 degrees days;0-1;p;real;0;1
mortalle;daily number of dying tillers;d-1;p;real;0;1
mortmasec;cumulative biomass of dead tillers;t.ha-1;p;real;0;1
mortreserve;biomass of reserves corresponding to dead tillers;t.ha-1.d-1;p;real;0;1
MSexporte;cumulative amount of harvested biomass;t.ha-1;p;real;0;1
msjaune;senescent biomass of the plant;t.ha-1;p;real;0;2
msneojaune;newly-formed senescent biomass;t.ha-1;p;real;0;2
msrac(n);biomass of roots;t.ha-1;p;real;n;0
msracf(1);biomass of fine roots in layer 1;t.ha-1;p;real;1;0
msracf(2);biomass of fine roots in layer 2;t.ha-1;p;real;2;0
msracf(3);biomass of fine roots in layer 3;t.ha-1;p;real;3;0
msracf(4);biomass of fine roots in layer 4;t.ha-1;p;real;4;0
msracf(5);biomass of fine roots in layer 5;t.ha-1;p;real;5;0
msracg(1);biomass of coarse roots in layer 1;t.ha-1;p;real;1;0
msracg(2);biomass of coarse roots in layer 2;t.ha-1;p;real;2;0
msracg(3);biomass of coarse roots in layer 3;t.ha-1;p;real;3;0
msracg(4);biomass of coarse roots in layer 4;t.ha-1;p;real;4;0
msracg(5);biomass of coarse roots in layer 5;t.ha-1;p;real;5;0
msracmort;Biomass of dead roots;t.ha-1;p;real;0;0
msracmortf(1);cumulative biomass of dead fine roots in layer 1;t.ha-1;p;real;1;0
msracmortf(2);cumulative biomass of dead fine roots in layer 2;t.ha-1;p;real;2;0
msracmortf(3);cumulative biomass of dead fine roots in layer 3;t.ha-1;p;real;3;0
msracmortf(4);cumulative biomass of dead fine roots in layer 4;t.ha-1;p;real;4;0
msracmortf(5);cumulative biomass of dead fine roots in layer 5;t.ha-1;p;real;5;0
msracmortg(1);cumulative biomass of dead coarse roots in layer 1;t.ha-1;p;real;1;0
msracmortg(2);cumulative biomass of dead coarse roots in layer 2;t.ha-1;p;real;2;0
msracmortg(3);cumulative biomass of dead coarse roots in layer 3;t.ha-1;p;real;3;0
msracmortg(4);cumulative biomass of dead coarse roots in layer 4;t.ha-1;p;real;4;0
msracmortg(5);cumulative biomass of dead coarse roots in layer 5;t.ha-1;p;real;5;0
msrec_fou;biomass of harvested forage;t.ha-1;p;real;0;1
msrec_fou_coupe;Dry matter of harvested organs for forages at cutting;t.ha-1;p;real;0;0
msrec_fou_tot;Dry matter of harvestable organs for forages cumulated over the USM ;t.ha-1;p;real;0;0
MSrecycle;cumulative amount of biomass returned to soil (unexported at harvest + fallen leaves);t.ha-1;p;real;0;1
msresjaune;senescent residual dry matter;t.ha-1;p;real;0;2
mstot;biomass of whole plant (aerial + root + perennial organs);t.ha-1;p;real;0;0
N_mineralisation;cumulative amount of N mineralized from humus and organic residues;kg.ha-1;sc;real;0;0
n_tot_irrigations;total number of rrigations;SD;sc;integer;0;0
N_volatilisation;cumulative amount of N volatilised from fertilizer and organic inputs;kg.ha-1;soil;real;0;0
Nb;amount of N in the microbial biomass decomposing organic residues mixed with soil;kg.ha-1;sc;real;0;0
nb_days_frost_amf_120;number of days of tcultmin< tdebgel  from amf stage to amf+120 degrees day;d;p;integer;0;1
nb_days_humair_gt_90_percent1;number of days when humair_percent >=90% between amf and lax;days;sc;integer;0;0
nb_days_humair_gt_90_percent2;number of days when humair_percent >=90% between lax and drp;days;sc;integer;0;0
nbfeuille;number of leaves on main stem;SD;p;integer;0;1
nbinflo_recal;number of inflorescences per plant;SD;p;real;0;1
nbj0remp;number of shrivelling days;d;p;integer;0;1
nbjechaudage;number of shrivelling days between lax and rec;d;c;integer;0;0
nbjgel;number of frosting days active on the plant;d;p;integer;0;1
nbjpourdecirecolte;number of days until harvest is launched when it is postponed by the harvest decision option;d;p;integer;0;1
nbjpourdecisemis;number of days until sowing is launched when it is postponed by the sowing decision option;d;p;integer;0;1
Nbmulch;amount of N in microbial biomass decomposing the decomposable mulch;kg.ha-1;sc;real;0;0
NCbio;N/C ratio of biomass decomposing organic residues;SD;sc;real;0;0
Ndenit;daily denitrification rate in soil (if option denitrification is activated);kg.ha-1.d-1;soil;real;0;0
Ndfa;proportion of total plant N issued from N fixation;0-1;p;real;0;0
Nexporte;cumulative amount of N removed by crop harvests;kg.ha-1;p;real;0;1
nfruit(1);number of fruits in box 1;SD;p;real;1;2
nfruit(2);number of fruits in box 2;SD;p;real;2;2
nfruit(3);number of fruits in box 3;SD;p;real;3;2
nfruit(4);number of fruits in box 4;SD;p;real;4;2
nfruit(5);number of fruits in box 5;SD;p;real;5;2
nfruit(nboite);number of fruits in last box;SD;p;real;p%P_nboite;2
nfruit(nboite-1);number of fruits in last but one box;SD;p;real;p%P_nboite-1;2
nfruitnou;number of set fruits;fruits.m-2;p;real;0;2
Nhuma;amount of N in active soil organic matter;kg.ha-1;sc;real;0;0
Nhumi;amount of N in inert soil organic matter;kg.ha-1;sc;real;0;0
Nhumt;amount of N in humus soil organic matter (active + inert fractions);kg.ha-1;sc;real;0;0
nit_1_30;amount of  NO3-N in the soil layer 1 to 30 cm;kg.ha-1;sc;real;0;0
nit_31_60;amount of  NO3-N in the soil layer 31 to 60 cm;kg.ha-1;sc;real;0;0
nit_61_90;amount of  NO3-N in the soil layer 61 to 90 cm;kg.ha-1;sc;real;0;0
soilN_rootdepth;amount of  NO3-N in soil in the maximum root depth;kg.ha-1;sc;real;0;0
nitetcult(n);number of iterations to calculate tcult;SD;c;integer;n;0
nitrifj;daily nitrification rate in soil (if option nitrification is activated);kg.ha-1;soil;real;0;0
Nmineral_from_lev;cumulative amount of N mineralized during the crop cycle ( emergence or budbreak-harvest);kg.ha-1;sc;real;0;0
Nmineral_from_plt;cumulative amount of N mineralized during the crop cycle (sowing-harvest);kg.ha-1;sc;real;0;0
Nmulch;amount of N in the plant mulch;kg.ha-1;sc;real;0;0
Nmulchdec;amount of N in the decomposable mulch;kg.ha-1;sc;real;0;0
Nmulchnd;amount of N in the non decomposable mulch;kg.ha-1;sc;real;0;0
Nnondec(1);amount of N in the undecomposable mulch derived from residues type 1;kg.ha-1;sc;real;1;0
Nnondec(10);amount of N in the undecomposable mulch derived from residues type 10;kg.ha-1;sc;real;10;0
Nnondec(2);amount of N in the undecomposable mulch derived from residues type 2;kg.ha-1;sc;real;2;0
Nnondec(3);amount of N in the undecomposable mulch derived from residues type 3;kg.ha-1;sc;real;3;0
Nnondec(4);amount of N in the undecomposable mulch derived from residues type 4;kg.ha-1;sc;real;4;0
Nnondec(5);amount of N in the undecomposable mulch derived from residues type 5;kg.ha-1;sc;real;5;0
Nnondec(6);amount of N in the undecomposable mulch derived from residues type 6;kg.ha-1;sc;real;6;0
Nnondec(7);amount of N in the undecomposable mulch derived from residues type 7;kg.ha-1;sc;real;7;0
Nnondec(8);amount of N in the undecomposable mulch derived from residues type 8;kg.ha-1;sc;real;8;0
Nnondec(9);amount of N in the undecomposable mulch derived from residues type 9;kg.ha-1;sc;real;9;0
nodn;reduction factor on nodulation establishment (potential BNF) due to mineral N stress;0-1;sc;real;0;0
Norgeng;daily amount of N immobilized from fertiliser;kg.ha-1.d-1;soil;real;0;0
Nr;amount of N in the decomposing organic residues mixed with soil;kg.ha-1;sc;real;0;0
Nrecycle;cumulative amount of N returned to soil (unexported at harvest + fallen leaves);kg.ha-1;p;real;0;1
Nresiduprofil(1);amount of N in organic residues over the profhum depth, derived from residues type 1;kg.ha-1;sc;real;1;0
Nresiduprofil(10);amount of N in organic residues over the profhum depth, derived from residues type 10;kg.ha-1;sc;real;10;0
Nresiduprofil(2);amount of N in organic residues over the profhum depth, derived from residues type 2;kg.ha-1;sc;real;2;0
Nresiduprofil(3);amount of N in organic residues over the profhum depth, derived from residues type 3;kg.ha-1;sc;real;3;0
Nresiduprofil(4);amount of N in organic residues over the profhum depth, derived from residues type 4;kg.ha-1;sc;real;4;0
Nresiduprofil(5);amount of N in organic residues over the profhum depth, derived from residues type 5;kg.ha-1;sc;real;5;0
Nresiduprofil(6);amount of N in organic residues over the profhum depth, derived from residues type 6;kg.ha-1;sc;real;6;0
Nresiduprofil(7);amount of N in organic residues over the profhum depth, derived from residues type 7;kg.ha-1;sc;real;7;0
Nresiduprofil(8);amount of N in organic residues over the profhum depth, derived from residues type 8;kg.ha-1;sc;real;8;0
Nresiduprofil(9);amount of N in organic residues over the profhum depth, derived from residues type 9;kg.ha-1;sc;real;9;0
Nrprof;amount of N in deep organic residues mixed with soil (below the profhum depth);kg.ha-1;sc;real;0;0
Nrtout;total amount of N in organic residues present over the whole soil profile;kg.ha-1;sc;real;0;0
Nsurplus;Difference between N inputs and outputs to the soil, including organic fertilizer inputs;kg.ha-1;sc;real;0;0
Nsurplus_min;Difference between N inputs and outputs to the soil, without organic fertilizer inputs;kg.ha-1;sc;real;0;0
numcoupe;cut number;SD;p;integer;0;1
numcult;crop season number;SD;sc;integer;0;0
Nvolat_from_lev;cumulative amount of N volatilised during the crop cycle( emergence or budbreak-harvest);kg.ha-1;sc;real;0;0
Nvolat_from_plt;cumulative amount of N volatilised during the crop cycle (planting-harvest);kg.ha-1;sc;real;0;0
Nvoleng;daily amount of N volatilised from fertiliser;kg.ha-1.d-1;soil;real;0;0
Nvolorg;daily amount of N volatilised from organic inputs;kg.ha-1.d-1;soil;real;0;0
offrenod;daily amount of N fixed symbiotically (BNF);kg.ha-1.d-1;p;real;0;2
p1000grain;1000 grains weight (dry weight);g;p;real;0;1
pdsfruit(1);weight of fruits in box 1;g.m-2;p;real;1;2
pdsfruit(2);weight of fruits in box 2;g.m-2;p;real;2;2
pdsfruit(3);weight of fruits in box 3;g.m-2;p;real;3;2
pdsfruit(4);weight of fruits in box 4;g.m-2;p;real;4;2
pdsfruit(5);weight of fruits in box 5;g.m-2;p;real;5;2
pdsfruit(nboite);weight of fruits in last box;g.m-2;p;real;p%P_nboite;2
pdsfruit(nboite-1);weight of fruits in last but one box;g.m-2;p;real;p%P_nboite-1;2
pdsfruitfrais;weight of fresh fruits;g.m-2;p;real;0;2
penfruit;ratio of fruit envelops to plant biomass;0-1;p;real;0;2
pfeuil(n);ratio of leaves to plant biomass;0-1;p;real;n;2
pfeuiljaune;ratio of yellow leaves to plant biomass;0-1;p;real;0;2
pfeuilverte(n);ratio of green leaves to non-senescent plant biomass;0-1;p;real;n;2
phoi;photoperiod;hour;c;real;0;0
pHvol;pH of soil surface as affected by organic residues application (slurry);SD;soil;real;0;0
pousfruit;number of fruits transferred from one box to the next;SD;p;real;0;2
poussracmoy;mean reduction factor on the root growth due to soil constraints (option true density);0-1;p;real;0;1
precip;daily amount of water added to soil (precipitation + irrigation - mulch interception - runoff at the surface);mm.d-1;sc;real;0;0
precipjN;daily amount of mineral N added to soil due to precipitation;kg.ha-1.d-1;sc;real;0;0
precipN;cumulative amount of mineral N added to soil due to precipitation;kg.ha-1;sc;real;0;0
preciprec(n);recalculated daily precipitation;mm.d-1;c;real;n;0
preserve;proportion of reserve in total plant biomass;0-1;p;real;0;2
profexteau;average depth of water absorption by plant;cm;p;real;0;1
profextN;average depth of N absorption by plant;cm;p;real;0;1
profnappe;depth of water table;cm;soil;real;0;0
psibase;predawn leaf water potential;MPa;p;real;0;1
ptigestruc;proportion of structural stems in total plant biomass;0-1;p;real;0;2
q_irrigations(1);amount of irrigation;mm;sc;real;1;0
q_irrigations(10);amount of irrigation;mm;sc;real;10;0
q_irrigations(11);amount of irrigation;mm;sc;real;11;0
q_irrigations(12);amount of irrigation;mm;sc;real;12;0
q_irrigations(13);amount of irrigation;mm;sc;real;13;0
q_irrigations(14);amount of irrigation;mm;sc;real;14;0
q_irrigations(15);amount of irrigation;mm;sc;real;15;0
q_irrigations(16);amount of irrigation;mm;sc;real;16;0
q_irrigations(17);amount of irrigation;mm;sc;real;17;0
q_irrigations(18);amount of irrigation;mm;sc;real;18;0
q_irrigations(19);amount of irrigation;mm;sc;real;19;0
q_irrigations(2);amount of irrigation;mm;sc;real;2;0
q_irrigations(20);amount of irrigation;mm;sc;real;20;0
q_irrigations(21);amount of irrigation;mm;sc;real;21;0
q_irrigations(22);amount of irrigation;mm;sc;real;22;0
q_irrigations(23);amount of irrigation;mm;sc;real;23;0
q_irrigations(24);amount of irrigation;mm;sc;real;24;0
q_irrigations(25);amount of irrigation;mm;sc;real;25;0
q_irrigations(26);amount of irrigation;mm;sc;real;26;0
q_irrigations(27);amount of irrigation;mm;sc;real;27;0
q_irrigations(28);amount of irrigation;mm;sc;real;28;0
q_irrigations(29);amount of irrigation;mm;sc;real;29;0
q_irrigations(3);amount of irrigation;mm;sc;real;3;0
q_irrigations(30);amount of irrigation;mm;sc;real;30;0
q_irrigations(4);amount of irrigation;mm;sc;real;4;0
q_irrigations(5);amount of irrigation;mm;sc;real;5;0
q_irrigations(6);amount of irrigation;mm;sc;real;6;0
q_irrigations(7);amount of irrigation;mm;sc;real;7;0
q_irrigations(8);amount of irrigation;mm;sc;real;8;0
q_irrigations(9);amount of irrigation;mm;sc;real;9;0
QCapp;cumulative amount of organic C added to soil;kg.ha-1;sc;real;0;0
QCO2hum;cumulative amount of CO2-C emitted due to mineralisation of humus;kg.ha-1;sc;real;0;0
QCO2mul;cumulative amount of CO2-C emitted due to mineralisation of residues in the mulch;kg.ha-1;sc;real;0;0
QCO2res;cumulative amount of CO2-C emitted due to mineralisation of residues (including mulch);kg.ha-1;sc;real;0;0
QCO2sol;cumulative amount of CO2-C emitted due to heterotrophic respiration (QCO2res + QCO2hum);kg.ha-1;sc;real;0;0
QCperennemort;cumulative amount of C in dead perennial organs;kg.ha-1;p;real;0;2
QCperennemort2;cumulative amount of C in dead perennial organs of the two plants;kg.ha-1;sc;real;0;0
QCplantetombe;cumulative amount of C added to soil by fallen leaves due to senescence;kg.ha-1;p;real;0;2
QCplantetombe2;cumulative amount of C added to soil by fallen leaves due to senescence for  the two plants;kg.ha-1;sc;real;0;0
QCprimed;cumulative amount of C mineralised by priming effect;kg.ha-1;sc;real;0;0
QCrac;amount of C in roots;kg.ha-1;p;real;0;0
QCrac;amount of C in living roots;kg.ha-1;p;real;0;1
QCracmort;cumulative amount of C added to soil by dead roots;kg.ha-1;p;real;0;1
QCracmort2;cumulative amount of C added to soil by dead roots of  the two plants;kg.ha-1;sc;real;0;1
QCresorg;cumulative amount of C added to soil through organic exogenous residues;kg.ha-1;sc;real;0;0
QCressuite;cumulative amount of C added to soil due to aerial residues at harvest;kg.ha-1;p;real;0;1
QCressuite2;cumulative amount of C added to soil due to aerial residues at harvest for the two plants;kg.ha-1;sc;real;0;1
QCressuite_tot;cumulative amount of C added to soil by aerial residues from all harvests;t.ha-1;p;real;0;1
QCressuite_tot2;cumulative amount of C added to soil by aerial residues from all harvests of the two plants;kg.ha-1;sc;real;0;1
QCrogne;cumulative amount of C added to soil by fallen leaves due to trimming;kg.ha-1;p;real;0;0
QCrogne2;cumulative amount of C added to soil by fallen leaves due to trimming of the two plants;kg.ha-1;sc;real;0;0
Qdrain;water flow rate in mole drains;mm.d-1;soil;real;0;0
Qdraincum;cumulative amount of water flowing in mole drains;mm;soil;real;0;0
Qem_N2O;cumulative amount of N2O-N emitted from soil;kg.ha-1;sc;real;0;0
Qem_N2Oden;cumulative amount of N2O-N emitted from soil by denitrification;kg.ha-1;sc;real;0;0
Qem_N2Onit;cumulative amount of N2O-N emitted from soil by nitrification;kg.ha-1;sc;real;0;0
qexport;biomass exported out of the field;t.ha-1;p;real;0;0
Qfix;amount of N fixed symbiotically (BNF) between two cuts;kg.ha-1;p;real;0;2
Qfixtot;cumulative amount of N fixed symbiotically (BNF);kg.ha-1;p;real;0;2
Qfixtot2;cumulative amount of N fixed symbiotically (BNF) by the two plants;kg.ha-1;sc;real;0;0
Qles;cumulative amount of NO3-N leached at the base of the soil profile;kg.ha-1;sc;real;0;0
Qlesd;cumulative amount of NO3-N leached into mole drains;kg.ha-1;soil;real;0;0
Qmin;cumulative amount of mineralized N from soil;kg.ha-1;sc;real;0;0
Qminh;cumulative amount of mineralized N derived from humus decomposition;kg.ha-1;sc;real;0;0
Qminr;cumulative amount of mineralized N derived from organic residues decomposition;kg.ha-1;sc;real;0;0
qmulch;biomass of plant mulch;t.ha-1;sc;real;0;0
QNabso;cumulative N absorbed by the crop (fixation not included);kg.ha-1;p;real;0;2
QNabso2;cumulative N absorbed by the two crops (fixation not included);kg.ha-1;sc;real;0;0
QNabsoaer;cumulative N absorbed by the crop and allocated to the aerials;kg.ha-1;p;real;0;2
QNabsoper;cumulative N absorbed by the crop and allocated to the perennial organs;kg.ha-1;p;real;0;2
QNabsorac;cumulative N absorbed by the crop and allocated to the roots;kg.ha-1;p;real;0;2
QNabsotot;cumulative N taken up by the crop, including N fixation ;kg.ha-1;p;real;0;2
QNapp;cumulative amount of organic N added to soil (straw + roots + fallen leaves + organic fertilisers );kg.ha-1;sc;real;0;0
QNdenit;cumulative amount of N denitrified during the simulation period;kg.ha-1;soil;real;0;0
QNdenit_from_lev;cumulative amount of N denitrified during the crop cycle ( emergence or budbreak-harvest);kg.ha-1;sc;real;0;0
QNdenit_from_plt;cumulative amount of N denitrified during the crop cycle;kg.ha-1;sc;real;0;0
QNexport;Amount of nitrogen exported at harvest (harvested and removed parts);kg.ha-1;p;real;0;0
QNexport2;Amount of nitrogen exported at harvest from the two plants;kg.ha-1;sc;real;0;0
QNfauche;Amount of N exported in each cut;kg.ha-1;p;real;0;0
QNfauchetot;Cumulative amount of N exported by all cuts;kg.ha-1;p;real;0;0
QNfauchetot2;Cumulative amount of N exported by all cuts of the two plants;kg.ha-1;sc;real;0;0
QNfeuille;N content of structural part of the leaves;kg.ha-1;p;real;0;0
QNgaz;cumulative amount of gaseous N losses (through volatilisation and denitrification) ;kg.ha-1;soil;real;0;0
QNgrain;amount of N in harvested organs (grains / fruits);kg.ha-1;p;real;0;2
Qnitrif;cumulative amount of N nitrified in soil (if option nitrification is activated);kg.ha-1;sc;real;0;0
QNorgeng;cumulative amount of N immobilized from fertiliser;kg.ha-1;soil;real;0;0
QNperenne;amount of N in perennial organs;kg.ha-1;p;real;0;2
QNperennemort;cumulative amount of N in dead perennial organs;kg.ha-1;p;real;0;2
QNperennemort2;cumulative amount of N in dead perennial organs of the two plants;kg.ha-1;sc;real;0;0
QNplante;amount of N in plants (aerial + perennial organs), without roots;kg.ha-1;p;real;0;0
QNplante_mx_av_cut;Amount of nitrogen taken up by the plant before cut (for cut crops,  for others = QNplante);kg.ha-1;p;real;0;1
QNplantenp;amount of N in non perennial organs (aerials + roots);kg.ha-1;p;real;n;2
QNplantetombe;cumulative amount of N added to soil by fallen leaves;kg.ha-1;p;real;0;2
QNplantetombe2;cumulative amount of N added to soil by fallen leaves of the two plants;kg.ha-1;sc;real;0;0
QNprimed;cumulative amount of N mineralised by priming effect;kg.ha-1;sc;real;0;0
QNrac;amount of N in roots;kg.ha-1;p;real;0;1
QNracmort;cumulative amount of N added to soil by dead roots;kg.ha-1;p;real;0;1
QNracmort2;cumulative amount of N added to soil by dead roots of the two plants;kg.ha-1;sc;real;0;1
QNresorg;cumulative amount of organic exogenous N added to soil;kg.ha-1;sc;real;0;0
QNresperenne;amount of N in perennial reserves;kg.ha-1;p;real;0;2
QNresperennestruc;amount of N in the structural pool of perennial organs;kg.ha-1;p;real;0;0
QNressuite;cumulative amount of N added to soil by aerial residues at harvest;kg.ha-1;p;real;0;1
QNressuite_tot;cumulative amount of N added to soil by aerial residues from all harvests;kg.ha-1;p;real;0;1
QNressuite_tot2;cumulative amount of N added to soil by aerial residues from all harvests of the two plants;kg.ha-1;sc;real;0;1
QNressuite2;cumulative amount of N added to soil by aerial residues of the two plants;kg.ha-1;sc;real;0;1
QNrestemp;amount of N in temporary reserves of vegetative organs that can be remobilised;kg.ha-1;p;real;0;0
QNrogne;cumulative amount of N added to soil due to trimming;kg.ha-1;p;real;0;1
QNrogne2;cumulative amount of N added to soil due to trimming of the two plants;kg.ha-1;sc;real;0;1
QNtige;Structural nitrogen content in stems;kg.ha-1;p;real;0;0
QNtot;amount of N in whole plant (aerial + root + perennial organs);kg.ha-1;p;real;0;0
QNtot2;amount of N in whole plant (aerial + root + perennial organs) of the two plants;kg.ha-1;sc;real;0;0
QNveg;amount of N in vegetative organs;kg.ha-1;p;real;0;0
QNvegstruc;amount of N in the structural part of vegetative organs;kg.ha-1;p;real;0;0
QNvoleng;cumulative amount of N volatilised from fertiliser;kg.ha-1;soil;real;0;0
QNvolorg;cumulative amount of N volatilised from organic inputs;kg.ha-1;soil;real;0;0
qres_pature;amount of crop residue by pasture applied to the soil (fresh weight);t MF ha-1;sc;real;0;0
Qressuite;biomass of residues from the previous crop returned to soil at harvest (without fallen leaves);t.ha-1;p;real;0;1
Qressuite_tot;amount of total harvest residues (aerials + roots);t.ha-1;p;real;0;1
ra_recal;aerodynamic resistance between the canopy and the reference level zr;s.m-1;sta;real;0;0
raint;photosynthetic active radiation intercepted by the canopy;MJ.m-2;p;real;0;2
ras;aerodynamic resistance between the soil and the canopy;s.m-1;sc;real;0;0
ratioFT;Leaves to stem ratio;SD;p;real;0;0
Ratm;atmospheric radiation;MJ.m-2;sc;real;0;0
rc;resistance of canopy;s.m-1;p;real;0;1
rdif;ratio of diffuse radiation to global radiation;0-1;sc;real;0;0
remobilj;daily amount of biomass remobilized for growth;kg.ha-1.d-1;p;real;0;2
remontee;capillary uptake from the base of the soil profile;mm.d-1;soil;real;0;0
rendementsec;biomass of harvested organs (0% moisture);t.ha-1;p;real;0;1
resmes;amount of soil water integrated on the measurement depth;mm;sc;real;0;0
resperenne;biomass of metabolic reserves in the perennial organs;t.ha-1;p;real;0;2
resrac;soil water reserve in the root zone;mm;p;real;0;1
restemp;biomass reserves (carbohydrates) in shoots that can be accumulated or mobilized for crop growth;t.ha-1;p;real;0;2
rfpi;reduction factor on plant development due to photoperiod;0-1;p;real;0;1
rfvi;reduction factor on plant development due to vernalization;0-1;p;real;0;1
rlj;rate of root length growth;m.d-1;p;real;0;1
rltot;total root length (accounting for senescent roots);cm.cm-2;p;real;0;1
rltotf;total root length (accounting for senescent roots);cm.cm-2;p;real;0;1
rltotg;total root length (accounting for senescent roots);cm.cm-2;p;real;0;1
rmaxi;maximum water reserve used;mm;p;real;0;1
rnet;net radiation;MJ.m-2;sc;real;0;0
rnetS;net radiation at the soil surface;MJ.m-2;sc;real;0;0
rombre;fraction of the total radiation in the shade;0-1;p;real;0;1
rsoleil;fraction of the total radiation in the full sun;0-1;p;real;0;1
RsurRU;fraction of plant available water over the soil profile;0-1;sc;real;0;0
RsurRUrac;fraction of plant available water over the root profile;0-1;p;real;0;1
RU;plant available water content over the soil profile;mm;sc;real;0;0
ruissel;daily amount of water in total runoff (surface + overflow);mm.d-1;sc;real;0;0
ruisselsurf;daily amount of water in runoff at soil surface;mm.d-1;sc;real;0;0
ruisselt;cumulative amount of water in total runoff (surface + overflow);mm;sc;real;0;0
runoff_from_lev;cumulative amount of water in runoff (surface + overflow) during the crop cycle ( emergence or budbreak-harvest);mm;sc;real;0;0
runoff_from_plt;cumulative amount of water in runoff (surface + overflow) during the crop cycle (sowing-harvest);mm;sc;real;0;0
RUrac;maximum plant available water content over the root profile;mm;p;real;0;1
saturation;amount of water in the soil macroporosity;mm;sc;real;0;0
Sdepth(n);snow cover depth;m;c;real;n;0
senfac;reduction factor on leaf life span due to water stress (increasing senescence rate);0-1;p;real;0;2
sla;specific leaf area;cm2.g-1;p;real;0;2
SMN;amount of soil mineral N content over the soil profile;kg.ha-1;sc;real;0;0
SMNmes;amount of soil mineral N content over the depth profmes;kg.ha-1;sc;real;0;0
Snowaccu(n);daily snowfall accumulation (mm water equivalent);mm.d-1;c;real;n;0
Snowmelt(n);daily snowmelt (mm water equivalent);mm.d-1;c;real;n;0
SOC;amount of soil organic C (= Chumt + Cb) over the profhum depth;kg.ha-1;sc;real;0;0
SOCL(1);amount of soil organic C (= Chumt + Cb) in the layer 1;kg.ha-1;sc;real;0;0
SOCL(2);amount of soil organic C (= Chumt + Cb) in the layer 2;kg.ha-1;sc;real;0;0
SOCL(3);amount of soil organic C (= Chumt + Cb) in the layer 3;kg.ha-1;sc;real;0;0
SOCL(4);amount of soil organic C (= Chumt + Cb) in the layer 4;kg.ha-1;sc;real;0;0
SOCL(5);amount of soil organic C (= Chumt + Cb) in the layer 5;kg.ha-1;sc;real;0;0
SOC0;amount of soil organic C (= Chumt + Cb) over the profhum depth at time 0;kg.ha-1;sc;real;0;0
SOCbalance;Soil organic C balance (inputs-outputs) over the whole soil profile;kg.ha-1;sc;real;0;0
SOCinputs;Soil organic C inputs to the whole soil profile;kg.ha-1;sc;real;0;0
SOCtot;amount of soil organic C (all organic pools) over the whole soil profile;kg.ha-1;sc;real;0;0
SoilAvW;amount of plant available water in soil over the depth profmes;mm;sc;real;0;0
SoilAvW_by_layers(1);amount of plant available water in soil for layer 1;mm;sc;real;1;0
SoilAvW_by_layers(2);amount of plant available water in soil for layer 2;mm;sc;real;2;0
SoilAvW_by_layers(3);amount of plant available water in soil for layer 3;mm;sc;real;3;0
SoilAvW_by_layers(4);amount of plant available water in soil for layer 4;mm;sc;real;4;0
SoilAvW_by_layers(5);amount of plant available water in soil for layer 5;mm;sc;real;5;0
SoilN;amount of mineral N in soil over the depth profmes;kg.ha-1;sc;real;0;0
SoilNM;amount of NO3-N in soil over the depth profmesN;kg.ha-1;sc;real;0;0
SoilWatM;amount of plant available water in soil over the depth profmesW;mm;sc;real;0;0
som_HUR;cumulative water content of the soil microporosity;mm;sc;real;0;0
som_sat;cumulative amount of water in the soil macroporosity;mm;sc;real;0;0
somcour;cumulative units of development (upvt) between two stages;degreeC.d;p;real;0;1
somcourdrp;cumulative units of development (upvt) between two reproductive stages;degreeC.d;p;real;0;1
somcourfauche;sum of temperature beetwen 2 cuts of forage crop;degreeC.d;p;real;0;1
somcourmont;cumulative units of development from the start of vernalisation;degreeC.d;p;real;0;1
somdifftculttair;cumulative temperature difference (tcult-tair) during the simulation period;degreeC;c;real;0;0
somtemp;sum of temperatures (expressed in Q10 =sum (2.0 ** (udevair ou udevcult / 10.));degreeC.d;p;real;0;1
somudevair;sum of air temperature (udevair) from sowing to harvest;degreeC;p;real;0;1
somudevcult;sum of crop temperature (udevcult) from sowing to harvest;degreeC;p;real;0;1
somupvtsem;sum of development units (upvt) from sowing to harvest;degreeC;p;real;0;1
SON;amount of soil organic N (= Nhumt + Nb) over the profhum depth;kg.ha-1;sc;real;0;0
SONL(1);amount of soil organic N (= Nhumt + Nb) in the layer 1;kg.ha-1;sc;real;0;0
SONL(2);amount of soil organic N (= Nhumt + Nb) in the layer 2;kg.ha-1;sc;real;0;0
SONL(3);amount of soil organic N (= Nhumt + Nb) in the layer 3;kg.ha-1;sc;real;0;0
SONL(4);amount of soil organic N (= Nhumt + Nb) in the layer 4;kg.ha-1;sc;real;0;0
SONL(5);amount of soil organic N (= Nhumt + Nb) in the layer 5;kg.ha-1;sc;real;0;0
SON0;amount of soil organic N (= Nhumt + Nb) over the profhum depth at time 0;kg.ha-1;sc;real;0;0
SONbalance;Soil organic N balance (inputs-outputs) over the whole soil profile;kg.ha-1;sc;real;0;0
SONinputs;Soil organic N inputs to the whole soil profile;kg.ha-1;sc;real;0;0
SONtot;amount of soil organic N (all organic pools) over the whole soil profile;kg.ha-1;sc;real;0;0
sourcepuits;source to sink ratio of assimilates in the plant;SD;p;real;0;2
spfruit;reduction factor on the fruits number due to trophic stress;0-1;p;real;0;2
splai;source to sink ratio of assimilates in the leaves;SD;p;real;0;2
stemflow;daily amount of water runoff along the stem;mm.d-1;p;real;0;1
STN;total soil N (mineral + organic);kg.ha-1;sc;real;0;0
str1intercoupe;average stomatal water stress index during the vegetative phase (emergence - maximum LAI) of forage crops;0-1;p;real;0;0
str2intercoupe;average stomatal water stress index during the reproductive phase (maximum LAI  - maturity) of forage crops;0-1;p;real;0;0
stu1intercoupe;average turgescence water stress index during the vegetative phase (emergence - maximum LAI) of forage crops;0-1;p;real;0;0
stu2intercoupe;average turgescence water stress index during the reproductive phase (maximum LAI  - maturity) of forage crops;0-1;p;real;0;0
sucre;sugar content of harvested organs;0-1;p;real;0;2
sucre_percent;sugar content of harvested organs;% fresh weight;p;real;0;0
surf(ao);fraction of the soil surface in the shade;0-1;p;real;ao;0
surf(as);fraction of the soil surface in the sun;0-1;p;real;as;0
swfac;stomatic water stress index;0-1;p;real;0;2
swfac1moy;average stomatic water stress index over the vegetative stage;0-1;p;real;0;1
swfac2moy;average stomatic water stress index over the reproductive stage;0-1;p;real;0;1
tairveille;mean air temperature at the previous day;degreeC;sc;real;0;0
tauxcouv(n);cover rate of the canopy;SD;sc;real;n;0
tcult;crop surface temperature (daily average);degreeC;sc;real;0;0
tcult_tairveille;difference between canopy temperature and air temperature;degreeC;sc;real;0;0
tcultmax;crop surface temperature (daily maximum);degreeC;sc;real;0;0
tcultmin;crop surface temperature (daily minimum);degreeC;sc;real;0;0
tempeff;efficient temperature for growth;degreeC;p;real;0;1
tetp(n);efficient potential evapotranspiration (entered or calculated);mm.d-1;c;real;n;0
tetstomate;threshold of soil water content limiting transpiration and photosynthesis;% vol;p;real;0;1
teturg;threshold of soil water content limiting the growth of leaves (in surface area);% vol;p;real;0;1
tmax(n);maximum active temperature of atmosphere;degreeC;c;real;n;0
tmaxext(n);maximum temperature of external atmosphere;degreeC;c;real;n;0
tmaxrec(n);recalculated daily maximum temperature (with presence of a snow cover);degreeC;c;real;n;0
tmin(n);minimum active temperature of atmosphere;degreeC;c;real;n;0
tminext(n);minimum temperature of external atmsphere;degreeC;c;real;n;0
tminrec(n);recalculated daily minimum temperature  (with presence of a snow cover);degreeC;c;real;n;0
tmoy(n);mean active temperature of atmosphere;degreeC;c;real;n;0
tmoyext(n);mean temperature of external atmosphere;degreeC;c;real;n;0
tmoyIpltJuin;mean temperature from sowing or planting (iplt stage) until June 30;degreeC;p;real;0;1
tmoyIpltSept;mean temperature from sowing or planting (iplt stage) until September 30;degreeC;p;real;0;1
tncultmat;average of minimum crop temperatures (tcultmin) between the stages lax and rec;degreeC;c;real;0;0
tnhc;cumulative normalized time for the mineralisation of humus;d;sc;real;0;0
tnrc;cumulative normalized time for the mineralisation of organic residues;d;sc;real;0;0
totapN;cumulative amount of mineral N added by mineral fertilisers and organic fertilisers;kg.ha-1;sc;real;0;0
totapNres;cumulative amount of mineral N added by organic fertilisers;kg.ha-1;sc;real;0;0
totir;cumulative amount of irrigation water;mm;sc;real;0;0
tpm(n);water vapour pressure in air;hPa;c;real;n;0
trg(n);active radiation (entered or calculated);MJ.m-2;c;real;n;0
trgext(n);exterior radiation;MJ.m-2;c;real;n;0
trr(n);daily rainfall;mm.d-1;c;real;n;0
TS(1);mean soil temperature (in layer 1);degreeC;sc;real;1;0
TS(2);mean soil temperature (in layer 2);degreeC;sc;real;2;0
TS(3);mean soil temperature (in layer 3);degreeC;sc;real;3;0
TS(4);mean soil temperature (in layer 4);degreeC;sc;real;4;0
TS(5);mean soil temperature (in layer 5);degreeC;sc;real;5;0
tsol(10);temperature in the soil at 10 cm ;degrees;sc;real;0;0
tsol_mean_0_profsem;daily min soil temperature on the layer 1 to sowing depth;d;p;real;0;1
tsol_mean_ger_lev_0_dpthsow;mean soil temperature on the layer 1 to sowing depth  from germination date to emergence;degreeC.d;p;real;0;1
tsol_mean_plt_ger_0_dpthsow;mean soil temperature on the layer 1 to sowing depth  from sowing date to germination ;degreeC.d;p;real;0;1
tsol_min_0_profsem;daily mean soil temperature on the layer 1 to sowing depth;d;p;real;0;1
tsol_min_ger_lev_0_dpthsow;min soil temperature on the layer 1 to sowing depth  from germination date to emergence;degreeC.d;p;real;0;1
tsol_min_plt_ger_0_dpthsow;min soil temperature on the layer 1 to sowing depth  from sowing date to germination ;degreeC.d;p;real;0;1
turfac;turgescence water stress index;0-1;p;real;0;2
turfac1moy;average turgescence water stress index during the vegetative stage;0-1;p;real;0;1
turfac2moy;average turgescence water stress index during the reproductive stage;0-1;p;real;0;1
tustress;reduction factor on leaf growth due to the effective water stress  (= min(turfac,innlai));0-1;sc;real;0;0
tvent(n);mean daily wind speed at 2 m high above soil;m.s-1;c;real;n;0
udevair;effective temperature for crop development, computed with tair;degreeC.d;p;real;0;1
udevcult;effective temperature for crop development, computed with tcult;degreeC.d;p;real;0;1
ulai(n);relative development unit for LAI;0-3;p;real;n;0
upvt(n);development unit;degreeC.d;p;real;n;0
urac;daily relative development unit for root growth;1-3;p;real;0;1
vitmoy;mean canopy growth rate;g.m-2.d-1;p;real;0;2
xmlch1;thickness of the dry layer created by evaporation from the soil and mulch;cm;sc;real;0;0
zrac;maximum depth reached by root system;cm;p;real;0;1
zracmax;maximum rooting depth;cm;p;real;0;1