Mercurial > repos > siwaa > redelac_stics_g
changeset 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 | 68d65fc7a2b7 |
| files | config/inputs.csv config/internal_variables_v10.csv config/interpolation_lai.def config/outputs.csv config/param_gen - Copie.xml config/param_gen.xml config/param_newform.xml config/param_newformpour_stics_modulo.xml config/preferences.xml config/prof.mod config/profil.csv config/rap.mod config/var - Copie.mod config/var.def config/var.mod config/var_par_defaut.mod config/var_redelac_tout.mod redelacSticsInputGenerator.R redelacSticsInputGenerator.xml |
| diffstat | 19 files changed, 4872 insertions(+), 0 deletions(-) [+] |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/inputs.csv Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,1694 @@ +aangst;coefficient of the Angstrom relationship for extraterrestrial radiation;SD;STATION;1;real;0;0.9;1;0 +abscission;fraction of senescent leaves falling to the soil;SD;PARPLT;1;real;0;1;1;0 +aclim;climatic component to calculate actual soil evaporation (Brisson & Perrier, 1991);mm;STATION;1;real;4;25;1;0 +adens;Interplant competition parameter;SD;PARPLT;1;real;-2;0;1;1 +adfol;parameter determining the leaf density evolution within the chosen shape;m-1;PARPLT;1;real;-10;10;1;0 +adil;parameter of the critical dilution curve [Nplante]=adil MS^(-bdil);% ;PARPLT;1;real;1;7;1;0 +adilmax;parameter of the maximum dilution curve [Nplante]=adilmax MS^(-bdilmax);% ;PARPLT;1;real;3;10;1;0 +afpf;parameter of the logistic function defining sink strength of fruits (indeterminate growth) : relative fruit age at which growth is maximal;SD;PARPLT;1;real;0.01;1;1;0 +afruitpot;maximal number of set fruits per inflorescence and per degree day (indeterminate growth);fruits.inflorescence-1.degree_d-1;PARPLT;1;real;0.5;20;1;1 +ahres;parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(1);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(10);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(11);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(12);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(13);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(14);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(15);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(16);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(17);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(18);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(19);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(2);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(20);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(21);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(3);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(4);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(5);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(6);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(7);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(8);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +ahres(9);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);SD;PARAM;21;real;0;100;1;0 +akres;parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(1);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(10);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(11);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(12);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(13);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(14);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(15);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(16);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(17);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(18);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(19);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(2);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(20);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(21);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(3);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(4);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(5);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(6);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(7);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(8);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +akres(9);parameter of organic residues decomposition: kres=akres+bkres/CsurNres;d-1;PARAM;21;real;-0.2;1;1;0 +aks;parameter of calculation of the energetic loss between the inside and the outside of a greenhouse ;W.m-2.K-1;STATION;1;real;0.01;100;1;0 +albedo;albedo of the bare dry soil;SD;PARSOL;1;real;0.05;0.6;1;0 +albedomulchplastique;albedo of plastic cover;SD;PARTEC;1;real;0.05;0.8;1;0 +albedomulchresidus;albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(1);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(10);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(11);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(12);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(13);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(14);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(15);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(16);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(17);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(18);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(19);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(2);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(20);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(21);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(3);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(4);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(5);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(6);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(7);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(8);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albedomulchresidus(9);albedo of plant mulch;SD;PARAM;21;real;0.05;0.8;1;0 +albveg;albedo of the vegetation;SD;STATION;1;real;0.05;0.3;1;0 +allocfrmax;maximal daily allocation to fruits;SD;PARPLT;1;real;0.05;1;1;0 +alloperirac;allocation rate of the seed reserves (perisperm) to the rootlet growth;SD;PARPLT;1;real;0.05;1;1;0 +alphaCO2;coefficient accounting for the modification of radiation use efficiency in case of atmospheric CO2 increase;SD;PARPLT;1;real;1;2;1;0 +alphapH;maximal soil pH variation per unit of inorganic N added with slurry;kg-1 ha;PARAM;1;real;0.001;0.02;1;0 +alphaphot;parameter of photoperiodic effect on leaf lifespan;SD;PARPLT;1;real;0;1000;1;0 +alphapt;parameter of Priestley-Taylor formula;SD;STATION;1;real;1;2;1;0 +altinversion;altitude of inversion of the thermal gradient;m;STATION;1;real;0;2000;1;0 +altisimul;altitude of simulated site;m;STATION;1;real;0;2000;1;0 +altistation;altitude of the input metorological station ;m;STATION;1;real;0;2000;1;0 +ampfroid;semi thermal amplitude for vernalising effect;degree_C;PARPLT;1;real;1;30;1;0 +anitcoupe;amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(1);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(10);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(11);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(12);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(13);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(14);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(15);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(16);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(17);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(18);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(19);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(2);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(20);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(3);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(4);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(5);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(6);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(7);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(8);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +anitcoupe(9);amount of mineral N added by fertiliser application at each cut of a forage crop;kg.ha-1;PARTEC;20;real;0;400;1;0 +argi;clay content after decarbonation;%;PARSOL;1;real;0;60;1;0 +awb;parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(1);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(10);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(11);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(12);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(13);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(14);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(15);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(16);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(17);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(18);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(19);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(2);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(20);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(21);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(3);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(4);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(5);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(6);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(7);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(8);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +awb(9);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;0;100;1;0 +bangst;coefficient of the Angstrom s relationship for extraterrestrial radiation;SD;STATION;1;real;0;1;1;0 +bdens;minimal plant density above which interplant competition starts;m-2;PARPLT;1;real;1;200;1;1 +bdil;parameter of the critical dilution curve [Nplante]=adil MS^(-bdil);SD;PARPLT;1;real;0.01;0.8;1;0 +bdilmax;parameter of the maximum dilution curve [Nplante]=adilmax MS^(-bdilmax);SD;PARPLT;1;real;0.01;0.8;1;0 +belong;parameter of the curve of coleoptile elongation;degree_d-1;PARPLT;1;real;0.005;0.04;1;0 +beta;parameter of increase of maximal transpiration when a water stress occurs ;SD;PARAM;1;real;1;2;1;0 +bformnappe;coefficient for the water table shape (artificially drained soil);SD;PARAM;1;real;0;1;1;0 +bfpf;parameter of the logistic curve defining sink strength of fruits (indeterminate growth): maximum growth rate relative to maximum fruit weight;SD;PARPLT;1;real;0;30;1;0 +bhres;parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(1);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(10);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(11);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(12);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(13);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(14);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(15);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(16);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(17);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(18);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(19);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(2);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(20);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(21);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(3);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(4);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(5);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(6);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(7);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(8);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +bhres(9);parameter of organic residues humification: hres=1-ahres*CsurNres/(bhres+CsurNres);g.g-1;PARAM;21;real;-5;2000;1;0 +biorognem;minimal crop biomass removed when topping (automatic calculation);t.ha-1;PARTEC;1;real;0;10;1;0 +bkres;potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(1);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(10);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(11);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(12);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(13);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(14);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(15);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(16);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(17);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(18);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(19);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(2);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(20);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(21);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(3);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(4);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(5);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(6);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(7);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(8);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bkres(9);potential rate of decomposition of organic residues: kres=akres+bkres/CsurNres;g.g-1;PARAM;21;real;-2;2;1;0 +bks;parameter of calculation of the energetic lost between the inside and the outside of a greenhouse ;W.m-2.K-1;STATION;1;real;0;100;1;0 +bwb;parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(1);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(10);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(11);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(12);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(13);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(14);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(15);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(16);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(17);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(18);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(19);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(2);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(20);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(21);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(3);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(4);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(5);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(6);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(7);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(8);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +bwb(9);parameter determining C/N ratio of biomass during organic residues decomposition: CsurNbio=awb+bwb/CsurNres;g.g-1;PARAM;21;real;-500;0;1;0 +cadencerec;number of days between two harvests;d;PARTEC;1;integer;1;30;1;0 +cailloux;volumetric content of pebbles per soil layer;%;PARSOL;5;real;0;100;1;0 +cailloux(1);volumetric content of pebbles per soil layer;%;PARSOL;5;real;0;100;1;0 +cailloux(2);volumetric content of pebbles per soil layer;%;PARSOL;5;real;0;100;1;0 +cailloux(3);volumetric content of pebbles per soil layer;%;PARSOL;5;real;0;100;1;0 +cailloux(4);volumetric content of pebbles per soil layer;%;PARSOL;5;real;0;100;1;0 +cailloux(5);volumetric content of pebbles per soil layer;%;PARSOL;5;real;0;100;1;0 +calc;total carbonate content;%;PARSOL;1;real;0;100;1;0 +capiljour;capillary rise upward water flux;mm.d-1;PARSOL;1;real;0.1;20;1;0 +celong;parameter of the plantlet elongation curve;SD;PARPLT;1;real;1;10;1;0 +cfes;parameter defining the soil contribution to evaporation versus depth ;SD;PARSOL;1;real;0.5;4;1;0 +cfpf;parameter of the first potential growth phase of fruit, corresponding to an exponential type function describing the cell division phase;SD;PARPLT;1;real;0.1;100;1;0 +cgrain;slope of the relationship between grain number and growth rate ;t-1.m2.d;PARPLT;1;real;100;5000;1;0 +cgrainv;fraction of the maximal number of grains when growth rate is zero;SD;PARPLT;1;real;0;1;1;0 +cgrainv0;fraction of the maximal number of grains when growth rate is zero;SD;PARPLT;1;real;0;1;1;0 +cielclair;fraction of sunny hours allowing the inversion of thermal gradient with altitude;SD;STATION;1;real;0;1;1;0 +cmax_pdenit;Soil organic carbon concentration above which denitrification potential is constant and maximum;g.kg-1;PARAM;1;real;3;40;1;0 +cmin_pdenit;Soil organic carbon concentration below which denitrification potential is constant and minimum;g.kg-1;PARAM;1;real;0;3;1;0 +CNgrainrec;minimal N content of grain at harvest ;g.g-1;PARTEC;1;real;0;1;1;0 +CNresmax;maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(1);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(10);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(11);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(12);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(13);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(14);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(15);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(16);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(17);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(18);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(19);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(2);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(20);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(21);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(3);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(4);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(5);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(6);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(7);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(8);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmax(9);maximum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin;minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(1);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(10);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(11);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(12);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(13);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(14);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(15);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(16);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(17);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(18);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(19);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(2);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(20);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(21);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(3);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(4);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(5);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(6);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(7);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(8);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +CNresmin(9);minimum value of C/N ratio of organic residue;g.g-1;PARAM;21;real;3;300;1;0 +codabri;option to activate cropping under shelter: 1 = no, 2 = yes;code 1/2;PARTEC;1;integer;1;2;1;0 +codadret;option to calculate mountain climate taking into account the orientation: 1 = south, 2 = north;code 1/2;STATION;1;integer;1;2;1;0 +codaltitude;option to activate the calculation of the climate in altitude: 1 = no, 2 = yes;code 1/2;STATION;1;integer;1;2;1;0 +codazofruit;option to activate the direct effect of N plant status on the fruit/grain number: 1 = no, 2 = yes;code 1/2;PARPLT;1;integer;1;2;1;0 +codazorac;option to activate the effect of N stress on root partitioning within the soil profile: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codcaleffeuil;option to calculate leaf removal by thinning: 1 = proportion of leaf removed (effeuil), 2 = lai minimal (laieffeuil);code 1/2;PARTEC;1;integer;1;2;1;0 +codcalinflo;option to calculate the inflorescences number: 1 = read in param.par, 2 = calculated at the amf stage;code 1/2;PARPLT;1;integer;1;2;1;0 +codcalrogne;option to calculate topping: 1 = forced topping, 2 = automatic calculation;code 1/2;PARTEC;1;integer;1;2;1;0 +codcueille;option to define harvest type: 1 =single harvest (cutting), 2 = multiple harvests (picking);code 1/2;PARTEC;1;integer;1;2;1;0 +code_acti_reserve;option to activate the simulation of Nitrogen and Carbon reserves: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +code_auto_profres;option to define profres: 1 = profres read in tec file, 2 = profres calculated as proftrav *(1-exp(-resk.(proftrav-resz));code 1/2;PARTEC;1;integer;1;2;1;0 +code_CsurNsol_dynamic;option to activate the dynamic calculation of CsurNsol: 1 = yes, 2 = no;code 1/2;PARAMV6;1;integer;1;2;1;0 +code_diff_root;option to activate the simulation of 2 root classes: 1 =yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +code_hautfauche_dyn;option to activate dynamic calculation of residual LAI, biomass and N content after cutting: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +code_hourly_wfps_denit;option to activate hourly WFPS calculation for denitrification: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +code_hourly_wfps_nit;option to activate hourly WFPS calculation for nitrification: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +code_pdenit;option to define the denitrification potential: 1 = read in soil parameter, 2 = calculated from soil organic carbon concentration;code 1/2;PARAM;1;integer;1;2;1;0 +code_ratiodenit;option to define the N2O/(N2+N2O) ratio of denitrification: 1 = constant, 2 = variable;code 1/2;PARAM;1;integer;1;2;1;0 +code_rationit;option to define the N2O/(N2+N2O) ratio of nitrification: 1 = constant, 2 = variable;code 1/2;PARAM;1;integer;1;2;1;0 +code_rootdeposition;code to simulate N demand and allocation to roots and their turn-over during crop growth cycle: 1 = daily deposition, 2 = deposition only at harvest;code 1/2;PARPLT;1;integer;1;2;1;0 +code_stress_root;option to activate the preferential allocation of biomass to roots in case of water or N stress: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +code_tnit;option to define the temperature function for nitrification: 1 = piecewise linear, 2 = gaussian;code 1/2;PARAM;1;integer;1;2;1;0 +code_vnit;option to define the nitrification rate dependence on NH4: 1 = first order, 2 = Michaelis-Menten;code 1/2;PARAM;1;integer;1;2;1;0 +code_WangEngel;option to activate the effect of temperature on development units for emergence according to Wang et Engel (1998): 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codeactimulch;option to activate the mulch effect at soil surface: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codeaumin;option to activate the harvest according to grain/fruit water content: 1 = water content > minimum threshold, 2 = water content < maximum threshold;code 1/2;PARTEC;1;integer;1;2;1;0 +codebeso;option to calculate water requirements: 1 = k.ETP approach, 2= resistive method;code 1/2;PARPLT;1;integer;1;2;1;0 +codebfroid;option to calculate chilling requirements: 1 = no need, 2 = vernalising days, 3 = development stage;code 1/2/3;PARPLT;1;integer;1;3;1;0 +codecailloux;option to take into account pebbles in the water and N balances: 1 = yes, 2 = no;code 0/1;PARSOL;1;integer;0;1;1;0 +codecalferti;option to activate the automatic calculation of fertilisation rate: 1 = yes, 2 = no;code 1/2;PARAMV6;1;integer;1;2;1;0 +codecalirrig;option to activate the automatic calculation of irrigation requirements: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codecaltemp;option to activate the use of crop temperature for phasic development calculation: 1 = empirical relation, 2 = energy balance;code 1/2;STATION;1;integer;1;2;1;0 +codeclaircie;option to simulate fruit removal: 1 = no, 2 = yes (for smallest fruits) ;code 1/2;PARTEC;1;integer;1;2;1;0 +codeclichange;option to activate climate change: 1 = no, 2 =yes;code 1/2;STATION;1;integer;1;2;1;0 +codedate_irrigauto;option to activate the beginning and the ending dates in case of automatic irrigation: 1 = dates, 2= crop stages, 3 = nothing;code 1/2/3;PARTEC;1;integer;1;3;1;0 +codedateappH2O;option to calculate irrigation dates according to sum of temperatures: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codedateappN;option to calculate mineral fertilizer application dates according to sum of temperatures: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codedecirecolte;option to activate moisture and frost effects on harvest decision: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codedecisemis;option to activate the moisture effect on harvest decision: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codedenit;option to activate the calculation of denitrification model: 1 = yes, 2 = no;code 1/2;PARSOL;1;integer;1;2;1;0 +codedisrac;option to define root profile in soil: 1 = standard root distribution, 2 = root emission proportional to root biomass;code 1/2;PARPLT;1;integer;1;2;1;0 +codedormance;option to calculate dormancy and chilling requirements: 1 = forcing, 2 = Richardson, 3 = Bidabe;code 1/2/3;PARPLT;1;integer;1;3;1;0 +codeDST;option to activate the variations in physical soil conditions due to tillage: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codeDSTnbcouche;option to define the number of compacted soil layers: 1 = one layer, 2 = two layers;code 1/2;PARTEC;1;integer;1;2;1;0 +codeDSTtass;option to activate the soil compaction at sowing and harvest: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codedyntalle;option to activate the module simulating tillers dynamics: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codeetp;option to calculate PET: 1 = forced Penman, 2 = calculated Penman, 3= Shuttleworth & Wallace, 4 = Priestley & Taylor;code 1/2/3/4;STATION;1;integer;1;4;1;0 +codefauche;option to activate cuts of forage crops: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codefente;option to activate an additional water compartment for swelling soils: 1 = yes, 2 = no;code 0/1;PARSOL;1;integer;0;1;1;0 +codeffeuil;option to activate plant thinning: 1 = no, 2 = yes;code 1/2;PARTEC;1;integer;1;2;1;0 +codefixpot;option to calculate the maximal symbiotic fixation: 1 = fixed value read in the plant file, 2 = depends on growth rate;code 1/2;PARPLT;1;integer;1;3;1;0 +codefracappN;option to activate split applications of N fertiliser: 1 = absolute value, 2 = fraction of total N application;code 1/2;PARTEC;1;integer;1;2;1;0 +codefrmur;option to define the maturity status of the fruits in the variable CHARGEFRUIT: 1 = including ripe fruits (last box N), 2 = excluding ripe fruits (first N-1 boxes);code 1/2;PARAM;1;integer;1;2;1;0 +codefxn;option to define the effect of soil nitrate on N fixation: 1 = no effect, 2 = effect of nitrate amount, 3 = effect of nitrate concentration;code 1/2/3;PARAM;1;integer;1;3;1;0 +codegdh;option to define the time step used for calculating development units: 1 = hourly, 2 = daily;code 1/2;PARPLT;1;integer;1;2;1;0 +codegdhdeb;option to define the time step used for calculating bud break date: 1 = daily, 2 = hourly growing degrees;code 1/2;PARPLT;1;integer;1;2;1;0 +codegermin;option to simulate germination: 1 = germination phase, 2 = immediate germination;code 1/2;PARPLT;1;integer;1;2;1;0 +codeh2oact;option to activate water stress effect on crop growth: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codehypo;option to simulate plant emergency: 1 = phase of hypocotyl growth (sown crops), 2 = plantation of plantlets;code 1/2;PARPLT;1;integer;1;2;1;0 +codeindetermin;option to simulate the type of leaf growth and fruit growth: 1 = determinate, 2 = undeterminate;code 1/2;PARPLT;1;integer;1;2;1;0 +codeinitprec;option to activate reset of initial conditions in case of chained simulations: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codeINN;option to compute NNI: 1 = cumulative NNI, 2 = instantaneous NNI;code 1/2;PARPLT;1;integer;1;2;1;0 +codeinnact;option to activate N stress effect on root length growth: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codeintercept;option to simulate rainfall interception by leaves: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codeir;option to calculate the ratio grain weight/total biomass: 1 = proportional to time, 2 = proportional to thermal time;code 1/2;PARPLT;1;integer;1;2;1;0 +codejourdes;option to simulate perennial crops destruction;code 1/2;PARTEC;1;integer;1;2;1;0 +codelaitr;option to calculate the intercepted radiation according to: 1 = LAI, 2 = soil cover;code 1/2;PARPLT;1;integer;1;2;1;0 +codelegume;option to define if the crop is a legume fixing N: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codemacropor;option to activate calculation of water flux in soil macroporosity: 1 = yes, 2 = no;code 1/2;PARSOL;1;integer;1;2;1;0 +codemicheur;option to calculate hourly microclimatic outputs (output file humidite.sti): 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codeminopt;option to simulate a bare soil with a constant water content: 1 = yes, 2 = no ;code 0/1;PARAM;1;integer;0;1;1;0 +codemodfauche;option to define the cutting mode: 1 = automatic calculation depending on phenologic and trophic state, 2 = pre-established calendar in days, 3 = pre-established calendar in degree-days;code 1/2/3;PARTEC;1;integer;1;3;1;0 +codemodlsnow;option to calculate snow variables: 1 = unused, 2 = unused, 3 = Snow model 3;code 1/2/3;STATION;1;integer;1;3;1;0 +codemonocot;option to define the type of plant: 1 = monocot, 2 =dicot;code 1/2;PARPLT;1;integer;1;2;1;0 +codemontaison;option to stop the reserve limitation after stem elongation in grassland: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codemortalracine;option to calculate the mass of dead roots after a cut: 1 = based on masec, 2 = based on masectot;code 1/2;PARPLT;1;integer;1;2;1;0 +codemsfinal;option to define if the biomass and yield are conserved after harvest: 1 = yes, 2 = no (values set at 0);code 1/2;PARAM;1;integer;1;2;1;0 +codenitrif;option to activate the nitrification model: 1 = yes, 2 = no;code 1/2;PARSOL;1;integer;1;2;1;0 +codeNmindec;option to activate the limitation of residues decomposition due lack of mineral N: 1 = yes, 2 = no;code 1/2;PARAMV6;1;integer;1;2;1;0 +codeoutscient;option to write outputs files with scientific format: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codepaillage;option to define soil cover: 1 = no cover, 2 = plastic cover partly covering the soil ;code 1/2;PARTEC;1;integer;1;2;1;0 +codepalissage;option to define if the plant is fixed onto a vertical support: 1 = no, 2 =yes;code 1/2;PARTEC;1;integer;1;3;1;0 +codeperenne;option to define the crop perenniality: 1 = annual crop, 2 = perennial crop;code 1/2;PARPLT;1;integer;1;2;1;0 +codephot;option to define plant photoperiodism: 1 = yes, 2 = no;code1/2;PARPLT;1;integer;1;2;1;0 +codephot_part;simulation of the effect of decreasing photoperiod on biomass allocation : 1 = yes, 2 = no;code1/2;PARPLT;1;integer;1;2;1;0 +codeplante;option to define the coding name of the plant (3 characters);SD;PARPLT;1;character;;;0;0 +codeplisoleN;option to define N requirements at the beginning of the cycle: 1 = dense plant population, 2 = isolated plants;code 1/2;PARPLT;1;integer;1;2;1;0 +codepluiepoquet;option to replace rainfall by irrigation at poquet depth in the case of poquet sowing: 1 = yes, 2 = no ;code 1/2;PARAMV6;1;integer;1;2;1;0 +codeprofmes;option of soil depth for calculating water and N stocks (1 = profmes, 2 = soil depth);code 1/2;PARAM;1;integer;1;2;1;0 +coderacine;option to define the calculation of root growth and extension: 1 = standard profile, 2 = root length density;code 1/2;PARPLT;1;integer;1;2;1;0 +coderecolteassoc;option to harvest intercrop species simultaneously, at the physiological maturity date of the earliest one: 1 = no, 2 = yes;code 1/2;PARTEC;1;integer;1;2;1;0 +coderemontcap;option to activate capillary rise: 1 = yes, 2 = no;code 1/2;PARSOL;1;integer;1;2;1;0 +coderes;residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes_pature;residue type used to simulate bovine feces: 1-10;code 1/10;PARAMV6;1;integer;1;10;1;0 +coderes(1);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(10);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(2);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(3);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(4);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(5);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(6);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(7);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(8);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderes(9);residue type: 1=mature crop, 2=cover crop, 3=Manure, 4=Green compost, 5=Sewage sludge, 6=Vinasse, 7=Horn, 8=vineyard prunings, 9=pig slurry, 10=rhizomes;code 1 to 10;PARTEC;10;integer;1;21;1;0 +coderetflo;option to activate the effect of water stress on development before the stage DRP (filling of harvested organs): 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codernet;option to calculate net radiation: 1 = Brunt method, 2 = Cellier method;code 1/2;STATION;1;integer;1;2;1;0 +codesensibilite;option to activate the sensitivity analysis version of the model: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codeseprapport;option to select the column separator in the rapport.sti output file: 1 = space separator, 2 = separator indicated in the file rapport.sti;code 1/2;PARAM;1;integer;1;2;1;0 +codesimul;option to define the type of crop simulation: culture or 0 (LAI calculated by the model), feuille or 1 (LAI forced);SD / code 0/1;USM/USMXML;1;character/integer;;;0;0 +codesnow;option to activate the snow module: 1 = yes, 2 = no;code 1/2;PARAM;1;integer;1;2;1;0 +codestade;option to force one or several development stages: 1 = yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codestrphot;option to activate the photoperiodic stress on lifespan (1 = yes, 2 = no);code 1/2;PARPLT;1;integer;1;2;1;0 +codesuite;option to simulate several successive USM: 0 = no, 1 = yes;code 0/1;USM;1;integer;0;0;1;0 +codeSWDRH;optin to calculate the duration of surface wetness: 1=yes , 2 = no;code 1/2;PARAMV6;1;integer;1;2;1;0 +codesymbiose;option to calculate symbiotic N fixation: 1 = based on critical dilution curve, 2 = specific calculation of N fixation;code 1/2;PARAM;1;integer;1;2;1;0 +codetaille;option to activate pruning: 1 = no, 2 = yes;code 1/2;PARTEC;1;integer;1;2;1;0 +codetemp;option to calculate thermal time for plant growth: 1 = based on air temperature, 2 = based on crop temperature;code 1/2;PARPLT;1;integer;1;2;1;0 +codetempfauche;option to define the reference temperature to compute cutting sum of temperatures: 1 = upvt, 2 = udevair;code 1/2;PARTEC;1;integer;1;2;1;0 +codetemprac;option to calculate thermal time for root growth: 1 = crop temperature, 2 = soil temperature;code 1/2;PARPLT;1;integer;1;2;1;0 +codetesthumN;option to define automatic N fertilisation calculation: 1 = based on rainfall, 2 = based on soil water content;code 1/2;PARAMV6;1;integer;1;2;1;0 +codetradtec;option to activate the effect of crop structure on radiation transfer: 1 =yes, 2 = no;code 1/2;PARTEC;1;integer;1;2;1;0 +codetranspitalle;option to choose the ratio used to calculate tiller mortality: 1 = et/etm, 2 = epc2/eopC;code 1/2;PARPLT;1;integer;1;2;1;0 +codetransrad;option to calculate radiation interception: 1 = Beer law, 2 = radiative transfer;code 1/2;PARPLT;1;integer;1;2;1;0 +codetremp;option to activate heat effect on grain filling: 1 = yes, 2 = no;code 1/2;PARPLT;1;integer;1;2;1;0 +codetrosee;option to calculate hourly dew temperature : 1 = linear interpolation, 2 = sinusoidal interpolation (Debele Bekele et al, 2007);code 1/2;PARAMV6;1;integer;1;2;1;0 +codetycailloux;code for pebble type;code 1 to 10;PARAM;1;integer;1;10;1;0 +codetypeng;code for fertiliser type;code 1 to 8;PARAM;1;integer;1;8;1;0 +codetypres;code for organic residue;code 1 to 10;PARAM;1;integer;1;21;1;0 +codevar;code for cultivar name;SD;PARPLT;1;character;;;0;1 +codgelflo;option to activate the frost effect at anthesis: 1 = no, 2 = yes;code 1/2;PARPLT;1;integer;1;2;1;0 +codgeljuv;option to activate the frost effect on LAI at the juvenile stage: 1 = no, 2 = yes;code 1/2;PARPLT;1;integer;1;2;1;0 +codgellev;option to activate the frost effect on plantlet growth: 1 = no, 2 = yes;code 1/2;PARPLT;1;integer;1;2;1;0 +codgelveg;option to activate the frost effect on LAI at adult stage: 1 = no, 2 = yes;code 1/2;PARPLT;1;integer;1;2;1;0 +codhauteff;option to define the height of leaf removal (if the thinning option is activated): 1 = bottom of the canopy, 2 = top of the canopy;code 1/2;PARTEC;1;integer;1;2;1;0 +codhnappe;option to calculate the watertable level : 1 = mean height, 2 = height at the distance distdrain;code 1/2;PARAM;1;integer;1;2;1;0 +codlainet;option to calculate the LAI: 1 = net LAI, 2 = difference between gross LAI and senescent LAI;code 1/2;PARPLT;1;integer;1;2;1;0 +codlocferti;option to define localized fertilisation: 1 = at soil surface, 2 = deeper in the soil;code 1/2;PARTEC;1;integer;1;2;1;0 +codlocirrig;option to define localized irrigation: 1= above the foliage, 2= below the foliage above the soil, 3 = in the soil;code 1/2/3;PARTEC;1;integer;1;3;1;0 +codoptim;option to activate the optimisation code: 0 = no, 1 = optimisation for the main crop, 2 = optimisation for the associated crop;code 0/1/2;USM;1;integer;0;2;1;0 +codrainage;option to simulate artificial drainage: 1 = yes, 2 = no;code 1/2;PARSOL;1;integer;0;1;1;0 +codrecolte;option to define harvest strategy: 1 = at physiological maturity, 2 = according to water content, 3 = according to sugar content, 4 = according to nitrogen content, 5 = according to oil content;code 1 to 5;PARTEC;1;integer;1;5;1;0 +codrognage;option to activate foliage control by trimming: 1 = no, 2 = yes;code 1/2;PARTEC;1;integer;1;2;1;0 +codtrophrac;option to activate a trophic effect on root length growth: 1 = permanent link, 2 = link by thresholds, 3 = no effect;code 1/2/3;PARPLT;1;integer;1;3;1;0 +coef_calcul_doseN;crop N concentration below which there is no N return to the soil through animal urine;g.kg-1;PARAMV6;1;real;1;30;1;0 +coef_calcul_qres;crop N concentration used to calculate animal feces from animal grass dry matter intake;g.kg-1;PARAMV6;1;real;1;10;1;0 +coefamflax;multiplier coefficient applied to the thermal time requirement between stages AMF and LAX;SD;PARPLT;1;real;1;2;1;0 +coefb;parameter defining the radiation saturation effect on biomass conversion efficiency;g.MJ-1;PARAM;1;real;0.05;0.15;1;0 +coefdevil;multiplier coefficient of the outdoor radiation to calculate PET inside of a greenhouse;SD;STATION;1;real;0.3;1.2;1;0 +coefdrpmat;multiplier coefficient applied to the thermal time requirement between stages DRP and MAT;SD;PARPLT;1;real;1;2;1;0 +coefflodrp;multiplier coefficient applied to the thermal time requirement between stages FLO and DRP;SD;PARPLT;1;real;1;2;1;0 +coeflaxsen;multiplier coefficient applied to the thermal time requirement between stages LAX and SEN;SD;PARPLT;1;real;1;2;1;0 +coeflevamf;multiplier coefficient applied to the thermal time requirement between stages LEV and AMF;SD;PARPLT;1;real;1;2;1;0 +coeflevdrp;multiplier coefficient applied to the thermal time requirement between stages LEV and DRP;SD;PARPLT;1;real;1;2;1;0 +coefmshaut;ratio of crop biomass to useful cutting height of crops ;t.ha-1.m-1;PARPLT;1;real;2;50;1;0 +coefracoupe;proportion of roots dying after a cut of a forage crop;SD;PARPLT;1;real;0.001;1;1;0 +coefrnet;coefficient applied to the (outdoor) net radiation to calculate the net radiation under a greenhouse;SD;STATION;1;real;0.001;1;1;0 +coefsenlan;multiplier coefficient applied to the thermal time requirement between stages SEN and LAN;SD;PARPLT;1;real;1;2;1;0 +concirr;concentration of mineral N (NH4+NO3-N) in irrigation water;kg.ha-1 mm-1;PARTEC;1;real;0;0.2;1;0 +concNnodseuil;maximal concentration of mineral N in soil for nodule onset ;kg.ha-1.mm-1;PARPLT;1;real;0;10;1;0 +concNrac;nitrate-N concentration (if codefxN=3) or nitrate-N amount (if codefxN=2) above which N fixation is totally inhibited;kg.ha-1.mm-1 or kg.ha-1.cm-1;PARPLT;1;real;0;10;1;0 +concNrac0;nitrate-N concentration (if codefxN=3) or nitrate-N amount (if codefxN=2) above which N fixation is totally inhibited;kg.ha-1.mm-1 or kg.ha-1.cm-1;PARPLT;1;real;0;10;1;0 +concNrac100;nitrate-N concentration (if codefxN=3) or nitrate-N amount (if codefxN=2) below which N fixation is maximum;kg.ha-1.mm-1 or kg.ha-1.cm-2;PARPLT;1;real;0;2;1;0 +concrr;concentration of mineral N (NH4+NO3-N) in the rain;kg.ha-1 mm-1;STATION;1;real;0;3;1;0 +concseuil;minimum concentration of NO3-N in soil (unavailable for leaching and for uptake);kg.ha-1 mm-1;PARSOL;1;real;0;0.5;1;0 +contrdamax;maximal reduction factor applied to root growth rate due to soil strengthness (high bulk density);SD;PARPLT;1;real;0;1;1;0 +corecTrosee;temperature to substract to Tmin to estimate dew point temperature (in case of missing air humidity data);degree_C;STATION;1;real;-5;5;1;0 +couvermulchplastique;fraction of soil covered by the plastic mulch ;SD;PARTEC;1;real;0;1;1;0 +Crespc;C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc_pature;C content in animal feces (FW);%;PARAMV6;1;real;0;100;1;0 +Crespc(1);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(10);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(11);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(2);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(3);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(4);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(5);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(6);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(7);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(8);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +Crespc(9);C content in organic residue (DW);%;PARTEC;11;real;0;100;1;0 +CroCo;fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(1);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(10);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(11);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(12);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(13);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(14);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(15);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(16);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(17);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(18);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(19);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(2);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(20);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(21);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(3);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(4);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(5);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(6);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(7);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(8);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +CroCo(9);fraction of organic residue which is decomposable;SD;PARAM;21;real;0;1;1;0 +croirac;elongation rate of the root apex;cm.degree_d-1;PARPLT;1;real;0;0.5;1;1 +CsurNres;C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(1);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(10);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(11);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(2);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(3);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(4);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(5);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(6);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(7);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(8);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNres(9);C/N ratio of residue;g.g-1;PARTEC;11;real;4;300;1;0 +CsurNsol;Initial C to N ratio of soil humus;g.g-1;PARSOL;1;real;8;20;1;0 +CsurNsol0;Initial C to N ratio of soil humus;g.g-1;PARSOL;1;real;8;20;1;0 +culturean;number of calendar years involved in the crop cycle (1 = 1 year e.g. for spring crops, 2 = two years, e.g. for winter crops);SD;USM/USMXML;1;integer;1;2;1;0 +cvent;parameter of the climate calculation under shelter;SD;STATION;1;real;0.001;1;1;0 +cwb;minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(1);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(10);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(11);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(12);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(13);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(14);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(15);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(16);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(17);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(18);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(19);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(2);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(20);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(21);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(3);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(4);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(5);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(6);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(7);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(8);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +cwb(9);minimum ratio C/N of microbial biomass decomposing organic residues;g.g-1;PARAM;21;real;5;60;1;0 +dachisel;bulk density of soil after soil tillage (Chisel);g.cm-3;PARTEC;1;real;0.8;1.7;1;0 +dacohes;bulk density of soil below which root growth is reduced due to a lack of soil cohesion;g.cm-3;PARAM;1;real;0.001;1.4;1;0 +DAF;bulk density of fine earth fraction in each soil layer;g.cm-3;PARSOL;5;real;0.8;2;1;0 +DAF(1);bulk density of fine earth fraction in each soil layer;g.cm-3;PARSOL;5;real;0.8;2;1;0 +DAF(2);bulk density of fine earth fraction in each soil layer;g.cm-3;PARSOL;5;real;0.8;2;1;0 +DAF(3);bulk density of fine earth fraction in each soil layer;g.cm-3;PARSOL;5;real;0.8;2;1;0 +DAF(4);bulk density of fine earth fraction in each soil layer;g.cm-3;PARSOL;5;real;0.8;2;1;0 +DAF(5);bulk density of fine earth fraction in each soil layer;g.cm-3;PARSOL;5;real;0.8;2;1;0 +dalabour;bulk density of soil after full inversion tillage (plough);g.cm-3;PARTEC;1;real;0.8;2;1;0 +darecolte;bulk density of soil after harvest;g.cm-3;PARTEC;1;real;0.8;2;1;0 +dasemis;bulk density of soil after sowing;g.cm-3;PARTEC;1;real;0.8;2;1;0 +daseuilbas;bulk density of soil above which root growth is maximal;g.cm-3;PARAM;1;real;1;1.4;1;0 +daseuilhaut;bulk density of soil above which root growth becomes impossible;g.cm-3;PARAM;1;real;1.4;2.5;1;0 +datedeb_irrigauto;starting date of automatic irrigations;julian_d;PARTEC;1;integer;1;731;1;0 +datedebut;starting date of simulation;julian_d;USM/USMXML;1;integer;0;730;1;0 +datefin;ending date of simulation;julian_d;USM/USMXML;1;integer;0;730;1;0 +datefin_irrigauto;ending date of automatic irrigations;julian_d;PARTEC;1;integer;1;731;1;0 +debsenrac;thermal time units defining the beginning of root senescence (root life time);degree_d;PARPLT;1;real;0;2000;1;0 +deneng;maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(1);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(2);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(3);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(4);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(5);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(6);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(7);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +deneng(8);maximal fraction of the mineral fertilizer that can be denitrified (used if codedenit is not activated);SD;PARAM;8;real;0;1;1;0 +densinitial;initial root density in each of the five soil layers;cm.cm-3;INIT;5;real;0;10;1;0 +densinitial(1);initial root density in each of the five soil layers;cm.cm-3;INIT;5;real;0;10;1;0 +densinitial(2);initial root density in each of the five soil layers;cm.cm-3;INIT;5;real;0;10;1;0 +densinitial(3);initial root density in each of the five soil layers;cm.cm-3;INIT;5;real;0;10;1;0 +densinitial(4);initial root density in each of the five soil layers;cm.cm-3;INIT;5;real;0;10;1;0 +densinitial(5);initial root density in each of the five soil layers;cm.cm-3;INIT;5;real;0;10;1;0 +densitesem;plant sowing density ;pl.m-2;PARTEC;1;real;0.05;2000;1;0 +deshydbase;rate of change of water content in fruits (FW) vs thermal time (>0 or <0);g.g-1.degree_d-1;PARPLT;1;real;-0.02;0.02;1;1 +dfolbas;minimal foliar density within the considered shape;m2.m-3;PARPLT;1;real;1;10;1;0 +dfolhaut;maximal foliar density within the considered shape;m2.m-3;PARPLT;1;real;1;10;1;0 +dfpf;parameter of the first potential growth phase of fruit, corresponding to an exponential type function describing the cell division phase;SD;PARPLT;1;real;0.01;5;1;0 +difN;diffusion coefficient of nitrate in soil at field capacity;cm2.d-1;PARAM;1;real;0.01;0.1;1;0 +diftherm;soil thermal diffusivity;cm2.s-1;PARAM;1;real;0.001;0.01;1;0 +distdrain;distance between mole drains;cm;PARAM;1;real;0;25000;1;0 +DKmax;difference between the maximum and the minimum melting rates for snow;mm.degree_C-1.d-1;STATION;1;real;1;2;1;0 +dlaimax;maximum rate of net daily increase of LAI;m2.pl-1.degree_d-1;PARPLT;1;real;5e-06;0.5;1;1 +dlaimaxbrut;maximum rate of gross daily increase of LAI;m2.pl-1.degree_d-1;PARPLT;1;real;5e-06;0.5;1;1 +dlaimin;accelerating parameter for the lai growth rate;SD;PARPLT;1;real;0;1;1;0 +dltamsmaxsen;growth rate above which there is no more photoperiodic effect on senescence;t.ha-1.d-1;PARPLT;1;real;0.01;0.2;1;0 +dltamsminsen;growth rate below which the photoperiodic effect on senescence is maximal;t.ha-1.d-1;PARPLT;1;real;0.01;0.2;1;0 +doseI;daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(1);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(10);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(11);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(12);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(13);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(14);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(15);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(16);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(17);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(18);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(19);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(2);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(20);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(21);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(22);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(23);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(24);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(25);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(26);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(27);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(28);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(29);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(3);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(30);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(4);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(5);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(6);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(7);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(8);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseI(9);daily amount of irrigation water;mm.d-1;PARTEC;30;real;0;500;1;0 +doseirrigmin;minimal amount of daily irrigation;mm.d-1;PARTEC;1;real;0;500;1;0 +doseN;daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(1);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(10);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(11);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(12);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(13);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(14);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(15);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(16);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(17);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(18);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(19);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(2);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(20);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(3);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(4);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(5);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(6);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(7);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(8);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +doseN(9);daily amount of N added through fertilizers;kg.ha-1.d-1;PARTEC;20;real;0;500;1;0 +dosimx;maximum amount of irrigation water applied daily (mode automatic irrigation);mm.d-1;PARTEC;1;real;10;500;1;0 +dosimxN;maximum amount of fertiliser N applied daily (mode automatic fertilisation);kg.ha-1.d-1;PARAMV6;1;real;5;500;1;0 +dpHvolmax;maximal pH increase following the application of slurry;SD;PARAM;1;real;0;3;1;0 +draclong;maximum rate of root length production per plant;cm.pl-1.degree_d-1;PARPLT;1;real;1;1000;1;0 +dureefruit;duration of the fruit between onset and physiological maturity;degree_d;PARPLT;1;real;10;2000;1;1 +durvieF;maximal lifespan of an adult leaf expressed in summation of Q10=2 (2**(T-Tbase));SD;PARPLT;1;real;10;500;1;1 +durviesupmax;relative additional lifespan due to N excess in plant (INN > 1);SD;PARPLT;1;real;0;1;1;0 +E;snow compaction parameter;mm.mm-1.d-1;STATION;1;real;0;0.05;1;0 +eau_mini_decisemis;minimum amount of rainfall required to start sowing (when codesemis is activated);mm;PARTEC;1;integer;0;40;1;0 +eaures;water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures_pature;water content of animal feces deposited on soil during grazing (FW);%;PARAMV6;1;real;0;100;1;0 +eaures(1);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(10);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(11);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(2);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(3);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(4);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(5);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(6);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(7);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(8);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +eaures(9);water content of organic residue (FW);%;PARTEC;11;real;0;99;1;0 +ecartdrain;distance between mole drains;cm;PARSOL;1;real;100;5000;1;0 +efcroijuv;maximum radiation use efficiency during the juvenile phase (LEV-AMF);g.MJ-1;PARPLT;1;real;1;7;1;0 +efcroirepro;maximum radiation use efficiency during the grain filling phase (DRP-MAT);g.MJ-1;PARPLT;1;real;1;10;1;0 +efcroiveg;maximum radiation use efficiency during the vegetative stage (AMF-DRP);g.MJ-1;PARPLT;1;real;1;10;1;0 +effeuil;fraction of leaf removed by plant thinning;SD;PARTEC;1;real;0;1;1;0 +effirr;irrigation efficiency;SD;PARTEC;1;real;0.2;1;1;0 +efremobil;Efficiency of use of carbohydrates in storage organs of perennials;SD;PARPLT;1;real;0;1;1;0 +elmax;maximum elongation of the coleoptile in darkness condition;cm;PARPLT;1;real;2;40;1;0 +engamm;fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(1);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(2);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(3);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(4);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(5);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(6);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(7);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engamm(8);fraction of ammonium in the N fertilizer;SD;PARAM;8;real;0;1;1;0 +engrais;fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais_pature;fertilizer type used to mimic urine excretion (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARAMV6;1;integer;1;8;1;0 +engrais(1);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(10);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(2);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(3);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(4);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(5);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(6);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(7);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(8);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engrais(9);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe;fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(1);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(10);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(2);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(3);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(4);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(5);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(6);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(7);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(8);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +engraiscoupe(9);fertilizer type (1=ammonium nitrate, 2=UAN solution, 3=urea, 4=anhydrous ammonia, 5=ammonium sulfate, 6=ammonium phosphate, 7=calcium nitrate, 8= fixed efficiency fertiliser);SD;PARTEC;10;integer;1;8;1;0 +envfruit;fraction of envelop in grainmaxi;SD;PARPLT;1;real;0;0.5;1;0 +epc;thickness of each soil layer;cm ;PARSOL;5;real;1;1000;1;0 +epc(1);thickness of each soil layer;cm ;PARSOL;5;real;1;1000;1;0 +epc(2);thickness of each soil layer;cm ;PARSOL;5;real;1;1000;1;0 +epc(3);thickness of each soil layer;cm ;PARSOL;5;real;1;1000;1;0 +epc(4);thickness of each soil layer;cm ;PARSOL;5;real;1;1000;1;0 +epc(5);thickness of each soil layer;cm ;PARSOL;5;real;1;1000;1;0 +epd;thickness of mixing cells in each soil layer ( = 2 * dispersion length);cm;PARSOL;5;integer;1;50;1;0 +epd(1);thickness of mixing cells in each soil layer ( = 2 * dispersion length);cm;PARSOL;5;integer;1;50;1;0 +epd(2);thickness of mixing cells in each soil layer ( = 2 * dispersion length);cm;PARSOL;5;integer;1;50;1;0 +epd(3);thickness of mixing cells in each soil layer ( = 2 * dispersion length);cm;PARSOL;5;integer;1;50;1;0 +epd(4);thickness of mixing cells in each soil layer ( = 2 * dispersion length);cm;PARSOL;5;integer;1;50;1;0 +epd(5);thickness of mixing cells in each soil layer ( = 2 * dispersion length);cm;PARSOL;5;integer;1;50;1;0 +extin;extinction coefficient of photosynthetic active radiation in the canopy;SD;PARPLT;1;real;0.1;1.5;1;1 +fclim1;name of the first climate file;SD;USM/USMXML;1;character;;;0;0 +fclim2;name of the second climate file;SD;USM/USMXML;1;character;;;0;0 +fhminsat;relative soil mineralisation rate at water saturation;SD;PARAM;1;real;0;1;1;0 +finert;initial fraction of inert pool in the soil organic pool (= stable SON/ total SON);SD;PARSOL;1;real;0;1;1;0 +finit;name of the initialisation file ;SD;USM/USMXML;1;character;;;0;0 +fixmax;maximal N symbiotic fixation rate;kg.ha-1.d-1;PARPLT;1;real;2;12;1;0 +fixmaxgr;maximal N symbiotic fixation rate per unit of grain growth rate;kg.t-1;PARPLT;1;real;0;50;1;0 +fixmaxveg;maximal N symbiotic fixation rate per unit of vegetative growth rate;kg.t-1;PARPLT;1;real;0;50;1;0 +flagecriture;option for writing the output files (1 = mod_history.sti, 2=daily outputs,4= report outputs, 8=balance outputs,16 = profile outputs, 32= debug outputs, 64 = screen outputs) sum them to have several types of outputs;SD;PARAM;1;integer;0;511;1;0 +flai;name of the LAI file;SD;USM/USMXML;1;character;;;0;0 +fNCbiomin;minimal value for the ratio N/C of the microbial biomass when N limits decomposition;g.g-1;PARAM;1;real;0.01;0.1;1;0 +fNmindecmin;minimal fraction of mineral N available for residues decomposition (if codeNmindec is activated);SD;PARAMV6;1;real;0;1;1;0 +fnx;maximum fraction of NH4 nitrified each day (first order model);SD;PARAM;1;real;0.01;1;1;0 +fobs;name of the observed file;SD;USM/USMXML;1;character;;;0;0 +forme;option to define the shape of leaf density profile: 1 = rectangle, 2 = triangle;code 1/2;PARPLT;1;integer;1;2;1;0 +fplt;name of the plant file;SD;USM/USMXML;1;character;;;0;0 +fracN;proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(1);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(10);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(2);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(3);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(4);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(5);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(6);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(7);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(8);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fracN(9);proportion of fertiliser N applied at each application;%;PARTEC;10;real;5;100;1;0 +fredkN;reduction factor of decomposition rate of organic residues when mineral N is limiting;SD;PARAM;1;real;0.1;1;1;0 +fredlN;reduction factor of decomposition rate of microbial biomass when mineral N is limiting;SD;PARAM;1;real;0.2;1;1;0 +fredNsup;additional reduction factor of residues decomposition rate when mineral N is highly limiting;SD;PARAM;1;real;0;1;1;0 +fstation;name of the weather station file;SD;USM/USMXML;1;character;;;0;0 +ftec;name of the technical file;SD;USM/USMXML;1;character;;;0;0 +ftemh;parameter (1/2) of the temperature function on humus decomposition rate;K-1;PARAM;1;real;0.05;0.5;1;0 +ftemha;parameter (2/2) of the temperature function on humus decomposition rate;SD;PARAM;1;real;10;50;1;0 +ftemr;parameter (1/2) of the temperature function on decomposition rate of organic residues;K-1;PARAM;1;real;0.05;0.5;1;0 +ftemra;parameter (2/2) of the temperature function on decomposition rate of organic residues;SD;PARAM;1;real;5;30;1;0 +GMIN1;parameter (1/7) of the new mineralization function (Clivot et al, 2017);d-1;PARAM;1;real;0;1;1;0 +GMIN2;parameter (2/7) of the new mineralization function (Clivot et al, 2017);-1%;PARAM;1;real;0;0.1;1;0 +GMIN3;parameter (3/7) of the new mineralization function (Clivot et al, 2017);-1%;PARAM;1;real;0;0.1;1;0 +GMIN4;parameter (4/7) of the new mineralization function (Clivot et al, 2017);pH-1;PARAM;1;real;0;1;1;0 +GMIN5;parameter (5/7) of the new mineralization function (Clivot et al, 2017);pH;PARAM;1;real;3;11;1;0 +GMIN6;parameter (6/7) of the new mineralization function (Clivot et al, 2017);g.g-1;PARAM;1;real;0;1;1;0 +GMIN7;parameter (7/7) of the new mineralization function (Clivot et al, 2017);g.g-1;PARAM;1;real;5;35;1;0 +gradtn;thermal gradient in altitude for minimal temperatures ;degree_C.100m-1;STATION;1;real;0.1;3;1;0 +gradtninv;thermal gradient in altitude for minimal temperatures under the inversion level;degree_C.100m-1;STATION;1;real;0.1;3;1;0 +gradtx;thermal gradient in altitude for maximal temperatures ;degree_C.100m-1;STATION;1;real;0.1;3;1;0 +h2ofeuiljaune;water content of yellow leaves (FW);g.g-1;PARPLT;1;real;0.05;1;1;0 +h2ofeuilverte;water content of green leaves (FW);g.g-1;PARPLT;1;real;0.5;1;1;0 +h2ofrvert;water content of fruits before the beginning of dehydration (FW);g.g-1;PARPLT;1;real;0.1;1;1;0 +h2ograinmax;maximal water content of fruits at harvest (FW);g.g-1;PARTEC;1;real;0.05;1;1;0 +h2ograinmin;minimal water content of fruits at harvest (FW);g.g-1;PARTEC;1;real;0.05;1;1;0 +h2oreserve;water content of crop reserve (FW);g.g-1;PARPLT;1;real;0.5;1;1;0 +h2otigestruc;water content of structural stem part (FW);g.g-1;PARPLT;1;real;0.5;1;1;0 +hautbase;basal height of crop;m;PARPLT;1;real;0.1;2;1;1 +hautcoupe;cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(1);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(10);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(11);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(12);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(13);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(14);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(15);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(16);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(17);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(18);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(19);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(2);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(20);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(3);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(4);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(5);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(6);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(7);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(8);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupe(9);cut height for forage crops (calendar fixed);m;PARTEC;20;real;0.01;0.5;1;0 +hautcoupedefaut;cut height for forage crops (calendar calculated);m;PARTEC;1;real;0.01;0.5;1;0 +hautmax;maximum height of crop;m;PARPLT;1;real;0.1;5;1;1 +hautmaxtec;maximal height of the plant allowed by the management;m;PARTEC;1;real;0.5;3;1;0 +hautrogne;cutting height for trimmed plants;m;PARTEC;1;real;0.2;2;1;0 +hcccx;gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(1);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(10);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(2);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(3);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(4);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(5);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(6);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(7);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(8);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hcccx(9);gravimetric water content at field capacity of each type of pebble (dry soil);%;PARAM;10;real;10;110;1;0 +hccf;gravimetric water content at field capacity of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;10;110;1;0 +hccf(1);gravimetric water content at field capacity of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;10;110;1;0 +hccf(2);gravimetric water content at field capacity of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;10;110;1;0 +hccf(3);gravimetric water content at field capacity of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;10;110;1;0 +hccf(4);gravimetric water content at field capacity of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;10;110;1;0 +hccf(5);gravimetric water content at field capacity of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;10;110;1;0 +Hinitf;initial gravimetric water content of each soil layer (in fine earth, dry soil);%;INIT;5;real;5;110;1;0 +Hinitf(1);initial gravimetric water content of each soil layer (in fine earth, dry soil);%;INIT;5;real;5;110;1;0 +Hinitf(2);initial gravimetric water content of each soil layer (in fine earth, dry soil);%;INIT;5;real;5;110;1;0 +Hinitf(3);initial gravimetric water content of each soil layer (in fine earth, dry soil);%;INIT;5;real;5;110;1;0 +Hinitf(4);initial gravimetric water content of each soil layer (in fine earth, dry soil);%;INIT;5;real;5;110;1;0 +Hinitf(5);initial gravimetric water content of each soil layer (in fine earth, dry soil);%;INIT;5;real;5;110;1;0 +hminf;gravimetric water content at wilting point of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;2;25;1;0 +hminf(1);gravimetric water content at wilting point of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;2;25;1;0 +hminf(2);gravimetric water content at wilting point of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;2;25;1;0 +hminf(3);gravimetric water content at wilting point of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;2;25;1;0 +hminf(4);gravimetric water content at wilting point of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;2;25;1;0 +hminf(5);gravimetric water content at wilting point of each soil layer (in fine earth, dry soil);%;PARSOL;5;real;2;25;1;0 +hminm;relative water content (fraction of field capacity) below which mineralisation rate is nil;SD;PARAM;1;real;0;1;1;0 +hminn;relative water content (fraction of field capacity) below which nitrification rate is nil;SD;PARAM;1;real;0;1;1;0 +hoptm;relative water content (fraction of field capacity) above which mineralisation rate is maximum;SD;PARAM;1;real;0.2;1;1;0 +hoptn;relative water content (fraction of field capacity) above which nitrification rate is maximum;SD;PARAM;1;real;0.2;1;1;0 +huilerec;minimal oil content of fruits at harvest (FW);g.g-1;PARTEC;1;real;0.1;1;1;0 +humcapil;threshold of soil gravimetric water content under which capillary rise occurs (dry soil);%;PARSOL;1;real;2;10;1;0 +humirac;A revoir: 1 = la fonction F_humirac atteint un plateau (ancien code) / 2 = la fonction n atteint pas de plateau (identique a la phase germination-levee);SD;PARAMV6;1;integer;0;2;1;0 +humirac_decisemis;relative soil moisture threshold above which sowing is possible (0 = no sensitivity to drought, 1 = highly sensitive);SD;PARTEC;1;real;0;1;1;0 +iamf;day when the stage AMF is reached (999 if not reached);julian_d;PARTEC;1;integer;1;999;1;0 +ichsl;soil number in the param.soil file;SD;USM;1;integer;1;999;1;0 +idebdorm;day of the dormancy entrance;julian_d;PARPLT;1;integer;1;999;1;0 +idor;day of the dormancy entrance;julian_d;java;1;integer;1;999;1;0 +idrp;day of the stage DRP (beginning of grain filling) when the stage is observed (else 999);julian_d;PARTEC;1;integer;1;999;1;0 +ifindorm;day of dormancy break;julian_d;PARPLT;1;integer;1;999;1;0 +iflo;day of anthesis;julian_d;PARTEC;1;integer;1;999;1;0 +ifwater;day of the end of simulation;julian_d;USM;1;integer;1;731;1;0 +ilan;day when the stage LAN is reached (999 if not observed);julian_d;PARTEC;1;integer;1;999;1;0 +ilax;day when the stage LAX is reached (999 if not observed);julian_d;PARTEC;1;integer;1;999;1;0 +ilev;day when the stage LEV is reached (999 if not observed);julian_d;PARTEC;1;integer;1;999;1;0 +imat;day when the stage MAT is reached (999 if not observed);julian_d;PARTEC;1;integer;1;999;1;0 +infil;infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +infil(1);infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +infil(2);infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +infil(3);infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +infil(4);infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +infil(5);infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +infil(6);infiltrability rate at the base of each soil layer (if codemacropor = 1);mm.d-1;PARSOL;6;real;0.1;100;1;0 +inflomax;maximal number of inflorescences per plant;SD;PARPLT;1;real;0;100;1;1 +infrecouv;ulai at the stage AMF (maximal rate of leaf growth);SD;PARPLT;1;real;0;3;1;0 +inilai;initial value of lai for cotyledons;m2.m-2;PARPLT;1;real;0;1;1;0 +iniprofil;option of smoothing out the initial mineral N and water profiles (spline function): 0 = no, 1 = yes;SD;PARAM;1;integer;0;1;1;0 +inngrain1;NNI below which net absorption of N during grain filling is maximal;SD;PARPLT;1;real;0.3;2;1;0 +inngrain2;NNI above which net absorption of N during grain filling is nil ;SD;PARPLT;1;real;0.3;2;1;0 +INNimin;INNI (instantaneous NNI) corresponding to INNmin;SD;PARPLT;1;real;0;1;1;0 +INNmin;minimum value of NNI possible for the crop;SD;PARPLT;1;real;0;1;1;0 +innsen;parameter of the N stress function active on senescence (INNsenes);SD;PARPLT;1;real;-2;1;1;1 +innturgmin;parameter of the N stress function active on leaf expansion (INNLAI);SD;PARPLT;1;real;-2;1;1;0 +interrang;width of the crop interrow;m;PARTEC;1;real;0;10;1;0 +iplt;date of sowing;julian_d;java;1;integer;1;731;1;0 +iplt0;date of sowing;julian_d;PARTEC;1;integer;1;731;1;0 +irec;date of harvest;julian_d;PARTEC;1;integer;1;731;1;0 +irecbutoir;latest date of harvest (imposed if the crop cycle is not finished at this date);julian_d;PARTEC;1;integer;1;731;1;0 +irmax;maximum harvest index;SD;PARPLT;1;real;0.2;1;1;0 +irrlev;amount of irrigation applied automatically on the sowing day to allow germination when the model calculates irrigation;mm;PARAM;1;real;0;50;1;0 +isen;day when the stage SEN is reached (999 if not observed);julian_d;PARTEC;1;integer;1;731;1;0 +isnu;date when the soil is bare;julian_d;java;1;integer;1;731;1;0 +iwater;starting day of the simulation;julian_d;USM;1;integer;1;731;1;0 +julapI;date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(1);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(10);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(11);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(12);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(13);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(14);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(15);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(16);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(17);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(18);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(19);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(2);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(20);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(21);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(22);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(23);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(24);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(25);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(26);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(27);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(28);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(29);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(3);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(30);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(4);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(5);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(6);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(7);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(8);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapI(9);date(s) of irrigation ;julian_d;PARTEC;30;integer;1;731;1;0 +julapN;date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(1);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(10);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(11);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(12);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(13);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(14);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(15);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(16);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(17);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(18);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(19);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(2);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(20);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(3);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(4);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(5);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(6);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(7);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(8);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +julapN(9);date(s) of fertilizer application;julian_d;PARTEC;20;integer;1;731;1;0 +juldes;day of perennial crop destruction;julian_d;PARTEC;1;integer;1;731;1;0 +juleclair;day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(1);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(10);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(2);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(3);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(4);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(5);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(6);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(7);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(8);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleclair(9);day of fruits removal;julian_d;PARTEC;10;integer;1;731;1;0 +juleffeuil;day of leaf removal;julian_d;PARTEC;1;integer;1;731;1;0 +julfauche;date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(1);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(10);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(11);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(12);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(13);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(14);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(15);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(16);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(17);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(18);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(19);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(2);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(20);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(3);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(4);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(5);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(6);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(7);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(8);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julfauche(9);date(s) of each cut for forage crops ;julian_d;PARTEC;20;integer;1;731;1;0 +julouvre2;day (1/2) of opening the shelter;julian_d;PARTEC;1;integer;1;731;1;0 +julouvre3;day (2/2) of opening the shelter;julian_d;PARTEC;1;integer;1;731;1;0 +julres;date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(1);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(10);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(11);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(2);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(3);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(4);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(5);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(6);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(7);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(8);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julres(9);date(s) of organic residue addition to soil;julian_d;PARTEC;11;integer;1;731;1;0 +julrogne;day of plant trimming;julian_d;PARTEC;1;integer;1;731;1;0 +jultaille;day of pruning;julian_d;PARTEC;1;integer;1;731;1;0 +jultrav;date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(1);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(10);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(11);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(2);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(3);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(4);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(5);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(6);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(7);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(8);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +jultrav(9);date(s) of soil tillage;julian_d;PARTEC;11;integer;1;731;1;0 +julvernal;day of initiation of vernalisation in perennial crops (between 1 and 365) ;julian_d;PARPLT;1;integer;1;731;1;0 +jvc;number of vernalising days or dormancy units;d;PARPLT;1;real;0;150;1;1 +jvcmini;minimum number of vernalising days ;d;PARPLT;1;real;0;20;1;0 +Kamm;affinity constant for NH4 in nitrification (if Michaelis_Menten formalism is used);mg.L-1;PARAM;1;real;1;100;1;0 +kbio;potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(1);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(10);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(11);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(12);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(13);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(14);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(15);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(16);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(17);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(18);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(19);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(2);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(20);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(21);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(3);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(4);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(5);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(6);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(7);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(8);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kbio(9);potential decay rate of microbial biomass decomposing organic residues;d-1;PARAM;21;real;0;0.2;1;0 +kcouvmlch;extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(1);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(10);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(11);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(12);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(13);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(14);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(15);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(16);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(17);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(18);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(19);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(2);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(20);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(21);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(3);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(4);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(5);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(6);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(7);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(8);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +kcouvmlch(9);extinction coefficient connecting the soil cover to the amount of plant mulch;SD;PARAM;21;real;0;1;1;0 +Kd;Affinity constant for nitrate in denitrification;mg.L-1;PARAM;1;real;10;500;1;0 +kdesat;rate constant of de-saturation ;d-1 ;PARAM;1;real;1;20;1;0 +kdisrac;rate constant defining root length distribution throughout the profile;cm-2;PARPLT;1;real;2e-04;0.002;1;0 +khaut;extinction coefficient connecting LAI to crop height;SD;PARPLT;1;real;0.2;2;1;1 +Kmabs1;affinity constant of N uptake by roots for the fast uptake system;micromole.L-1;PARPLT;1;real;20;200;1;0 +Kmabs2;affinity constant of N uptake by roots for the low uptake system;micromole.L-1;PARPLT;1;real;4000;40000;1;0 +kmax;maximum crop coefficient for water requirements (= MET/PET);SD;PARPLT;1;real;0.5;4;1;0 +Kmin;minimum snow melting rate on 21 December;mm.degree_C-1.d-1;STATION;1;real;1.5;2.5;1;0 +krepracperm;parameter of biomass root partitioning : evolution of the ratio root/total (permanent trophic link);SD;PARPLT;1;real;1e-04;1;1;0 +krepracseu;parameter of biomass root partitioning : evolution of the ratio root/total (trophic link by thresholds);SD;PARPLT;1;real;1e-04;1;1;0 +ksol;soil hydraulic conductivity in the vicinity of mole drains;SD;PARSOL;1;real;1e-04;1;1;0 +kstemflow;extinction coefficient connecting LAI to stemflow;SD;PARPLT;1;real;0.1;2;1;0 +ktrou;extinction coefficient of PAR through the crop (used in the radiative transfer module);SD;PARPLT;1;real;0.1;2;1;1 +lai;initial leaf area index;m2.m-2;INIT;1;real;0;10;1;0 +lai0;initial leaf area index;m2.m-2;INIT;1;real;0;10;1;0 +laicomp;LAI above which competition between plants starts;m2.m-2;PARPLT;1;real;0;1;1;0 +laidebeff;LAI at the beginning of leaf removal;m2.m-2;PARTEC;1;real;1;10;1;0 +laieffeuil;LAI removed from the crop at day juleffeuil;m2.m-2;PARTEC;1;real;0.05;10;1;0 +laiplantule;LAI of plantlet at the plantation;m2.m-2;PARPLT;1;real;0;8;1;0 +lairesiduel;residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(1);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(10);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(11);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(12);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(13);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(14);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(15);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(16);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(17);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(18);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(19);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(2);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(20);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(3);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(4);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(5);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(6);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(7);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(8);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +lairesiduel(9);residual LAI after each cut of forage crop;m2.m-2;PARTEC;20;real;0;2;1;0 +largrogne;trimmed width;m;PARTEC;1;real;0.1;2;1;0 +largtec;technical width;m;PARTEC;1;real;0.1;2;1;0 +latitude;latitude of the site;degree;STATION;1;real;-90;90;1;0 +locferti;soil depth at which fertiliser is applied;cm;PARTEC;1;integer;0;30;1;0 +locirrig;soil depth at which irrigation is applied;cm;PARTEC;1;integer;0;30;1;0 +longsperac;specific root length;cm.g-1;PARPLT;1;real;250;25000;1;0 +lvfront;root density at the root apex;cm.cm-3;PARPLT;1;real;0.02;1;1;0 +lvmax;maximum root length density in the top soil (used to calculate root mass);cm.cm-3;PARPLT;1;real;0;5;1;0 +lvopt;root length density (RLD) above which water and N uptake are maximum and independent of RLD;cm.cm-3;PARAM;1;real;0.2;1;1;0 +magrain;initial grain dry weight;g.m-2;INIT;1;real;0;5;1;0 +magrain0;initial grain dry weight;g.m-2;INIT;1;real;0;5;1;0 +maperenne;initial value of biomass of storage organs in perennial crops; t ha-1;INIT;1;real;0;30;1;0 +maperenne0;initial value of biomass of storage organs in perennial crops; t ha-1;INIT;1;real;0;30;1;0 +margerogne;topping occurs when plant height exceeds (hautrogne+margerogne) when automatic trimming is activated;m;PARTEC;1;real;0.01;1;1;0 +masec;initial plant biomass (if the option to simulate N and C reserves is not activated);t.ha-1;INIT;1;real;0;10;1;0 +masec0;initial plant biomass (if the option to simulate N and C reserves is not activated);t.ha-1;INIT;1;real;0;10;1;0 +masecmeta;biomass of the plantlet supposed to be composed of metabolic N;t.ha-1;PARPLT;1;real;0.1;1;1;0 +masecNmax;aerial biomass above which N dilution occurs (critical and maximal curves);t.ha-1;PARPLT;1;real;0.05;5;1;0 +masecnp;initial aerial biomass;t.ha-1;INIT;1;real;0;10;1;0 +masecnp0;initial aerial biomass;t.ha-1;INIT;1;real;0;10;1;0 +masecplantule;initial shoot biomass of plantlet;t.ha-1;PARPLT;1;real;0.002;4;1;0 +masvolcx;bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(1);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(10);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(2);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(3);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(4);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(5);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(6);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(7);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(8);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +masvolcx(9);bulk density of each type of pebble;g.cm-3;PARAM;10;real;0.5;5;1;0 +max_pdenit;maximal value of the denitrification potential (if code_pdenit = 2);kg.ha-1.cm-1.d-1;PARAM;1;real;0;100;1;0 +maxazorac;mineral N concentration in soil above which root growth is maximum ;kg.ha-1.cm-1;PARPLT;1;real;0.1;5;1;0 +maxtalle;maximum tillers density per soil area;nb.m-2;PARPLT;1;real;0;10000;1;0 +min_pdenit;minimal value of the denitrification potential (if code_pdenit = 2);kg.ha-1.cm-1.d-1;PARAM;1;real;0;2;1;0 +minazorac;mineral N concentration in soil below which root growth is reduced ;kg.ha-1.cm-1;PARPLT;1;real;0;5;1;0 +minefnra;reduction factor on root growth when soil mineral N is limiting (< minazorac);SD;PARPLT;1;real;0;1;1;0 +mouillabil;maximum wettability of leaves;mm.m-2;PARPLT;1;real;0.05;3;1;0 +mouillabilmulch;maximum wettability of crop mulch;mm.t-1.ha;PARAM;5;real;0.05;5;1;0 +mouillabilmulch(1);maximum wettability of crop mulch;mm.t-1.ha;PARAM;5;real;0.05;5;1;0 +mouillabilmulch(2);maximum wettability of crop mulch;mm.t-1.ha;PARAM;5;real;0.05;5;1;0 +mouillabilmulch(3);maximum wettability of crop mulch;mm.t-1.ha;PARAM;5;real;0.05;5;1;0 +mouillabilmulch(4);maximum wettability of crop mulch;mm.t-1.ha;PARAM;5;real;0.05;5;1;0 +mouillabilmulch(5);maximum wettability of crop mulch;mm.t-1.ha;PARAM;5;real;0.05;5;1;0 +mscoupemini;minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(1);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(10);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(11);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(12);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(13);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(14);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(15);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(16);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(17);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(18);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(19);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(2);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(20);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(3);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(4);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(5);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(6);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(7);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(8);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +mscoupemini(9);minimum value of aerial biomass required to make a cut of forage crop;t.ha-1;PARTEC;20;real;1;10;1;0 +msresiduel;residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(1);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(10);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(11);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(12);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(13);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(14);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(15);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(16);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(17);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(18);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(19);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(2);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(20);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(3);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(4);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(5);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(6);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(7);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(8);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +msresiduel(9);residual aerial biomass after a cut of a forage crop;t.ha-1;PARTEC;20;real;0;5;1;0 +mulchbat;mulch depth at which a crust occurs (a value must be given but if in the plt.xml the vigueurbat parameter is equal to 1 then the parameter is inactive);cm;PARSOL;1;real;0;2;1;0 +nbans;number of years for a simulation;years;USM;1;integer;1;100;1;0 +nbcueille;number of fruit harvests during the crop cycle: 1 = one harvest, 2 = several harvests;code 1/2;PARTEC;1;integer;1;2;1;0 +nbfeuilplant;leaf number per plant when planting;pl-1;PARPLT;1;integer;0;10;1;0 +nbfgellev;leaf number at the end of the juvenile phase (frost sensitivity) ;pl-1;PARPLT;1;integer;1;5;1;0 +nbgrmax;maximum number of fruits per surface area;m-2;PARPLT;1;real;0;1e+06;1;1 +nbgrmin;minimum number of fruits per surface area;m-2 ;PARPLT;1;real;0;10000;1;1 +nbinflo;imposed number of inflorescences per plant;pl-1;PARPLT;1;real;1;1000;1;1 +nbinfloecl;number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(1);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(10);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(2);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(3);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(4);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(5);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(6);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(7);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(8);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbinfloecl(9);number of inflorescences or fruits removed at fruit removal ;pl-1;PARTEC;10;real;0;10;1;0 +nbj_pr_apres_semis;number of days used to calculate rainfall requirement to start sowing (if codesemis is activated);d;PARTEC;1;integer;1;20;1;0 +nbjgerlim;maximum number of days after grain imbibition allowing full germination;d;PARPLT;1;integer;1;50;1;0 +nbjgrain;number of days used to compute the number of viable grains;d;PARPLT;1;integer;5;40;1;1 +nbjmaxapresrecolte;maximum number of days allowed for harvest (if the soil compaction option is activated);d;PARTEC;1;integer;0;90;1;0 +nbjmaxapressemis;maximum number of days allowed for sowing (if the soil compaction option is activated);d;PARTEC;1;integer;0;90;1;0 +nbjoursrrversirrig;number of days during which rainfall is replaced by irrigation in the soil after a sowing poquet;d;PARAMV6;1;integer;0;0;1;0 +nbjres;number of residue additions;SD;PARTEC;1;integer;0;8;1;0 +nbjseuiltempref;number of days without frost for sowing (if sowing decision option is activated);d;PARTEC;1;integer;1;60;1;0 +nbjtrav;number of tillage operations;SD;PARTEC;1;integer;0;8;1;0 +nboite;number of boxes or age classes of fruits used to calculate fruit growth for undeterminate crops ;SD;PARPLT;1;integer;1;20;1;0 +nbplantes;number of simulated plants;SD;USM/USMXML;1;integer;1;2;1;0 +NH3ref;NH3 concentration in the atmosphere;microgram.m-3;STATION;1;real;0;10;1;0 +nh4_min;minimum (fixed ?) NH4 concentration found in soil;mg.kg-1;PARAM;1;real;0;20;1;0 +NH4initf;initial amount of NH4-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NH4initf(1);initial amount of NH4-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NH4initf(2);initial amount of NH4-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NH4initf(3);initial amount of NH4-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NH4initf(4);initial amount of NH4-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NH4initf(5);initial amount of NH4-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +nlevlim1;number of days after germination after which plant emergence is reduced;d;PARPLT;1;integer;1;100;1;0 +nlevlim2;number of days after germination after which plant emergence is impossible;d;PARPLT;1;integer;1;100;1;0 +Nmeta;proportion of metabolic N in the plantlet;%;PARPLT;1;real;0;100;1;0 +Nminres;proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres_pature;proportion of N mineral content in animal feces (FW);%;PARAMV6;1;real;0;100;1;0 +Nminres(1);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(10);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(11);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(2);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(3);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(4);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(5);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(6);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(7);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(8);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +Nminres(9);proportion of mineral N content in organic residues (FW);%;PARTEC;11;real;0;30;1;0 +NO3initf;initial amount of NO3-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NO3initf(1);initial amount of NO3-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NO3initf(2);initial amount of NO3-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NO3initf(3);initial amount of NO3-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NO3initf(4);initial amount of NO3-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +NO3initf(5);initial amount of NO3-N in each of the soil layers (in fine earth);kg.ha-1;INIT;5;real;0;200;1;0 +nom;name of the USM;SD;USM;1;character;;;0;0 +nomsol;name of the soil;SD;USM/USMXML;1;character;;;0;0 +Norg;soil organic N content in the first soil layer (constant down to the depth profhum, dry soil);%;PARSOL;1;real;0.05;0.5;1;0 +Nreserve;maximal proportion of N in plant reserves (difference between the maximal and critical dilution curves);%;PARPLT;1;real;0;100;1;0 +numsol;soil number;SD;PARSOL/USM;1;integer;0;1000;1;0 +obstarac;soil depth at which root growth is stopped due to physical constraints;cm;PARSOL;1;real;10;1000;1;0 +ombragetx;change in air temperature in the northern hillslope of mountains (activated if codadret=2);degree_C;STATION;1;real;-5;5;1;0 +option_pature;option to activate grazing in pastures: 1 = yes, 2 = no;code 1/2;PARAMV6;1;integer;1;2;1;0 +orgeng;maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(1);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(2);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(3);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(4);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(5);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(6);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(7);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orgeng(8);maximal amount of fertilizer N that can be immobilized in the soil (fraction for type 8);kg.ha-1;PARAM;8;real;0;100;1;0 +orientrang;direction of crop rows (relative to north);rad;PARTEC;1;real;0;6.28;1;0 +parazofmorte;C/N ratio of dead leaves when crop NNI = 1;g.g-1;PARPLT;1;real;10;20;1;0 +Parazoper;C/N ratio of perennial organs when crop NNI = 1;g.g-1;PARPLT;1;real;10;50;1;0 +parazorac;C/N ratio of roots when crop NNI = 1;g.g-1;PARPLT;1;real;10;50;1;0 +ParazoTmorte;C/N ratio of dead stems when crop NNI = 1;g.g-1;PARPLT;1;real;10;250;1;0 +parsurrg;fraction of photosynthetically active radiation in global radiation (PAR/RG);SD;PARAM;1;real;0.4;0.6;1;0 +patm;atmospheric pressure;hPa;STATION;1;real;800;1200;1;0 +penterui;runoff coefficient taking into account the plant mulch;SD;PARSOL;1;real;0;5;1;0 +pentinflores;parameter used to calculate the inflorescences number ;kg-1;PARPLT;1;real;0;10;1;1 +pentlaimax;parameter of the logistic curve of LAI growth ;SD;PARPLT;1;real;0;10;1;0 +pentrecouv;parameter of the logistic curve of soil cover rate;SD;PARPLT;1;real;0;10;1;0 +pertes_restit_ext;fraction of animal feces and urine not returned in grazed paddocks (e.g. in resting area, milking parlour, housing and paths/roads);SD;PARAMV6;1;real;0;1;1;0 +pgrainmaxi;maximum grain weight (at 0% water content);g;PARPLT;1;real;0;5;1;1 +pH;Initial soil pH (water solution);pH;PARSOL;1;real;4;9;1;0 +pH0;Initial soil pH (water solution);pH;PARSOL;1;real;4;9;1;0 +phiv;parameter allowing the calculation of the climate under shelter;SD;STATION;1;real;0;0.01;1;0 +phiv0;parameter allowing the calculation of the climate under shelter;SD;STATION;1;real;0;0.01;1;0 +pHmaxden;pH beyond which the N2O molar fraction in the denitrification process is minimum (<= ratiodenit);pH;PARAM;1;real;6;10;1;0 +pHmaxnit;soil pH above which nitrification rate is maximum;pH;PARAM;1;real;6;9;1;0 +pHmaxvol;soil pH above which NH3 volatilisation derived from fertiliser is maximum;pH;PARAM;1;real;6;9;1;0 +pHminden;pH below which the N2O molar fraction in the denitrification process is maximum (100% );pH;PARAM;1;real;3;6.5;1;0 +pHminnit;soil pH below which nitrification is nil;pH;PARAM;1;real;3;6;1;0 +pHminvol;soil pH below which NH3 volatilisation derived from fertiliser is nil;pH;PARAM;1;real;3;6;1;0 +phobase;basal photoperiod ;hours;PARPLT;1;real;0;24;1;1 +phobasesen;photoperiod under which the photoperiodic stress affects the lifespan of leaves;hours;PARPLT;1;real;1;12;1;0 +phosat;saturating photoperiod;hours;PARPLT;1;real;0;24;1;1 +pHvols;parameter used to calculate the variation of soil pH after the addition of slurry;pH;PARAM;1;real;5;9;1;0 +phyllotherme;thermal duration between the apparition of two successive leaves on the main stem;degree_d;PARPLT;1;real;10;150;1;0 +plNmin;minimal amount of rain required to start an automatic N fertilisation;mm.d-1;PARAM;1;real;5;30;1;0 +pluiebat;minimal amount of rain required to create a soil crust (a value must be given but if in the plt.xml the vigueurbat parameter is equal to 1 then the parameter is inactive);mm.d-1;PARSOL;1;real;5;100;1;0 +pminruis;minimal amount of rain required to produce runoff ;mm.d-1;PARAM;1;real;2;50;1;0 +Pns;density of the new snow;kg.m-3;STATION;1;real;10;200;1;0 +potgermi;soil water potential below which seed imbibition is impeded;MPa;PARPLT;1;real;-4.2;-0.1;1;0 +primingmax;maximum priming ratio (relative to SOM decomposition rate);SD;PARAM;1;real;1;5;1;0 +prof;snow cover threshold for snow insulation;cm;STATION;1;real;5;15;1;0 +profdenit;soil depth at which denitrification is active (if codedenit is activated);cm;PARSOL;1;real;10;40;1;0 +profdrain;depth of mole drains;cm;PARSOL;1;real;20;200;1;0 +profhum;maximum soil depth with an active biological activity;cm;PARSOL;1;real;10;150;1;0 +profhumrecolteuse;soil depth at which moisture is considered to allow harvesting (if soil compaction is activated);cm;PARTEC;1;real;0;100;1;0 +profhumsemoir;soil depth at which moisture is considered to allow sowing (if soil compaction is activated);cm;PARTEC;1;real;0;100;1;0 +profimper;upper depth of the impermeable layer (from the soil surface);cm;PARSOL;1;real;50;200;1;0 +proflabour;minimal soil depth for ploughing (if soil compaction is activated);cm;PARAM;1;real;0;100;1;0 +profmes;depth of measurement of the soil water reserve;cm;PARTEC;1;real;10;1000;1;0 +profnod;maximum depth at which N2 fixation by legume crops is possible;cm;PARPLT;1;real;10;50;1;0 +profres;upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(1);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(10);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(11);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(2);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(3);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(4);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(5);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(6);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(7);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(8);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profres(9);upper depth of organic residue incorporation ;cm;PARTEC;11;real;0;30;1;0 +profsem;depth of sowing;cm;PARTEC;1;real;0;10;1;0 +proftrav;maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(1);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(10);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(11);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(2);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(3);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(4);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(5);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(6);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(7);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(8);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftrav(9);maximum depth affected by soil tillage;cm;PARTEC;11;real;0;50;1;0 +proftravmin;minimal soil depth for chisel tillage (if soil compaction is activated);cm;PARAM;1;real;0;100;1;0 +prophumtassrec;soil moisture content (fraction of field capacity) above which compaction may occur and delay harvest;SD;PARAM;1;real;0.8;1.8;1;0 +prophumtasssem;soil moisture content (fraction of field capacity) above which compaction may occur and delay sowing;SD;PARAM;1;real;0.8;1.8;1;0 +propjgermin;minimal fraction of the duration nbjgerlim when the temperature is higher than the temperature threshold Tdmax ;%;PARPLT;1;real;0;1;1;0 +proprac;ratio of root mass to aerial mass at harvest;SD;PARAM;1;real;0.05;0.5;1;0 +propracfmax;fraction of fine roots emitted in the layer 0-1 cm (in length, maximum value over the root profile);SD;PARPLT;1;real;0.51;0.95;1;0 +Propres;maximal fraction of the biomass reserves that can be mobilized from aerial organs in all crops;SD;PARPLT;1;real;0;1;1;0 +propresP;maximal fraction of the biomass reserves that can be mobilized from storage organs in perennials;SD;PARPLT;1;real;0;1;1;0 +PropresPN;maximal fraction of the N reserves that can be mobilized from storage organs in perennials;SD;PARPLT;1;real;0;1;1;0 +ps;initial density of the snow cover;kg m-3;INIT;1;real;10;1000;1;0 +ps0;initial density of the snow cover;kg m-3;INIT;1;real;10;1000;1;0 +psihucc;soil water potential corresponding to field capacity ;MPa;PARAM;1;real;-5;-0.1;1;0 +psihumin;soil water potential corresponding to wilting point;MPa;PARAM;1;real;-5;-0.1;1;0 +psisto;potential of stomatal closing (absolute value);bars;PARPLT;1;real;1;25;1;1 +psiturg;potential of the beginning of decrease of the cellular extension (absolute value);bars;PARPLT;1;real;1;15;1;1 +q;cumulative soil evaporation above which evaporation rate is decreased ;mm;PARSOL;1;real;0;50;1;0 +q0;cumulative soil evaporation above which evaporation rate is decreased ;mm;PARSOL;1;real;0;50;1;0 +q10;Q10 used for the dormancy break calculation ;SD;PARPLT;1;real;1.5;3.5;1;0 +qmulchdec;maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(1);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(10);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(11);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(12);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(13);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(14);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(15);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(16);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(17);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(18);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(19);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(2);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(20);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(21);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(3);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(4);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(5);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(6);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(7);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(8);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchdec(9);maximal amount of decomposable mulch;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis;amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0;amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(1);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(10);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(11);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(12);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(13);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(14);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(15);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(16);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(17);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(18);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(19);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(2);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(20);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(21);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(3);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(4);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(5);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(6);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(7);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(8);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +qmulchruis0(9);amount of mulch above which runoff is suppressed;t.ha-1;PARAM;21;real;0;5;1;0 +QNperenne;initial value of nitrogen amount in storage organs in perennial crops ;kg ha-1;INIT;1;real;0;500;1;0 +QNperenne0;initial value of nitrogen amount in storage organs in perennial crops ;kg ha-1;INIT;1;real;0;500;1;0 +QNplante;initial N amount in the plant (if the option to simulate N and C reserves is not activated);t.ha-1;INIT;1;real;0;10;1;0 +QNplante0;initial N amount in the plant (if the option to simulate N and C reserves is not activated);t.ha-1;INIT;1;real;0;10;1;0 +QNplantenp;initial N amount in non-perennial organs of the plant;kg.ha-1;INIT;1;real;0;200;1;0 +QNplantenp0;initial N amount in non-perennial organs of the plant;kg.ha-1;INIT;1;real;0;200;1;0 +QNpltminINN;minimal amount of N in the plant required to compute INN;kg.ha-1;PARAM;1;real;0;50;1;0 +qres;mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(1);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(10);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(11);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(2);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(3);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(4);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(5);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(6);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(7);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(8);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +qres(9);mass of organic residues added to soil (fresh weight);t.ha-1;PARTEC;11;real;0;200;1;0 +Qtot_N;total amount of mineral N fertilizer applications ;kg.ha-1;PARTEC;1;real;0;200;1;0 +ra;aerodynamic resistance (used in volatilization module with the PET approach);s.m-1;STATION;1;real;10;70;1;0 +rapdia;ratio of coarse roots diameter to fine roots diameter;SD;PARPLT;1;real;1;9.12;1;0 +rapforme;ratio of thickness to width of the crop shape (negative when the base of the form < top);SD;PARPLT;1;real;-5;5;1;0 +rapNmindec;slope of the linear relationship between the fraction of mineral N available for residue decomposition and the amount of C in decomposing residues;g.g-1;PARAMV6;1;real;0;0.01;1;0 +rapsenturg;threshold soil water content active to simulate water senescence stress as a proportion of the turgor stress;SD;PARPLT;1;real;0.5;1.5;1;1 +ratiodenit;fraction of N2O emitted per unit of N denitrified;SD;PARAM;1;real;0;1;1;0 +ratiodurvieI;life span of early leaves expressed as a fraction of the life span of the last leaves emitted DURVIEF;SD;PARPLT;1;real;0;1;1;0 +ratiol;water stress index below which irrigation is started in automatic mode (0 in manual mode);SD;PARTEC;1;real;0.2;1;1;0 +ratiolN;nitrogen stress index below which fertilisation is started in automatic mode (0 in manual mode);SD;PARAMV6;1;real;0.2;1;1;0 +rationit;fraction of N2O emitted per unit of N nitrified;SD;PARAM;1;real;0;1;1;0 +ratiosen;fraction of senescent biomass (relative to total biomass);SD;PARPLT;1;real;0;1;1;0 +rayon;average radius of the roots;cm ;PARPLT;1;real;0.005;0.07;1;0 +rdrain;radius of the mole drains;cm;PARAM;1;real;1;100;1;0 +remobres;fraction of daily remobilisable C reserves;d-1;PARPLT;1;real;0;0.5;1;0 +repracpermax;maximum root biomass relative to total biomass (permanent trophic link);SD;PARPLT;1;real;0.1;0.9;1;0 +repracpermin;minimum root biomass relative to total biomass (permanent trophic link);SD;PARPLT;1;real;0.1;0.9;1;0 +repracseumax;maximum root biomass relative to total biomass (trophic link by thresholds);SD;PARPLT;1;real;0.1;0.9;1;0 +repracseumin;minimum root biomass relative to total biomass (trophic link by thresholds);SD;PARPLT;1;real;0.1;0.9;1;0 +resk;parameter 1/2 used to calculate profres (if code_auto_profres = 2): profres = proftrav *(1-exp(-resk.(proftrav-resz));cm-1;PARTEC;1;real;0.05;0.25;1;0 +resplmax;maximal reserve of biomass;t.ha-1;PARPLT;1;real;0;100;1;0 +ressuite;type of crop residue: roots / whole_crop / straw+roots / stubble+roots / prunings;SD;PARTEC;1;character;;;0;0 +restemp;initial biomass of metabolic reserves in the perennial organs;t.ha-1;INIT;1;real;0;15;1;0 +restemp0;initial biomass of metabolic reserves in the perennial organs;t.ha-1;INIT;1;real;0;15;1;0 +restit;option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(1);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(10);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(11);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(12);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(13);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(14);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(15);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(16);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(17);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(18);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(19);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(2);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(20);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(3);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(4);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(5);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(6);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(7);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(8);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +restit(9);option of restitution in case of pasture yes (1), no (2);code 1/2;PARTEC;20;integer;1;2;1;0 +resz;parameter 2/2 used to calculate profres (if code_auto_profres = 2): profres = proftrav *(1-exp(-resk.(proftrav-resz));cm;PARTEC;1;real;1;10;1;0 +rsmin;minimal stomatal resistance of leaves;s.m-1;PARPLT;1;real;20;500;1;0 +RTD;root tissue density;g.cm-3;PARPLT;1;real;0.05;0.8;1;0 +rugochisel;roughness length of bare soil after chisel tillage (if soil compaction is activated);m;PARTEC;1;real;0.01;0.2;1;0 +rugolabour;roughness length of bare soil after mouldboard ploughing (if soil compaction is activated);m;PARTEC;1;real;0.01;0.2;1;0 +ruisolnu;fraction of runoff (relative to total rainfall) in a bare soil ;SD;PARSOL;1;real;0;1;1;0 +scale_tdenitopt;parameter related to the range of optimum temperature for denitrification;SD;PARAM;1;real;10;40;1;0 +scale_tnitopt;parameter related to the range of optimum temperature for nitrification;SD;PARAM;1;real;5;30;1;0 +Sdepth;initial snow cover depth;m;INIT;1;real;0;3;1;0 +Sdepth0;initial snow cover depth;m;INIT;1;real;0;3;1;0 +Sdry;initial water in solid state in the snow cover;mm;INIT;1;real;0;300;1;0 +Sdry0;initial water in solid state in the snow cover;mm;INIT;1;real;0;300;1;0 +sea;specific area of fruit envelops;cm2.g-1;PARPLT;1;real;0;300;1;0 +sensanox;index of anoxia sensitivity (0 = insensitive, 1 = highly sensitive);SD;PARPLT;1;real;0;1;1;0 +sensiphot;index of photoperiod sensitivity (1 = insensitive, 0 = highly sensitive);SD;PARPLT;1;real;0;1;1;1 +sensrsec;index of root sensitivity to drought (1 = insensitive, 0 = highly sensitive);SD;PARPLT;1;real;0;1;1;0 +separateurrapport;column separator in rapport.sti file;SD;PARAM;1;character;;;0;0 +seuilLAIapex;maximal value of LAI+LAIapex when LAIapex is > 0;m2.m-2;PARPLT;1;real;0;10;1;0 +seuilmortalle;relative transpiration threshold to calculate tiller mortality;mm.d-1;PARPLT;1;real;0;10;1;0 +seuilreconspeupl;tiller density below which the entire population will not be regenerated;m-2;PARPLT;1;real;0;4000;1;0 +sigmadistalle;parameter used for calculating tiller mortality (gamma law) ;SD;PARPLT;1;real;0;0.5;1;0 +slamax;maximum SLA (specific leaf area) of green leaves;cm2.g-1;PARPLT;1;real;50;500;1;1 +slamin;minimum SLA (specific leaf area) of green leaves;cm2.g-1;PARPLT;1;real;50;500;1;0 +spfrmax;maximal sources/sinks value allowing the trophic stress calculation for fruit onset;SD;PARPLT;1;real;0.7;2;1;0 +spfrmin;minimal sources/sinks value allowing the trophic stress calculation for fruit onset;SD;PARPLT;1;real;0;1;1;0 +splaimax;maximal sources/sinks value allowing the trophic stress calculation for leaf growing;SD;PARPLT;1;real;0.7;2;1;0 +splaimin;minimal value of ratio sources/sinks for the leaf growth ;SD;PARPLT;1;real;0.01;1;1;0 +stade;crop stage at the beginning of simulation;SD;INIT;1;character;;;0;0 +stade0;crop stage at the beginning of simulation;SD;INIT;1;character;;;0;0 +stadebbchamf;equivalent stage in BBCH-scale (amf= maximum acceleration of leaf growth, end of juvenile phase) ;SD;PARPLT;1;character;;;0;0 +stadebbchdebdes;equivalent stage in BBCH-scale (debdes= date of onset of water dynamics in harvested organs);SD;PARPLT;1;character;;;0;0 +stadebbchdrp;equivalent stage in BBCH-scale (drp = starting date of filling of harvested organs);SD;PARPLT;1;character;;;0;0 +stadebbchfindorm;equivalent stage in BBCH-scale (end of dormancy);SD;PARPLT;1;character;;;0;0 +stadebbchflo;equivalent stage in BBCH-scale (flowering);SD;PARPLT;1;character;;;0;0 +stadebbchger;equivalent stage in BBCH-scale (germination);SD;PARPLT;1;character;;;0;0 +stadebbchlax;equivalent stage in BBCH-scale (lax = maximum leaf area index, end of leaf growth );SD;PARPLT;1;character;;;0;0 +stadebbchlev;equivalent stage in BBCH-scale (emergence);SD;PARPLT;1;character;;;0;0 +stadebbchmat;equivalent stage in BBCH-scale (maturity);SD;PARPLT;1;character;;;0;0 +stadebbchnou;equivalent stage in BBCH-scale (fruit set);SD;PARPLT;1;character;;;0;0 +stadebbchplt;equivalent stage in BBCH-scale (sowing);SD;PARPLT;1;character;;;0;0 +stadebbchrec;equivalent stage in BBCH-scale (harvest);SD;PARPLT;1;character;;;0;0 +stadebbchsen;equivalent stage in BBCH-scale (senescence);SD;PARPLT;1;character;;;0;0 +stadecoupedf;stage of automatic cut for forage crops;SD;PARTEC;1;character;;;0;0 +stage_end_irrigauto;phenological stage for ending automatic irrigations (plt, ger, lev, amf, lax, drp ,flo, sen, rec, mat, debdorm, findorm);SD;PARTEC;1;character;;;0;0 +stage_start_irrigauto;phenological stage for starting automatic irrigations (plt, ger, lev, amf, lax, drp ,flo, sen, rec, mat, debdorm, findorm);SD;PARTEC;1;character;;;0;0 +stamflax;cumulative thermal time between the stages AMF (maximum acceleration of leaf growth, end of juvenile phase) and LAX (maximum leaf area index, end of leaf growth );degree_d;PARPLT;1;real;0;6000;1;1 +stdnofno;cumulative thermal time between the beginning and the end of nodulation;degree_d;PARPLT;1;real;0;500;1;0 +stdordebour;cumulative thermal time between the dormancy break and the bud break ;degree_d;PARPLT;1;real;0;20000;1;1 +stdrpdes;cumulative thermal time between the DRP stage (starting date of filling of harvested organs) and DEBDES (date of onset of water dynamics in harvested organs);degree_d;PARPLT;1;real;0;900;1;1 +stdrpmat;cumulative thermal time between the stages DRP (starting date of filling of harvested organs) and MAT (maturity);degree_d;PARPLT;1;real;0;2000;1;1 +stdrpnou;cumulative thermal time between the stages DRP (starting date of filling of harvested organs) and NOU (end of setting);degree_d;PARPLT;1;real;0;6000;1;1 +stemflowmax;maximal fraction of rainfall flowing down along the stems ;SD;PARPLT;1;real;0;1;1;0 +stflodrp;cumulative thermal time between FLO (anthesis) and DRP (starting date of filling of harvested organs) (only for indication);degree_d;PARPLT;1;real;0;500;1;1 +stfnofvino;cumulative thermal time between the end of the nodulation and the end of the nodule life ;degree_d;PARPLT;1;real;0;500;1;0 +stlaxsen;cumulative thermal time between the stages LAX (maximum leaf area index, end of leaf growth ) and SEN (beginning of leaf senescence) ;degree_d;PARPLT;1;real;0;6000;1;1 +stlevamf;cumulative thermal time between the stages LEV (emergence) and AMF (maximum acceleration of leaf growth, end of juvenile phase) ;degree_d;PARPLT;1;real;0;6000;1;1 +stlevdno;cumulative thermal time between emergence and the beginning of nodulation ;degree_d;PARPLT;1;real;0;500;1;0 +stlevdrp;cumulative thermal time between the stages LEV (emergence) and DRP (starting date of filling of harvested organs);degree_d;PARPLT;1;real;0;6000;1;1 +stoprac;stage when root growth stops (LAX= maximum leaf area index, end of leaf growth or SEN=beginning of leaf senescence);SD;PARPLT;1;character;;;0;0 +stpltger;cumulative thermal time allowing germination;degree_d;PARPLT;1;real;0;100;1;0 +stressdev;maximum phasic delay allowed due to stresses ;SD;PARPLT;1;real;0.1;0.9;1;0 +stsenlan;cumulative thermal time between the stages SEN (beginning of leaf senescence) and LAN;degree_d;PARPLT;1;real;0;6000;1;1 +stubblevegratio;fraction of unharvested biomass stubble to vegetative biomass at harvest;SD;PARTEC;1;real;0;1;1;0 +sucrerec;minimal sugar concentration at harvest (/ fresh matter);g.g-1 FW;PARTEC;1;real;1e-04;0.5;1;0 +surfapex;equivalent surface of a transpiring apex;m2;PARPLT;1;real;0;1e-04;1;0 +surfouvre1;relative area of the shelter opened the first day of opening;SD;PARTEC;1;real;0.1;0.8;1;0 +surfouvre2;relative area of the shelter opened the second day of opening;SD;PARTEC;1;real;0.1;0.8;1;0 +surfouvre3;relative area of the shelter opened the third day of opening;SD;PARTEC;1;real;0.1;0.8;1;0 +Swet;initial water in liquid state in the snow cover;mm;INIT;1;real;0;300;1;0 +Swet0;initial water in liquid state in the snow cover;mm;INIT;1;real;0;300;1;0 +swfacmin;minimal value for drought stress index (turfac, swfac, senfac);SD;PARPLT;1;real;0;1;1;1 +SWrf;degree day temperature index for snow refreezing;mm.degree_C-1.d-1;STATION;1;real;0;0.01;1;0 +tauxexportfauche;fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(1);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(10);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(11);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(12);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(13);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(14);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(15);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(16);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(17);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(18);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(19);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(2);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(20);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(3);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(4);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(5);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(6);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(7);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(8);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxexportfauche(9);fraction of cut which is exported;SD;PARTEC;20;real;0;1;1;0 +tauxmortresP;mortality rate of perennial organs ;d-1;PARPLT;1;real;0;0.5;1;0 +tauxrecouvkmax;soil cover rate corresponding to the maximal crop coefficient for water requirement (plant surface / soil surface);m2.m-2;PARPLT;1;real;0.5;2;1;0 +tauxrecouvmax;maximal soil cover rate (plant surface / soil surface);m2.m-2;PARPLT;1;real;0.5;2;1;0 +tcmax;maximum temperature at which growth ceases;degree_C;PARPLT;1;real;10;50;1;0 +tcmin;minimum temperature at which growth ceases;degree_C;PARPLT;1;real;-10;15;1;0 +tcxstop;temperature beyond which foliar growth stops;degree_C;PARPLT;1;real;0;100;1;0 +tdebgel;temperature below which frost affects plant growth;degree_C;PARPLT;1;real;-5;5;1;0 +tdenitopt_gauss;optimum temperature for denitrification;degree_C;PARAM;1;real;0;60;1;0 +tdmax;maximum temperature above which development stops;degree_C;PARPLT;1;real;15;40;1;0 +tdmaxdeb;maximal temperature for hourly calculation of phasic duration between dormancy and bud breaks;degree_C;PARPLT;1;real;0;40;1;0 +tdmin;minimum temperature below which development stops;degree_C;PARPLT;1;real;-10;15;1;0 +tdmindeb;minimal thermal threshold for hourly calculation of phasic duration between dormancy and bud breaks;degree_C;PARPLT;1;real;0;40;1;0 +tdoptdeb;optimal temperature for calculation of phasic duration between dormancy and bud breaks;degree_C;PARPLT;1;real;0;30;1;0 +temax;maximal temperature above which plant growth stops;degree_C;PARPLT;1;real;15;40;1;0 +temin;minimum temperature for development;degree_C;PARPLT;1;real;-10;15;1;1 +tempdeshyd;increase in fruit dehydration rate due to the increase in crop temperature (Tcult-Tair);%.degree_C-1;PARPLT;1;real;1e-04;0.05;1;0 +tempfauche;cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(1);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(10);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(11);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(12);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(13);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(14);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(15);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(16);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(17);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(18);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(19);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(2);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(20);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(3);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(4);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(5);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(6);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(7);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(8);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempfauche(9);cumulative thermal time between two cuts of forage crops ;degree_d;PARTEC;20;real;0;2000;1;0 +tempnod1;temperature parameter (1/4) used to calculate N fixation by legumes ;degree_C;PARPLT;1;real;-10;40;1;0 +tempnod2;temperature parameter (2/4) used to calculate N fixation by legumes ;degree_C;PARPLT;1;real;-10;40;1;0 +tempnod3;temperature parameter (3/4) used to calculate N fixation by legumes ;degree_C;PARPLT;1;real;-10;40;1;0 +tempnod4;temperature parameter (4/4) used to calculate N fixation by legumes ;degree_C;PARPLT;1;real;-10;40;1;0 +teopt;optimal temperature (1/2) for plant growth;degree_C;PARPLT;1;real;10;30;1;1 +teoptbis;optimal temperature (2/2) for plant growth;degree_C;PARPLT;1;real;10;30;1;0 +tfroid;optimal temperature for vernalisation;degree_C;PARPLT;1;real;-5;10;1;0 +tgelflo10;temperature resulting in 10% of frost damages on flowers and fruits;degree_C;PARPLT;1;real;-25;0;1;0 +tgelflo90;temperature resulting in 90% of frost damages on flowers and fruits;degree_C;PARPLT;1;real;-25;0;1;0 +tgeljuv10;temperature resulting in 10% of frost damage on LAI (juvenile stage);degree_C;PARPLT;1;real;-25;0;1;1 +tgeljuv90;temperature resulting in 90% of frost damage on LAI (juvenile stage);degree_C;PARPLT;1;real;-25;0;1;0 +tgellev10;temperature resulting in 10% of frost damages on plantlet;degree_C;PARPLT;1;real;-25;0;1;1 +tgellev90;temperature resulting in 90% of frost damages on plantlet;degree_C;PARPLT;1;real;-25;0;1;0 +tgelveg10;temperature resulting in 10% of frost damage on LAI (adult stage);degree_C;PARPLT;1;real;-25;0;1;1 +tgelveg90;temperature resulting in 90% of frost damage on LAI (adult stage);degree_C;PARPLT;1;real;-25;0;1;0 +tgmin;minimum temperature below which emergence is stopped;degree_C;PARPLT;1;real;-10;15;1;0 +tigefeuil;ratio stem (structural part)/leaf;SD;PARPLT;1;real;0;3;1;1 +tigefeuilcoupe;ratio stem (structural part)/leaf on the cutting day;SD;PARPLT;1;real;0;3;1;0 +tletale;lethal temperature for the plant;degree_C;PARPLT;1;real;-30;-1;1;0 +tmaxremp;maximal temperature above which grain filling stops;degree_C;PARPLT;1;real;10;40;1;0 +tmaxseuil;maximum temperature when snow cover is higher than prof;degree_C;STATION;1;real;-0.5;0.5;1;0 +Tmf;threshold temperature for snow melting;degree_C;STATION;1;real;0;1;1;0 +tmin_mineralisation;minimal temperature for decomposition of humified organic matter;degree_C;PARAM;1;;-3;0;1;0 +tminremp;minimal temperature below which grain filling stops;degree_C;PARPLT;1;real;0;20;1;0 +tminseuil;minimum temperature when snow cover is higher than prof;degree_C;STATION;1;real;-1;0;1;0 +tnitmax;maximal temperature above which nitrification stops;degree_C;PARAM;1;real;30;50;1;0 +tnitmin;minimal temperature below which nitrification stops;degree_C;PARAM;1;real;-10;20;1;0 +tnitopt;optimal temperature (1/2) for nitrification;degree_C;PARAM;1;real;10;40;1;0 +tnitopt_gauss;optimal temperature (1/2) for nitrification;degree_C;PARAM;1;real;0;50;1;0 +tnitopt2;optimal temperature (2/2) for nitrification;degree_C;PARAM;1;real;20;45;1;0 +transplastic;transmission coefficient of the plastic shelter;SD;PARTEC;1;real;0.3;0.9;1;0 +trefh;reference temperature for decomposition of humified organic matter;degree_C;PARAM;1;real;-10;20;1;0 +trefr;reference temperature for decomposition of organic residues;degree_C;PARAM;1;real;-10;20;1;0 +trmax;maximum air temperature (tmax) above which all precipitation is assumed to be rain;degree_C;STATION;1;real;0.5;1.5;1;0 +tsmax ;maximum air temperature (tmax) below which all precipitation is assumed to be snow;degree_C;STATION;1;real;-3;-0.5;1;0 +tustressmin;water stress index (min(turfac,inns)) below which there is an extra LAI senescence;SD;PARPLT;1;real;0.3;1;1;0 +typecailloux;Pebbles type: 1 = Beauce limestone1, 2 = Beauce limestone, 3 = Lutetian limestone, 4 = Lutetian Brackish marl and limestone, 5 = morainic gravels, 6 = unweathered flint, sandstone or granite, 7 = weathered granite, 8 = Jurassic limestone 9 = Pebbles from Magneraud;SD;PARSOL;5;integer;1;10;1;0 +typecailloux(1);Pebbles type: 1 = Beauce limestone1, 2 = Beauce limestone, 3 = Lutetian limestone, 4 = Lutetian Brackish marl and limestone, 5 = morainic gravels, 6 = unweathered flint, sandstone or granite, 7 = weathered granite, 8 = Jurassic limestone 9 = Pebbles from Magneraud;SD;PARSOL;5;integer;1;10;1;0 +typecailloux(2);Pebbles type: 1 = Beauce limestone1, 2 = Beauce limestone, 3 = Lutetian limestone, 4 = Lutetian Brackish marl and limestone, 5 = morainic gravels, 6 = unweathered flint, sandstone or granite, 7 = weathered granite, 8 = Jurassic limestone 9 = Pebbles from Magneraud;SD;PARSOL;5;integer;1;10;1;0 +typecailloux(3);Pebbles type: 1 = Beauce limestone1, 2 = Beauce limestone, 3 = Lutetian limestone, 4 = Lutetian Brackish marl and limestone, 5 = morainic gravels, 6 = unweathered flint, sandstone or granite, 7 = weathered granite, 8 = Jurassic limestone 9 = Pebbles from Magneraud;SD;PARSOL;5;integer;1;10;1;0 +typecailloux(4);Pebbles type: 1 = Beauce limestone1, 2 = Beauce limestone, 3 = Lutetian limestone, 4 = Lutetian Brackish marl and limestone, 5 = morainic gravels, 6 = unweathered flint, sandstone or granite, 7 = weathered granite, 8 = Jurassic limestone 9 = Pebbles from Magneraud;SD;PARSOL;5;integer;1;10;1;0 +typecailloux(5);Pebbles type: 1 = Beauce limestone1, 2 = Beauce limestone, 3 = Lutetian limestone, 4 = Lutetian Brackish marl and limestone, 5 = morainic gravels, 6 = unweathered flint, sandstone or granite, 7 = weathered granite, 8 = Jurassic limestone 9 = Pebbles from Magneraud;SD;PARSOL;5;integer;1;10;1;0 +typsol;soil type;SD;PARSOL;1;character;;;0;0 +udlaimax;ulai from which the rate of leaf growth decreases ;SD;PARPLT;1;real;1;3;1;0 +upvttapI;thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(1);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(10);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(11);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(12);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(13);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(14);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(15);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(16);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(17);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(18);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(19);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(2);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(20);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(21);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(22);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(23);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(24);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(25);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(26);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(27);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(28);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(29);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(3);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(30);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(4);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(5);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(6);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(7);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(8);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapI(9);thermal time from emergence (UPVT units) driving irrigation;degree_d;PARTEC;30;integer;0;200;1;0 +upvttapN;thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(1);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(10);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(11);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(12);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(13);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(14);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(15);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(16);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(17);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(18);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(19);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(2);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(20);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(3);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(4);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(5);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(6);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(7);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(8);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +upvttapN(9);thermal time from emergence (UPVT units) driving fertilization;degree_d;PARTEC;20;integer;0;200;1;0 +usm;name of the USM;SD;USMXML;1;character;;;0;0 +Vabs2;N uptake rate at which fertilizer loss is divided by 2;kg.ha-1.d-1;PARAM;1;real;0.5;5;1;0 +variete;cultivar number corresponding to the cultivar name in the plant file;SD;PARTEC;1;integer;1;200;1;0 +vigueurbat;plant vigor index allowing to emerge through a soil crust ;SD;PARPLT;1;real;1e-04;1;1;0 +vitirazo;rate of increase of the N harvest index vs time;g.g-1.d-1;PARPLT;1;real;0.001;0.04;1;1 +vitircarb;rate of increase of the C harvest index vs time;g.g-1.d-1;PARPLT;1;real;0.001;0.02;1;1 +vitircarbT;rate of increase of the C harvest index vs thermal time;g.g-1.degree_d-1;PARPLT;1;real;5e-05;0.002;1;1 +vitno;rate of increase of the potential biological fixation rate after nodule onset, per unit of thermal time;nb.degree_d-1;PARPLT;1;real;0.001;0.01;1;0 +vitprophuile;rate of increase of oil harvest index vs time;g.g-1.d-1;PARPLT;1;real;0.001;0.01;1;1 +vitpropsucre;rate of increase of sugar harvest index vs time;g sugar.g-1.d-1;PARPLT;1;real;0.001;0.01;1;1 +vitreconspeupl;rate of regeneration of the tiller population;degree_C-1;PARPLT;1;real;0;0.1;1;0 +vlaimax;ulai at the inflexion point of the function DELTAI=f(ULAI);SD;PARPLT;1;real;1.5;2.5;1;0 +Vmax1;maximum specific N uptake rate with the low affinity transport system;micromole.cm-1.h-1;PARPLT;1;real;2e-04;0.01;1;0 +Vmax2;maximum specific N uptake rate with the high affinity transport system;micromole.cm-1.h-1;PARPLT;1;real;0.002;0.1;1;0 +vnitmax;maximum nitrification rate (if Michaelis-Menten formalism is used);mg.kg-1.d-1;PARAM;1;real;0;100;1;0 +voleng;maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(1);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(2);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(3);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(4);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(5);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(6);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(7);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +voleng(8);maximal fraction of mineral fertilizer that can be volatilized ;SD;PARAM;8;real;0;1;1;0 +vpotdenit;potential rate of denitrification for the whole denitrifying layer;kg.ha-1.d-1;PARSOL;1;real;0.3;10;1;0 +wdata1;name of the first climate file;SD;USM;1;character;;;0;0 +wdata2;name of the last climate file;SD;USM;1;character;;;0;0 +wfpsc;WFPS (Water filled porosity space) threshold above which denitrification occurs;SD;PARAM;1;real;0.3;1;1;0 +Wh;N/C ratio of soil humus;g.g-1;PARAM;1;real;0.05;0.14;1;0 +Xorgmax;maximal amount of N immobilised in soil derived from the mineral fertilizer ;kg.ha-1;PARAM;1;real;100;500;1;0 +y0msrac;minimal amount of root mass at harvest (when aerial biomass is nil);t.ha-1;PARAM;1;real;0;5;1;0 +yres;Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(1);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(10);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(11);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(12);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(13);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(14);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(15);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(16);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(17);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(18);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(19);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(2);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(20);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(21);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(3);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(4);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(5);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(6);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(7);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(8);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +yres(9);Carbon assimilation yield by the microbial biomass during crop residues decomposition;SD;PARAM;21;real;0.3;0.7;1;0 +z0solnu;roughness length of bare soil;m;PARSOL;1;real;0.01;0.2;1;0 +zesx;maximal soil depth affected by soil evaporation;cm;PARSOL;1;real;10;150;1;0 +zlabour;depth of ploughing (reference profile);cm;PARPLT;1;real;0;100;1;0 +zpente;depth at which root density is 50% of the surface root density (reference profile);cm ;PARPLT;1;real;10;200;1;0 +zprlim;maximum depth of the root profile (reference profile);cm ;PARPLT;1;real;10;200;1;0 +zr;reference height of meteorological data measurement;m;STATION;1;real;2;10;1;0 +zrac;initial depth of root apex of the crop;cm;INIT;1;real;0;200;1;0 +zrac0;initial depth of root apex of the crop;cm;INIT;1;real;0;200;1;0 +zracplantule;initial depth of root apex of the plantlet;cm;PARPLT;1;real;0;200;1;0
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/internal_variables_v10.csv Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,250 @@ +name;definition;unit;name in code;english name;who +A_LAI;shapes of the senescence curve;SD;;;DR +absodrp;variable relecting the nitrogen status of the crop from the starting date of filling of harvested organs;SD;absodrp;;FF +absz;actual N uptake in each elementary soil layer;kg N ha-1 day-1;absz;;FF +albsol;albedo of the soil;SD;albsol;;ML +alloresp;daily coeffiscient of allocation of remobilised biomass between structural and reserves pools of perennial organs;SD;alloresp;;LS +amplsurf;daily thermal amplitude at the surface;degreesC;amplsurf;;JL +amplz;daily thermal amplitude;degreesC;amplz;;JL +azorac;amount of mineral nitrogen in the rooting zone;kg N ha-1;azorac;;FF +B_LAI;shapes of the growth curve;SD;;;DR +bpsisol;retention curve parameter 2;SD;bpsisol;;JL +CCper;carbon concentration in perennial organs;g C kg-1 DM;CCper;;FF +CCrac;carbon concentration in roots;g C kg-1 DM;CCRac;;FF +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 +coeflevb;ratio between the emerged and the germinated density depending on the crust layer;SD;coeflev (l.270 de Stics_levee.f90);;ML +concN;mean nitrate concentration in each elementary soil layer;kg N ha-1 mm-1 water;concN;;FF +conv;daily convection flow of N in each elementary soil layer;kg N ha-1 day-1;conv;;FF +crust;indicator of crust conditions at the soil surface;0/1;null;;DR +CsurNper;C/N ratio of the storage organs;SD;;;DR +CsurNresid;C/N ratio of falling leaves;SD;CsurNresid;CN_ratio_falling_leaves;DR +CsurNressuite;C/N ratio of calculated crop residue for the next crop;SD;CsurNressuite;CN_ratio_residu_returning_in_soil;DR +CsurNsol;C to N ratio of soil throughout time;SD;CsurNsol;;FF +cuh;chilling hourly units;degrees C;cuh;;DR +cumoffrN;sum of nitrogen soil supply over the profile;kg N ha-1;cumoffrN;sum_soil_N_supply;DR +da;bulk soil density;g cm-3;daz??;bulk_soil_density;AM +DELTABSO;nitrogen dependant biomass growth;t ha-1 day-1;?;;AM variable +deltai_1;daily increase of the green leaf index for determinate crops;m2 leaf m-2 soil;?;;AM +deltai_2;daily increase of the green leaf index for indeterminate crops;m2 leaf m-2 soil;?;;AM +deltai_dens; density component of deltai; plant m-2; ??; density_component_deltai;AM +deltai_dev;phasic development component of deltai;m2 plant-1 degree.day-1;;deltai_dev;AM +deltai_stress;stress component of deltai;SD;;deltai_stress;AM +deltai_T;thermal component of deltai;degree.days;;deltai_T;AM +deltaimax;maximum increase in leaf expansion;m2 leaf m-2 soil;?;;AM +DELTAMSRESEN;senescence rate of residual dry matter after forage crop cutting;t DM ha-1 day-1;?;;AM +deltat;gradient of the relationship between saturation pressure and temperature;mbars;deltat;saturation_deficit;DR +deltatemp;difference in mean daily temperature inside and outside a greenhouse;degrees C;deltatemp;;ML +deltaz_stress;Stress component of deltaz;SD;??;stress_component_deltaz;AM +deltaz_T;Thermal component of deltaz;cm day-1;??;thermal_component_deltaz;AM +densiteger;density of germinated plants;plants.m-2;densiteger;;ML +densitelev;density of emerged plants;plants.m-2;densitelev;;ML +diff;diffusion flow of N in each elementary soil layer;kg N ha-1 day-1;diff;;FF +difNe;effective diffusion coefficient of nitrate in soil;cm2 day-1;diff;;FF +dltafv;daily biomass partitioning to the structural part of green leaves;t DM ha-1;dltafv;;LS +dltamsrac;daily root gowth;t DM ha-1 day-1;dltamsrac;;FF +dltamsracmort;daily dead root biomass on the root depth;t DM ha-1 day-1;dltamsracmort;dailydeadrootbiomass?;DR +dltaQCracmort; Cumulative amount of C lost by dead roots over the soil profile;kg N ha-1 day-1;;;DR +dltaQNracmort; Cumulative amount of N lost by dead roots over the soil profile;kg N ha-1 day-1;;;DR +dltaremobsen;daily biomass remobilised during leaves senescence;t DM ha-1;dltaremobsen;;LS +dltares;daily biomass partitioning to the temporary reserves;t DM ha-1;deltares;;LS +dltaresper;daily biomass remobilised from temporary reserves allocated to perennial organs reserves;t DM ha-1;dltaresper;;LS +dltarestemp;daily biomass remobilised from temporary reserves to perennial organs;t DM ha-1;dltarestemp;;LS +dltarestemp2;daily biomass remobilised from temporary reserves to perennial organs;t DM ha-1;dltarestemp;;LS +dltat;daily biomass partitioning to the structural part of stems;t DM ha-1;dltat;;LS +dos;saturation deficit within the canopy;mbars;dos;;ML +dpHvol;increase of soil pH after manure application;SD;dpHvol;;FF +dpHvolm;maximum pH increase following the application of slurry (taking into account the amount of inorganic N applied) ;SD;dpHvolm;;FF +drlsenf;length of dead fine roots in layer iz on day n;cm cm-2 soil;;;DR +drlseng;length of dead coarse roots in layer iz on day n;cm cm-2 soil;;;DR +dsat;air saturation deficit;mbars;dsat;air_saturation_deficit;DR +DURAGE;natural lifespan of leaves;Q10;?;;AM +DURVIEFv;maximal lifespan of an adult leaf;Q10;?;;AM +DURVIEIp;lifespan of a young leal (at the AMF stage) expressed as a proportion of DURVIEF;SD;?;;AM +E;snow compaction parameter;mm mm-1 day-1;E;E_snow_compaction;DR +Edirectm;maximum value of Edirect;mm day-1;Edirectm;;ML +effN;Nitrogen use efficiency;SD;effN;NUE;DR +elong;elongation of the coleoptile;cm;elong;;DR +emissa;emissivity of the atmosphere;0-1;emissa;;ML +epz;daily transpiration flow in each elementary soil layer;mm day-1;epz;;FF +ePT(t);potential evapotranspiration according to Priestley-Taylor formula;mm day-1;pas dans le code;;ML +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 +esz;evaporation soil profile;mm day-1 cm-1;esz;;ML +etmax;maximum value of daily evaporation flux;W m-2;etmax;;ML +etmin;minimum value of daily evaporation flux;W m-2;etmin;;ML +FGELJUV;frost index acting on LAI during the juvenile phase;SD;?;;AM +fgellev;frost index acting on plant density during the plantlet phase;SD;fgellev;;DR +FGELVEG;frost index acting on LAI during the vegetative phase;SD;?;;AM +fh;moisture factor on humus and residue decomposition rates;SD;fh;;FF +fluxrac;potential N uptake rate in each elementary soil layer;kg N ha-1 day-1;fluxrac;;FF +fluxsol;daily soil N supply in each elementary soil layer;kg N ha-1 day-1;fluxsol;;FF +FPH;soil pH effect on the volatilisation;pH;volmax;volatilisation_pH_reduction;DR +Fr;ratio of rain in repartition between rain and snow rain;0-1;?;;DR +fracinsol;insolation fraction;0-1;fracinsol;;ML +fruis;proportion of run-off water above the activation threshold (pminruis);SD;fruis;;ML +Fs;ratio of snow in repartition between rain and snow rain;0-1;fs;;DR +ftempremp;thermal stress index as a function of temperature using cardinal temperatures (tminremp et tmaxremp);0-1;ftempremp;;PL +FsNH3;potential ammonia volatilization rate;microgram m-2 day-1;FsNH3;;FF +fth;temperature factor on humus mineralisation rate;SD;fth;;FF +ftr;temperature factor on residue decomposition rate;SD;ftr;;FF +gamma;psychrometrc constant;mb degreeC-1;gamma;gamma_psychometric_constant;DR +gmax;maximum value of daily soil heat flux;W m-2;GMAX;;ML +gmin;minimum value of daily soil heat flux;W m-2;GMIN;;ML +grainsnb;number of grains per square meter;grains m-2;??;grainsnb;BD +ha;residual soil water content in the sed bed;mm water cm soil-1;ha;;ML +HB;soil layer between the seedbe and the root front;cm;null;;DR +hn;wilting point mean in the seed bed;mm water cm soil-1;hn;;DR +hucc;elementary layer soil water content at field capacity;mm water cm soil-1;hucc;;JL +HCUM;available water over the rooting zone;mm water g soil-1 x 100;pas dans le code;;ML +humin;elementary layer soil water content at wilting point;mm water cm soil-1;humin;;JL +humirac;influence of soil water content on germination and root growth;SD;humirac;soil_water_content_germination_roor;AM +humsol;soil moisture;mm water cm soil-1;humsol;;DR +hur;microporosity elementary layer soil water content;mm water cm soil-1;hur;;JL +hx;mean water content at field capacity in the sed bed;mm water cm soil-1;hx;;DR +ilets;date of the plantlet stage;days;ilets;;DR +IMB;date of the beginning of seed moistening;days;null;;DR +INNI;instantaneous nitrogen index;SD;?;;AM variable +jvi;vernalizing contribution of a given day;nb days;;;ML +K;melting rate;mm degrees C-1 day-1;K;K_snow;DR +K_LAI;maximal LAI produced;m2 m-2;;;DR +K2;actual mineralisation rate of humus;day-1;K2;;FF +K2hum;potential mineralisation rate of humus;day-1;K2hum;;FF +kgdiffus;proportion of diffusive radiation reaching the soil;SD;?;;AM +kgdirect;proportion of direct radiation reaching the soil;SD;?;;AM +kh;coefficient of heat transfer in the cold shelter;W m-2 K-1;kh;;ML +ks;coefficient of energy losses between the outside and inside of the shelter;W m-2 K-1;ks;;ML +L;latent heat of vaporization;MJ kg-1;L;latent_heat;DR +laieffcum;LAI removed;SD;laieffcum;LAI_removed;DR +lairognecum;sum of topped leaf area index ;m2 m-2;lairognecum;sum_lai_topped;DR +longsperacf;specific fine root length;cm g-1;;;DR + AM Variable calculated in chap root +longsperacg;specific coarse root length;cm g-1;;;DR + AM Variable calculated in chap root +lracsentot; total length of senescent roots;cm root cm-2 soil; lracsentot; total_death_root;AM devrait etre dans variable +lracsenz; death root length density at depth z;cm root cm-3 soil; lracsenz; death_root_length_density_z;AM unite a verifier +lracz;efficient root length density;cm root cm-3 soil;??;efficient_root_length_density;AM +M;snow in the process of melting;mm day-1;M;M_melting_snow;DR +MASECABSO;biomass accounting for nitrogen absorption;t DM ha-1;?;;AM variable +mouill;water retained on the foliage;mm;mouill;water_retained_by_foliage;DR +mouillmulch;water retained by the vegetal mulch;mm;mouillmulch;;ML +Mrf;liquid water in the snow cover in the process of refreezing;mm day-1;Mrf;M_liquid_snow;DR +msracmort;dead root biomass on the root depth;t ha-1;deadrootbiomass?;;DR +nbgraingel; number of frozen grains per square meter;grains m-2;nbgraingel;;PL +nbgrains; number of grains per square meter;grains m-2;nbgrains;;PL +nbjgrauto;days of autotrophy for a moistened seed;days;nbjgrauto;;ML +nbjhumec;maximal period that seedcan be in a moist status without seed death occurs ;days;nbjhumec;;DR +NH3g;ammonia concentration in the gaseous soil phase;mol l-1;NH3g;;FF +NH3surf;ammonia concentration at the soil surface;microgram N m-3;NH3surf;;FF +nit;amount of NO3-N in an elementary layer; kg N ha-1;nit;;JL +nodn;coefficient used to take into account the effect of the soil mineral N content on the potential N fixation;SD;nodn;;FF +Nvolatorg;volatilizable NH4;kg N ha-1;Nvolatorg;;FF +Nvolorg;actual ammonia volatilization rate;kg N ha-1 day-1;Nvolorg;;FF devrait etre ds variables de sortie +offrN;mineral N available for root uptake in each elementary soil layer;kg N ha-1;offrN;;FF +pgraingel; weight of frozen grains per square meter;g m-2;pgraingel;;PL +pgrain; weight of grains per square meter;g m-2;pgrain;;PL +pHvol;soil surface pH varying after organic residue application (such as slurry);SD;pHvol;;FF +propfixpot;phenology-dependent coefficient used to calculate potential N fixation;SD;propfixpot;;FF +propvolat;proportion of the volatilizable N fraction of the residue;SD;propvolat;;FF +ps;density of the snow cover;kg m-3;ps_in;ps_snow_density;DR +psisol;soil potential of the elementary layer;Mpa;psisol;;JL +psisols;retention curve parameter 1;MPa;psisols;;JL +QNplantule;amount of nitrogen in the plantlet;kg N ha-1;null;;DR +QNplmax;maximal amount of N possible in the crop;kg N ha-1;QNplmax;maximal_N_in_plant;DR +raa;aerodynamic resistance between the canopy and the reference height of weather measurements;s m-1;raa;;FF +raamax;maximum daily value of the aerodynamic resistance between the cover et the reference level zr;W m-2;raamax;;ML +raamin;minimum daily value of the aerodynamic resistance between the cover et the reference level zr;W m-2;raamin;;ML +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 +rac;resistance of the canopy boundary layer;s m-1;rac;;ML +Ratm;atmospheric component of the long wave radiation;MJ m-2 day-1;Ratm;;ML +rc;resistance of canopy;s m-1;?;;ML +rdiffus;diffusive radiation;MJ m-2 day-1;?;;AM +rdirect;direct radiation;MJ m-2 day-1;?;;AM +rdroit;radiation not intercepted by the crop;MJ m-2 day-1;rdroit;;AM +reprac;underground/total biomass partitioning coefficient;SD; reprac; root_over_total_biomass_partitioning_coefficient;AM +rgex;extraterrestrial radiation;MJ m-2 day-1;rgex;;ML +Rglo;long wave radiation;MJ m-2 day-1;RGLO;;ML +rgmax;maximum daily value of the global radiation;W m-2;rgmax;;ML +rgmin;minimum daily value of the global radiation;W m-2;rgmin;;ML +rl;root length density at depth z;cm root cm-3 soil; rl; root_length_density_z;AM devrait etre dans variable +rlf;length of fine roots in layer iz on day n;cm cm-2 soil;;;DR +rlg;length of coarse roots in layer iz on day n;cm cm-2 soil;;;DR +rlj_dens; plant density component of rlj;plant m-2; ??; plant_density_component_rlj;AM +rlj_dev; plant density component of rlj;m root plant-1 degree-day-1; ??; plant_density_component_rlj;AM +rlj_stress; stress component of root length growth rlj;SD; ??; stress_component_rlj;AM +rlj_T; thermal component of root length growth rlj;degreeC day-1; ??; thermal_component_of_rlj;AM +rljfront; root length growth at the root front; m root m-2 day-1; ??; rlj_at_root_front;AM +rnet_PE;Net radiation for Brunt formula;MJ m-2;rnet;net_radiation;DR +rnet_PT;Net radiation for Priestley-Taylor evapotranspiration calculation;MJ m-2;rnet dans calceeq;net_radiation;DR +rnetmax;maximum value of daily net radiation;W m-2;rnetmax dans caltcult.f90;;ML +rnetmin;minimum value of daily net radiation;W m-2;rnetmin dans caltcult.f90;;ML +rnetP;net radiation affecting the crop;MJ m-2;;;ML +Rsol;surface comopnent of the long wave radiation;MJ m-2 day-1;Rsolglo;;ML +RsRso;total to extraterrestrial radiation ratio;SD;RsRso;;AM +rtransmis;radiation transmistted through the crop;MJ m-2 day-1;rtransmis;;AM +Sdry;water in solid state in the snow cover;mm;Sdry;;PL +S_WE;ratio between the snow water equivalent;mm;;;DR +Swet;water in liquid state in the snow cover;mm;Swet;;PL +sat;macroporosity elementary layer soil water content;mm water cm soil-1;sat;;JL +SB;seed bed;cm;null;;DR +sbv;specific surface area of biomass;cm2 g-1;sbvmax;specific_surface_area_biomass;DR +sbvmax;leaf expansion allowed per unit of biomass accumulated;cm2 g-1;?;;AM +sla;maximum SLA (specific leaf area) of green leaves;cm2 g-1;slamax;maximum_specific_leaf_area;DR +somger;growing degree-days from planting in the seed bed;degrees C;somger;;DR +SOMSEN;current thermal time for senescence;Q10;?;;AM +ST_LAI;growing degree-days since emergence;degreesC;;;DR +stdebsenrac_p; life span of roots;degreeC day-1; ??; life_span_root; AM devrait etre dans parameters +SURFAO;fraction of surface in the shade;SD;?;;AM +SURFAS;fraction of surface in the sun;SD;?;;AM +surfouvre;proportion of vents related to the total surface area of the greenhouse;0-1;surfouvre;;ML +tair;mean air temperature (measured );degreesC;tairveille;mean_air_temperature;DR +TDEW;dewpoint temperature;degreesC;TDEW;;ML +teta;available water content in the root zone;cm3 water cm-3 soil;?;;AM variable +tetsen;threshold soil water content accelering senescence;cm3 water cm-3 soil;?;;AM parameter? tetstomate and teturg designed as variable? or parameter? +TF_LAI;growing degree-days for the point of inflexion of the complete senescence;degrees C;;;DR +TI_LAI;growing degree-days for the point of inflexion of the growth curve ;degrees C;;;DR +tmin;minimum temperature ;degreesC;tmin(n);min_air_temperature;DR +tnh;normalized time (day) for humus mineralization;SD;tnh;;FF +tpm;vapour pressure in air;mbars;tpm;;ML +TRECOUVMAXp;proportion of the soil covered by isolated plant;SD;?;;AM +tsol;soil temperature ;degrees C;tsol;Soil_temp;DR +TURSAL;mean water stress TURFAC experienced since emergence;SD;?;;AM +TVAR;saturating vapour pressure as a function of temperature;mbars;TVAR;;ML +Vabs;specific N absorption capacity of the roots;micromole N h-1 cm-1 root;Vabs;;FF +vabsmoy;Nitrogen uptake rate;Kg N ha-1 day-1;vabsmoy;Nitrogen_uptake_rate;DR +VABSN;nitrogen accumulation rate in the plant (uptake and fixation);kg N ha-1 day-1;?;;AM variable +wfps;water filled pore space;SD;wfps;;BM +wfpscc;water filled pore space at fied capacity;SD;wfpscc;;BM +wsat;total porosity;SD;wsat;;JL +XMULCH;thickness of mulch created by evaporation from the soil;cm;pas dans le code;;ML +z0;crop roughness;m;z0;;ML +z0s;soil or understorey crop roughness;m;z0solnu;;ML +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 +znonli;root depth if no obstacle;cm; znonli; root_depth_without_obstacle;AM +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 +codeinstal;Technical code to describe either seedling or already installed crop;SD;codeinstal;;AM parameter +nhet;number of days of heterotrophy during germination;day;nhet;;AM calculé dans chap root +newrac;root length growth thanks to seed reserve remobilization during germination;m day-1;newrac;;AM variable calculées dans chap root +dis;A voir avec Nicolas;?;dis;;AM variable calculées dans chap root +debsenracf;thermal time units defining the begining of root senescence for fine roots;degreeC day-1;debsenracf;;AM parameter chap root +debsenracg;thermal time units defining the begining of root senescence for coarse roots;degreeC day-1;debsenracg;;AM parameter chap root +drliz;daily root length emission per elementary layer;cm root cm-3 soil;drliz;;AM variable calculées dans chap root +Wi;index of soil water availability (0-1);SD;;;DR +aevap;soil evaporation parameter combining climatic and soils aspects;mm;;;DR +EVAP0;accumulation of evaporative fluxes (esol, Emd, emulch);mm;;;DR +RNETP1;net radiation affecting the crop (use for direct evaporation);MJ m-2 day-1;;;DR +RNETP2;net radiation affecting the crop (use for transpiration);MJ m-2 day-1;;;DR +dh;displacement height;m;;;DR +hmin;water content at permanent wilting point of macro layer;%weight;;;DR +vnit;nitrification rate;mg N kg-1 day-1;vnit;;FF +vnitpot;potential nitrification rate;mg N kg-1 day-1;vnitpot;;FF +theta_sat;volumic soil water content at saturation;cm3 cm-3;theta_sat;;FF +devjour;daily development rate;ND;devjourfr;;PL +k;growth compartment;ND;i;;PL +croifruit;fruit growth;g m-2;croifruit;;PL +teaugrain;Water content of (harvested) organs;g g-1;teaugrain;;PL +dltazo;daily increase of grain nitrogen content;kgN.ha-1.day-1;dltazo;;PL-BD +potcroifruit;potential growth of a fruit;g.fruit-1.day-1;potcroifruit;;BD +dfr;fruit development stage of each age class;SD;dfr;;BD +mafraisfeuille;leaf fresh matter;t.ha-1;mafraisfeuille;;BD +mafraistige;structural stem fresh matter;t.ha-1;mafraistige;;BD +mafraisres;reserve fresh matter;t.ha-1;mafraisres;;BD +resperenne0;initial biomass reserve;t.ha-1;resperenne0;;BD +sum_eos;sum of daily maximum evaporation flux;mm;;;DR +z;soil elementary layer of 1 cm;cm;z;;DR
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/interpolation_lai.def Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,5 @@ +wheat 6.2 0.0097 720 0.0022 1980 +corn 4.27 0.012 647 0.0074 1657 +soybean 3.8 0.016 523 0.004 1589 +salad 0.983 0.0024 260 0.0202 2500 +tomato 3.8 0.016 523 0.004 1589 \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/outputs.csv Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,812 @@ +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
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/param_gen - Copie.xml Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,707 @@ +<?xml version="1.0" encoding="UTF-8" standalone="no"?> +<fichierpar version="10.0"> +<formalisme nom="Simulation options"> + <option choix="1" nom="Nitrogen stress activation" nomParam="codeinnact"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Water stress activation" nomParam="codeh2oact"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Optimum mineralisation in bare soil" nomParam="codeminopt"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Smoothing of initial profiles" nomParam="iniprofil"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Depth for mineral N and water stocks calculation" nomParam="codeprofmes"> + <choix code="1" nom="profmes"/> + <choix code="2" nom="profsol"/> + </option> + <option choix="1" nom="Climatic series" nomParam="codeinitprec"> + <choix code="1" nom="reset"/> + <choix code="2" nom="succession"/> + </option> + <option choix="1" nom="Biomass and yield conservation after harvest" nomParam="codemsfinal"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Take account of mulch effect (drying out of soil surface)" nomParam="codeactimulch"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Fruit load" nomParam="codefrmur"> + <choix code="1" nom="all fruits (including ripe ones)"/> + <choix code="2" nom="growing fruits only"/> + </option> + <option choix="1" nom="Hourly microclimate" nomParam="codemicheur"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Scientific writing in st2 and report" nomParam="codeoutscient"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Separator spaces in report" nomParam="codeseprapport"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"> + <param format="character" nom="separateurrapport">;</param> + </choix> + </option> + <option choix="2" nom="Activation of model sensitivity analysis" nomParam="codesensibilite"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Snow activation" nomParam="codesnow"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <param format="integer" max="511" min="0" nom="flagecriture">31</param> + </formalisme> + <formalisme nom="Radiation interception"> + <param format="real" max="0.6" min="0.4" nom="parsurrg">0.48000</param> + </formalisme> + <formalisme nom="Shoot growth"> + <param format="real" max="0.15" min="0.05" nom="coefb">0.08150</param> + <param format="real" max="0.5" min="0.05" nom="proprac">0.20000</param> + <param format="real" max="5.0" min="0.0" nom="y0msrac">0.70000</param> 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<param format="real" max="500.0" min="0.0" nom="awb">5.50000</param> + <param format="real" max="0.0" min="-2500.0" nom="bwb">0.00000</param> + <param format="real" max="60.0" min="5.0" nom="cwb">5.50000</param> + <param format="real" max="500.0" min="0.0" nom="ahres">0.05000</param> + <param format="real" max="10000.0" min="0.0" nom="bhres">0.00000</param> + <param format="real" max="250.0" min="0.0" nom="kbio">0.003500</param> + <param format="real" max="0.7" min="0.3" nom="yres">0.54000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmin">3.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmax">4.00000</param> + <param format="real" max="5.0" min="0.0" nom="qmulchruis0">0.00000</param> + <param format="real" max="5.0" min="0.05" nom="mouillabilmulch">0.00000</param> + <param format="real" max="150.0" min="0.0" nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + <choix code="18" nom="Grapevine shoots ploughed in"> + <param format="real" max="1.0" min="0.0" nom="CroCo">1.00000</param> + <param format="real" max="1000.0" min="0.0" nom="akres">0.09800</param> + <param format="real" max="1000.0" min="-5.0" nom="bkres">0.76000</param> + <param format="real" max="500.0" min="0.0" nom="awb">15.40000</param> + <param format="real" max="0.0" min="-2500.0" nom="bwb">-76.00000</param> + <param format="real" max="60.0" min="5.0" nom="cwb">7.80000</param> + <param format="real" max="500.0" min="0.0" nom="ahres">0.73000</param> + <param format="real" max="10000.0" min="0.0" nom="bhres">10.20000</param> + <param format="real" max="250.0" min="0.0" nom="kbio">0.007600</param> + <param format="real" max="0.7" min="0.3" nom="yres">0.62000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmin">8.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmax">100.00000</param> + <param format="real" max="5.0" min="0.0" nom="qmulchruis0">0.00000</param> + <param format="real" max="5.0" min="0.05" nom="mouillabilmulch">0.00000</param> + <param format="real" max="150.0" min="0.0" nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + <choix code="19" nom="Others.1 ploughed in"> + <param format="real" max="1.0" min="0.0" nom="CroCo">0.00000</param> + <param format="real" max="1000.0" min="0.0" nom="akres">0.00000</param> + <param format="real" max="1000.0" min="-5.0" nom="bkres">0.00000</param> + <param format="real" max="500.0" min="0.0" nom="awb">0.00000</param> + <param format="real" max="0.0" min="-2500.0" nom="bwb">0.00000</param> + <param format="real" max="60.0" min="5.0" nom="cwb">0.00000</param> + <param format="real" max="500.0" min="0.0" nom="ahres">0.00000</param> + <param format="real" max="10000.0" min="0.0" nom="bhres">0.00000</param> + <param format="real" max="250.0" min="0.0" nom="kbio">0.00000</param> + <param format="real" max="0.7" min="0.3" nom="yres">0.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmin">0.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmax">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="qmulchruis0">0.00000</param> + <param format="real" max="5.0" min="0.05" nom="mouillabilmulch">0.00000</param> + <param format="real" max="150.0" min="0.0" nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + <choix code="20" nom="Dead rhizomes in soil"> + <param format="real" max="1.0" min="0.0" nom="CroCo">1.00000</param> + <param format="real" max="1000.0" min="0.0" nom="akres">0.030000</param> + <param format="real" max="1000.0" min="-5.0" nom="bkres">1.13000</param> + <param format="real" max="500.0" min="0.0" nom="awb">15.20000</param> + <param format="real" max="0.0" min="-2500.0" nom="bwb">-80.00000</param> + <param format="real" max="60.0" min="5.0" nom="cwb">7.80000</param> + <param format="real" max="500.0" min="0.0" nom="ahres">0.91000</param> + <param format="real" max="10000.0" min="0.0" nom="bhres">25.90000</param> + <param format="real" max="250.0" min="0.0" nom="kbio">0.007600</param> + <param format="real" max="0.7" min="0.3" nom="yres">0.62000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmin">8.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmax">100.00000</param> + <param format="real" max="5.0" min="0.0" nom="qmulchruis0">0.00000</param> + <param format="real" max="5.0" min="0.05" nom="mouillabilmulch">0.00000</param> + <param format="real" max="150.0" min="0.0" nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + <choix code="21" nom="Dead roots in soil"> + <param format="real" max="1.0" min="0.0" nom="CroCo">1.00000</param> + <param format="real" max="1000.0" min="0.0" nom="akres">0.030000</param> + <param format="real" max="1000.0" min="-5.0" nom="bkres">1.13000</param> + <param format="real" max="500.0" min="0.0" nom="awb">15.20000</param> + <param format="real" max="0.0" min="-2500.0" nom="bwb">-80.00000</param> + <param format="real" max="60.0" min="5.0" nom="cwb">7.80000</param> + <param format="real" max="500.0" min="0.0" nom="ahres">0.91000</param> + <param format="real" max="10000.0" min="0.0" nom="bhres">25.90000</param> + <param format="real" max="250.0" min="0.0" nom="kbio">0.007600</param> + <param format="real" max="0.7" min="0.3" nom="yres">0.62000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmin">8.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmax">100.00000</param> + <param format="real" max="5.0" min="0.0" nom="qmulchruis0">0.00000</param> + <param format="real" max="5.0" min="0.05" nom="mouillabilmulch">0.00000</param> + <param format="real" max="150.0" min="0.0" nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + </option> + </formalisme> +</fichierpar>
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/param_gen.xml Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,707 @@ +<?xml version="1.0" encoding="UTF-8" standalone="no"?> +<fichierpar version="10.0"> +<formalisme nom="Simulation options"> + <option choix="1" nom="Nitrogen stress activation" nomParam="codeinnact"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Water stress activation" nomParam="codeh2oact"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Optimum mineralisation in bare soil" nomParam="codeminopt"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Smoothing of initial profiles" nomParam="iniprofil"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Depth for mineral N and water stocks calculation" nomParam="codeprofmes"> + <choix code="1" nom="profmes"/> + <choix code="2" nom="profsol"/> + </option> + <option choix="1" nom="Climatic series" nomParam="codeinitprec"> + <choix code="1" nom="reset"/> + <choix code="2" nom="succession"/> + </option> + <option choix="1" nom="Biomass and yield conservation after harvest" nomParam="codemsfinal"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Take account of mulch effect (drying out of soil surface)" nomParam="codeactimulch"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Fruit load" nomParam="codefrmur"> + <choix code="1" nom="all fruits (including ripe ones)"/> + <choix code="2" nom="growing fruits only"/> + </option> + <option choix="1" nom="Hourly microclimate" nomParam="codemicheur"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Scientific writing in st2 and report" nomParam="codeoutscient"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Separator spaces in report" nomParam="codeseprapport"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"> + <param format="character" nom="separateurrapport">;</param> + </choix> + </option> + <option choix="2" nom="Activation of model sensitivity analysis" nomParam="codesensibilite"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="2" nom="Snow activation" nomParam="codesnow"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <param format="integer" max="511" min="0" nom="flagecriture">31</param> + </formalisme> + <formalisme nom="Radiation interception"> + <param format="real" max="0.6" min="0.4" nom="parsurrg">0.48000</param> + </formalisme> + <formalisme nom="Shoot growth"> + <param format="real" max="0.15" min="0.05" nom="coefb">0.08150</param> + <param format="real" max="0.5" min="0.05" nom="proprac">0.20000</param> + <param format="real" max="5.0" min="0.0" nom="y0msrac">0.70000</param> + </formalisme> + <formalisme nom="Root growth"> + <param format="real" max="1.4" min="0.0010" nom="dacohes">0.70000</param> + <param format="real" max="1.4" min="1.0" nom="daseuilbas">1.40000</param> + <param format="real" max="2.5" min="1.4" nom="daseuilhaut">2.00000</param> + </formalisme> + <formalisme nom="Water absorption and nitrogen content of the plant"> + <param format="real" max="2.0" min="1.0" nom="beta">1.40000</param> + <param format="real" max="1.0" min="0.2" nom="lvopt">0.50000</param> + <param format="real" max="0.1" min="0.01" nom="difN">0.04500</param> + <param format="real" max="30.0" min="5.0" nom="plNmin">10.00000</param> + <param format="real" max="50.0" min="0.0" nom="irrlev">20.00000</param> + <param format="real" max="50.0" min="0.0" nom="QNpltminINN">0.00000</param> + <option choix="2" nom="Nitrogen fixation by legumes" nomParam="codesymbiose"> + <choix code="1" nom="critical nitrogen"/> + <choix code="2" nom="nodule activity"> + <option choix="2" nom="mineral nitrogen inhibition" nomParam="codefxn"> + <choix code="1" nom="no effect"/> + <choix code="2" nom="nitrogen amount"/> + <choix code="3" nom="nitrogen concentration"/> + </option> + </choix> + </option> + </formalisme> + <formalisme nom="Soil C and N processes and fertiliser losses"> + <param format="real" max="0.5" min="0.05" nom="tmin_mineralisation">0.0</param> + <param format="real" max="0.5" min="0.05" nom="FTEMh">0.12000</param> + <param format="real" max="50.0" min="10.0" nom="FTEMha">25.00000</param> + <param format="real" max="20.0" min="-10.0" nom="TREFh">15.00000</param> + <param format="real" max="0.5" min="0.05" nom="FTEMr">0.10300</param> + <param format="real" max="30.0" min="5.0" nom="FTEMra">12.00000</param> + <param format="real" max="20.0" min="-10.0" nom="TREFr">15.00000</param> + <param format="real" max="1.0" min="0.0" nom="GMIN1">0.0007</param> + <param format="real" max="1.0" min="0.0" nom="GMIN2">0.02519</param> + <param format="real" max="1.0" min="0.0" nom="GMIN3">0.015</param> + <param format="real" max="1.0" min="0.0" nom="GMIN4">0.11200</param> + <param format="real" max="11.0" min="3.0" nom="GMIN5">8.50000</param> + <param format="real" max="1.0" min="0.0" nom="GMIN6">0.06000</param> + <param format="real" max="35.0" min="5.0" nom="GMIN7">11.00000</param> + <param format="real" max="0.14" min="0.05" nom="Wh">0.10500</param> + <param format="real" max="6.0" min="3.0" nom="pHminvol">5.50000</param> + <param format="real" max="9.0" min="6.0" nom="pHmaxvol">8.50000</param> + <param format="real" max="5.0" min="0.5" nom="Vabs2">2.00000</param> + <param format="real" max="500.0" min="100.0" nom="Xorgmax">400.00000</param> + <param format="real" max="1.0" min="0.1" nom="hminm">0.25000</param> + <param format="real" max="1.0" min="0.1" nom="hoptm">0.90000</param> + <param format="real" max="0.02" min="0.0010" nom="alphaph">0.00500</param> + <param format="real" max="3.0" min="0.0" nom="dphvolmax">1.00000</param> + <param format="real" max="9.0" min="5.0" nom="phvols">8.60000</param> + <param format="real" max="1.0" min="0.0" nom="fhminsat">0.50000</param> + <param format="real" max="1.0" min="0.1" nom="fredkN">0.25000</param> + <param format="real" max="1.0" min="0.2" nom="fredlN">0.50000</param> + <param format="real" max="0.1" min="0.01" nom="fNCbiomin">0.04000</param> + <param format="real" max="1.0" min="0.0" nom="fredNsup">0.50000</param> + <param format="real" max="5.0" min="1.0" nom="Primingmax">3.00000</param> + </formalisme> + <formalisme nom="Nitrification, denitrification and associated N2O emissions"> + <param format="real" max="1.0" min="0.1" nom="hminn">0.30</param> + <param format="real" max="1.0" min="0.1" nom="hoptn">0.90</param> + <param format="real" max="6.0" min="3.0" nom="pHminnit">4</param> + <param format="real" max="9.0" min="5.0" nom="pHmaxnit">7.2</param> + <param format="real" max="20.0" min="0.0" nom="nh4_min">1.0</param> + <param format="real" max="6.5" min="3.0" nom="pHminden">5.6</param> + <param format="real" max="10.0" min="6.0" nom="pHmaxden">9.2</param> + <param format="real" max="1.0" min="0.3" nom="wfpsc">0.62</param> + <param format="real" max="60.0" min="0.0" nom="tdenitopt_gauss">47</param> + <param format="real" max="40.0" min="10.0" nom="scale_tdenitopt">25</param> + <param format="real" max="500.0" min="10.0" nom="Kd">148</param> + <param format="real" max="20.0" min="1.0" nom="kdesat">3.0</param> + <option choix="1" nom="Nitrification rate dependence on NH4" nomParam="code_vnit"> + <choix code="1" nom="Linear"> + <param format="real" max="1.0" min="0.1" nom="fnx">0.80</param> + </choix> + <choix code="2" nom="Michaelis_Menten"> + <param format="real" max="100.0" min="0.0" nom="vnitmax">27.3</param> + <param format="real" max="300.0" min="1.0" nom="Kamm">24</param> + </choix> + </option> + <option choix="2" nom="Temperature function for nitrification " nomParam="code_tnit"> + <choix code="1" nom="piecewise linear"> + <param format="real" max="20.0" min="-10.0" nom="tnitmin">5.0</param> + <param format="real" max="40.0" min="10.0" nom="tnitopt">30.0</param> + <param format="real" max="45.0" min="20.0" nom="tnitopt2">35.0</param> + <param format="real" max="50.0" min="30.0" nom="tnitmax">58.0</param> + </choix> + <choix code="2" nom="Gaussian"> + <param format="real" max="50.0" min="0.0" nom="tnitopt_gauss">32.5</param> + <param format="real" max="30.0" min="5.0" nom="scale_tnitopt">16.0</param> + </choix> + </option> + <option choix="2" nom="Nitrification N20 ratio " nomParam="code_rationit"> + <choix code="1" nom="constant"> + <param format="real" max="0.05" min="0.0" nom="rationit">0.0016</param> + </choix> + <choix code="2" nom="variable"/> + </option> + <option choix="1" nom="Hourly WFPS calculation for nitrification" nomParam="code_hourly_wfps_nit"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + <option choix="1" nom="Denitrification potential" nomParam="code_pdenit"> + <choix code="1" nom="Soil parameter"> + </choix> + <choix code="2" nom="Soil carbon dependent"> + <param format="real" max="3.0" min="0.0" nom="cmin_pdenit">1.0</param> + <param format="real" max="40.0" min="3.0" nom="cmax_pdenit">6.0</param> + <param format="real" max="2.0" min="0.0" nom="min_pdenit">1.0</param> + <param format="real" max="100.0" min="0.0" nom="max_pdenit">20.0</param> + </choix> + </option> + <option choix="2" nom="Denitrification N20 ratio " nomParam="code_ratiodenit"> + <choix code="1" nom="constant"> + <param format="real" max="1.0" min="0.0" nom="ratiodenit">0.20</param> + </choix> + <choix code="2" nom="variable"/> + </option> + <option choix="1" nom="Hourly WFPS calculation for denitrification" nomParam="code_hourly_wfps_denit"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Soil hydrology and compaction"> + <param format="real" max="50.0" min="2.0" nom="pminruis">5.00000</param> + <param format="real" max="0.01" min="0.0010" nom="diftherm">0.00537</param> + <param format="real" max="1.0" min="0.0" nom="bformnappe">0.77000</param> + <param format="real" max="100.0" min="1.0" nom="rdrain">1.00000</param> + <param format="real" max="-0.1" min="-5.0" nom="psihumin">-1.50000</param> + <param format="real" max="-0.1" min="-5.0" nom="psihucc">-0.03000</param> + <param format="real" max="1.8" min="0.8" nom="prophumtasssem">1.20000</param> + <param format="real" max="1.8" min="0.8" nom="prophumtassrec">1.00000</param> + <option choix="1" nom="calculation of groundwater if drainage" nomParam="codhnappe"> + <choix code="1" nom="average"/> + <choix code="2" nom="interdrain localisation"> + <param format="real" max="25000.0" min="0.0" nom="distdrain">1000.00</param> + </choix> + </option> + </formalisme> + <formalisme nom="Soil tillage if soil compaction activated"> + <param format="real" max="100.0" min="0.0" nom="proflabour">30.0</param> + <param format="real" max="100.0" min="0.0" 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nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + <choix code="21" nom="Dead roots in soil"> + <param format="real" max="1.0" min="0.0" nom="CroCo">1.00000</param> + <param format="real" max="1000.0" min="0.0" nom="akres">0.030000</param> + <param format="real" max="1000.0" min="-5.0" nom="bkres">1.13000</param> + <param format="real" max="500.0" min="0.0" nom="awb">15.20000</param> + <param format="real" max="0.0" min="-2500.0" nom="bwb">-80.00000</param> + <param format="real" max="60.0" min="5.0" nom="cwb">7.80000</param> + <param format="real" max="500.0" min="0.0" nom="ahres">0.91000</param> + <param format="real" max="10000.0" min="0.0" nom="bhres">25.90000</param> + <param format="real" max="250.0" min="0.0" nom="kbio">0.007600</param> + <param format="real" max="0.7" min="0.3" nom="yres">0.62000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmin">8.00000</param> + <param format="real" max="200.0" min="3.0" nom="CNresmax">100.00000</param> + <param format="real" max="5.0" min="0.0" nom="qmulchruis0">0.00000</param> + <param format="real" max="5.0" min="0.05" nom="mouillabilmulch">0.00000</param> + <param format="real" max="150.0" min="0.0" nom="kcouvmlch">0.00000</param> + <param format="real" max="0.8" min="0.05" nom="albedomulchresidus">0.00000</param> + <param format="real" max="5.0" min="0.0" nom="Qmulchdec">0.00000</param> + </choix> + </option> + </formalisme> +</fichierpar>
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/param_newform.xml Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,87 @@ +<?xml version="1.0" encoding="UTF-8" standalone="no"?> +<fichierparamgen version="10.0"> + <formalisme nom="Specificities of Quinoa"> + <option choix="2" nom="Option to replace rainfall by irrigation at hole depth in the case of hole sowing" nomParam="codepluiepoquet"> + <choix code="1" nom="yes"> + <param format="integer" max="0" min="0" nom="nbjoursrrversirrig">15</param> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Fertilisation driving"> + <option choix="2" nom="automatic calculation of fertilisation" nomParam="codecalferti"> + <choix code="1" nom="yes"> + <param format="real" max="1.0" min="0.2" nom="ratiolN">0.00000</param> + <param format="real" max="500.0" min="5.0" nom="dosimxN">40.00000</param> + <option choix="1" nom="automatic N fertilisation (1 = based on rainfall, 2 = based on soil water content)" nomParam="codetesthumN"> + <choix code="1" nom="minimum rainfall threshold"/> + <choix code="2" nom="soil moisture threshold"/> + </option> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Residues decomposition"> + <option choix="2" nom="Limitation of N availability for residues decomposition in soil" nomParam="codeNmindec"> + <choix code="1" nom="yes"> + <param format="real" max="1.0" min="0.0" nom="rapNmindec">0.00100</param> + <param format="real" max="1.0" min="0.0" nom="fNmindecmin">0.10000</param> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="coupling with pathogen models"> + <option choix="1" nom="calculation of hourly dew temperature" nomParam="codetrosee"> + <choix code="1" nom="linear interpolation(actual calculation)"/> + <choix code="2" nom="sinusoidal interpolation (Debele Bekele et al.,2007)"/> + </option> + <option choix="2" nom="calculation of surface wetness duration" nomParam="codeSWDRH"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="option for pasture "> + <option choix="1" nom="activation of pasture" nomParam="option_pature"> + <choix code="1" nom="yes"> + <param format="integer" max="1" min="10" nom="coderes_pature">8</param> + <param format="real" max="0" min="1" nom="pertes_restit_ext">0.2</param> + <param format="real" max="0" min="20.0" nom="Crespc_pature">7.4</param> + <param format="real" max="0" min="1.0" nom="Nminres_pature">0.45</param> + <param format="real" max="0" min="100.0" nom="eaures_pature">87.0</param> + <param format="real" max="1" min="10.0" nom="coef_calcul_qres">7.53</param> + <param format="integer" max="1" min="10" nom="engrais_pature">3</param> + <param format="real" max="1" min="30.0" nom="coef_calcul_doseN">16.25</param> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Mineralization models"> + <option choix="2" nom="CsurNsol dynamic" nomParam="code_CsurNsol_dynamic"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="New Roots"> + <param format="integer" max="1.0" min="0.0" nom="humirac">1</param> + </formalisme> + <formalisme nom="ISOP"> + <option choix="2" nom="activation of ISOP equations" nomParam="code_ISOP"> + <choix code="1" nom="yes"> + <option choix="2" nom="activation of legume fixation in grassland" nomParam="code_pct_legume"> + <choix code="1" nom="yes"> + <param format="real" max="1.0" min="0.0" nom="pct_legum">0.5</param> + </choix> + <choix code="2" nom="no"/> + </option> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Simulation of residual biomass senescence"> + <option choix="1" nom="new calculations for residual biomass" nomParam="code_residual_biom_sen"> + <choix code="1" nom="Yes"/> + <choix code="2" nom="No"/> + </option> + </formalisme> +</fichierparamgen> +
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/param_newformpour_stics_modulo.xml Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,81 @@ +<?xml version="1.0" encoding="UTF-8" standalone="no"?> +<fichierparamgen version="10.0"> + <formalisme nom="Specificities of Quinoa"> + <option choix="2" nom="Option to replace rainfall by irrigation at hole depth in the case of hole sowing" nomParam="codepluiepoquet"> + <choix code="1" nom="yes"> + <param format="integer" max="0" min="0" nom="nbjoursrrversirrig">15</param> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Fertilisation driving"> + <option choix="2" nom="automatic calculation of fertilisation" nomParam="codecalferti"> + <choix code="1" nom="yes"> + <param format="real" max="1.0" min="0.2" nom="ratiolN">0.00000</param> + <param format="real" max="500.0" min="5.0" nom="dosimxN">40.00000</param> + <option choix="1" nom="automatic N fertilisation (1 = based on rainfall, 2 = based on soil water content)" nomParam="codetesthumN"> + <choix code="1" nom="minimum rainfall threshold"/> + <choix code="2" nom="soil moisture threshold"/> + </option> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Residues decomposition"> + <option choix="2" nom="Limitation of N availability for residues decomposition in soil" nomParam="codeNmindec"> + <choix code="1" nom="yes"> + <param format="real" max="1.0" min="0.0" nom="rapNmindec">0.00100</param> + <param format="real" max="1.0" min="0.0" nom="fNmindecmin">0.10000</param> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="coupling with pathogen models"> + <option choix="1" nom="calculation of hourly dew temperature" nomParam="codetrosee"> + <choix code="1" nom="linear interpolation(actual calculation)"/> + <choix code="2" nom="sinusoidal interpolation (Debele Bekele et al.,2007)"/> + </option> + <option choix="2" nom="calculation of surface wetness duration" nomParam="codeSWDRH"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="option for pasture "> + <option choix="1" nom="activation of pasture" nomParam="option_pature"> + <choix code="1" nom="yes"> + <param format="integer" max="1" min="10" nom="coderes_pature">8</param> + <param format="real" max="0" min="1" nom="pertes_restit_ext">0.2</param> + <param format="real" max="0" min="20.0" nom="Crespc_pature">7.4</param> + <param format="real" max="0" min="1.0" nom="Nminres_pature">0.45</param> + <param format="real" max="0" min="100.0" nom="eaures_pature">87.0</param> + <param format="real" max="1" min="10.0" nom="coef_calcul_qres">7.53</param> + <param format="integer" max="1" min="10" nom="engrais_pature">3</param> + <param format="real" max="1" min="30.0" nom="coef_calcul_doseN">16.25</param> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="Mineralization models"> + <option choix="2" nom="CsurNsol dynamic" nomParam="code_CsurNsol_dynamic"> + <choix code="1" nom="yes"/> + <choix code="2" nom="no"/> + </option> + </formalisme> + <formalisme nom="New Roots"> + <param format="integer" max="1.0" min="0.0" nom="humirac">1</param> + </formalisme> + <formalisme nom="ISOP"> + <option choix="2" nom="activation of ISOP equations" nomParam="code_ISOP"> + <choix code="1" nom="yes"> + <option choix="2" nom="activation of legume fixation in grassland" nomParam="code_pct_legume"> + <choix code="1" nom="yes"> + <param format="real" max="1.0" min="0.0" nom="pct_legum">0.5</param> + </choix> + <choix code="2" nom="no"/> + </option> + </choix> + <choix code="2" nom="no"/> + </option> + </formalisme> +</fichierparamgen> +
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/preferences.xml Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,8 @@ +<?xml version="1.0" encoding="UTF-8"?> +<!DOCTYPE properties SYSTEM "http://java.sun.com/dtd/properties.dtd"> +<properties> +<comment>Javastics user preferences</comment> +<entry key="model.list">{modulostics stics_modulo.exe},</entry> +<entry key="model.last">modulostics</entry> +<entry key="workingDirectory.current">C:\Users\klefloch\Documents\REDELAC\e3-et-e4\simulations_STICS\JavaSTICS-1.5.1-STICS-10.0.0\rot8.1b</entry> +</properties>
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/prof.mod Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,4 @@ +2 +Chum +10 +01 01 2000
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/profil.csv Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,17 @@ +tsol(iz) ;profile of soil temperature;degrees.C;? +hur(iz) ;soil water content;mm.cm-1;? +husup_by_cm;water drainage under each layer of 1 cm;mm;? +lracz(iz) ;efficient root density profile;cm.cm-3sol;? +rl(n,iz) ;length of roots;cm.cm-2sol;? +nit(iz) ;profile of soil nitrates;KgN.ha-1;? +humirac_z ;soil dryness on the roots;0-1 ;? +efnrac_z ;effect of mineral nitrogen on the roots;0-1;? +Chum; Quantity of C in humus in each layer; Kg.ha-1;? +Nhum; Quantity of N in humus in each layer; KgN.ha-1;? +C_allresidues; total amount of C for all residues by layer; kg.ha-1;? +N_allresidues; total amount of N for all residues by layer; kgN.ha-1;? +rlg(n,iz) ;length of fine roots;cm.cm-2sol;? +rlf(n,iz) ;length of coarse roots;cm.cm-2sol;? +msrac;biomass of roots;t.ha-1;? +%rlf;percentage of fine roots ;%; +%rl;percentage of root length in relation to total length;%;
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/rap.mod Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,110 @@ +1 +1 +2 +1 +fin +iplts +ilevs +iamfs +iflos +idrps +ilaxs +ilans +imats +irecs +laimax +masec(n) +masecnp +masecveg +mafruit +chargefruit +p1000grain +mafauchetot +QNfauchetot +rendementsec +qexport +HI_C +HI_N +QNplantenp +QNplante +CNplante +QNveg +QNgrain +CNgrain +QNabso +QNexport +swfac1moy +swfac2moy +turfac1moy +turfac2moy +inn1moy +inn2moy +zrac +msrac(n) +QCrac +QNrac +msracmort +QCracmort +QNracmort +zracmax +maperenne +QNperenne +maperennemort +QCperennemort +QNperennemort +resmes +azomes +ammomes +SMNmes +SoilN +cpluie +totir +cestout +ces +cep +cintermulch +drat +QCapp +QNapp +QCresorg +QNresorg +mafeuiltombe +QCplantetombe +QNplantetombe +Qressuite +QCressuite +QNressuite +totapN +precipN +Qfixtot +Qles +concNO3les +QNvoleng +QNvolorg +N_volatilisation +QNorgeng +QNdenit +Qem_N2O +Qem_N2Onit +Qem_N2Oden +Qminh +Qminr +QCO2sol +QCO2hum +QCO2res +QCO2mul +SOC +SON +Chuma +Chumt +Nhuma +Nhumt +Cb +Nb +Cr +Nr +qmulch +Cmulch +Nmulch +Cbmulch +Nbmulch \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/var - Copie.mod Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,37 @@ +numcult +iplts +lai(n) +dltams(n) +masec(n) +mafrais +numcoupe +day_cut +mafauche +mafauchetot +irecs +H2Orec +mafruit +CNgrain +QNgrain +CNplante +QNplante +resmes +cestout +cpreciptout +azomes +Qles +tustress +inn +innlai +inns +turfac +swfac +N_mineralisation +Qem_N2O +QCO2sol +DSOC +SOC +SON +DSOCtot +SOCtot +GHG \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/var.def Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,45 @@ +lai(n) +masec(n) +mafruit +HR(1) +HR(2) +HR(3) +HR(4) +HR(5) +resmes +drain +esol +et +zrac +tcult +AZnit(1) +AZnit(2) +AZnit(3) +AZnit(4) +AZnit(5) +Qles +QNplante +azomes +inn +chargefruit +AZamm(1) +AZamm(2) +AZamm(3) +AZamm(4) +AZamm(5) +CNgrain +concNO3les +drat +fapar +hauteur +Hmax +humidite +LRACH(1) +LRACH(2) +LRACH(3) +LRACH(4) +LRACH(5) +mafrais +pdsfruitfrais +Qdrain +rnet
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/var.mod Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,42 @@ +numcult +iplts +lai(n) +dltams(n) +masec(n) +mafrais +numcoupe +day_cut +mafauche +mafauchetot +irecs +H2Orec +mafruit +CNgrain +QNgrain +CNplante +QNplante +resmes +cestout +cpreciptout +azomes +Qles +tustress +inn +innlai +inns +turfac +swfac +N_mineralisation +Qem_N2O +QCO2sol +DSOC +SOC +SON +DSOCtot +SOCtot +cpluie +totir +ruisselsurf +anit_uree(n) +qres_pature +totapN \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/var_par_defaut.mod Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,69 @@ +lai(n) +masec(n) +mafruit +HR(1) +HR(2) +HR(3) +HR(4) +HR(5) +resmes +drain +esol +et +zrac +tcult +AZnit(1) +AZnit(2) +AZnit(3) +AZnit(4) +AZnit(5) +Qles +QNplante +azomes +chargefruit +AZamm(1) +AZamm(2) +AZamm(3) +AZamm(4) +AZamm(5) +CNgrain +concNO3les +drat +fapar +hauteur +Hmax +humidite +LRACH(1) +LRACH(2) +LRACH(3) +LRACH(4) +LRACH(5) +mafrais +pdsfruitfrais +Qdrain +rnet +QNgrain +psibase +mabois +H2Orec +mafeuiljaune +mafeuilverte +humirac_mean +tempeff +deltai(n) +ulai(n) +tustress +efdensite +densite +exolai +dltams(n) +remobilj +exofac +exobiom +inn +innlai +inns +turfac +swfac +Qminh +Qminr
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/config/var_redelac_tout.mod Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,86 @@ +numcult +iplts +ulai(n) +deltai(n) +lai(n) +dltams(n) +masec(n) +mafrais +mafeuilverte +mafeuiljaune +age_prairie +numcoupe +day_cut +mafauche +mafauchetot +irecs +H2Orec +mafruit +chargefruit +pdsfruitfrais +CNgrain +QNgrain +CNplante +QNplante +msrac(n) +msracmort +zrac +LRACH(1) +LRACH(2) +LRACH(3) +LRACH(4) +LRACH(5) +humirac_mean +HR(1) +HR(2) +HR(3) +HR(4) +HR(5) +resmes +drain +drat +esol +et +cestout +cpreciptout +AZnit(1) +AZnit(2) +AZnit(3) +AZnit(4) +AZnit(5) +AZamm(1) +AZamm(2) +AZamm(3) +AZamm(4) +AZamm(5) +azomes +Qles +concNO3les +tcult +tempeff +tustress +densite +efdensite +exolai +exofac +exobiom +inn +innlai +inns +turfac +swfac +Qminh +Qminr +N_mineralisation +Qem_N2Oden +Qem_N2Onit +Qem_N2O +QCO2hum +QCO2res +QCO2sol +DSOC +SOC +SON +DSOCtot +SOCtot +GHG \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/redelacSticsInputGenerator.R Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,52 @@ +library(SticsRFiles) +library(dplyr) + +workspace <- paste0(getwd(), "/WS") +javastics_path <- getwd() + +txt_path <- paste0(getwd(), "/WS/txt_files") +dir.create(txt_path,recursive = T) + +gen_usms_xml2txt(javastics = javastics_path, + workspace = workspace, + out_dir = txt_path, + check = FALSE) + +USMsFile <- "USMs.csv" +TecFile <- "Tec.csv" +IniFile <- "Ini.csv" +StationFile <- "Station.csv" + +# Generate STICS xml files------------------------------------------------------------------------------ + +# USMs file +usms_param <- read_params_table(file.path(workspace, USMsFile)) %>% + select(usm_name,datedebut,datefin,finit,nomsol,fstation,fclim1,fclim2,culturean,nbplantes,codesimul,fplt_1,ftec_1,flai_1,fplt_2,ftec_2,flai_2) +gen_usms_xml(file = file.path(workspace, "usms.xml"), param_df = usms_param) + +# Tec files +tec_param <- read_params_table(file.path(workspace, TecFile)) +gen_tec_xml(param_table = tec_param, out_path = workspace) + +# Ini files +ini_param <- read_params_table(file.path(workspace, IniFile)) +gen_ini_xml(param_df = ini_param, out_dir = workspace) + +# Sta files +sta_param <- read_params_table(file.path(workspace, StationFile)) +gen_sta_xml(param_df = sta_param, out_dir = workspace) + +# Generate STICS txt files------------------------------------------------------------------------------ +# List of USMs +list_usms <- SticsRFiles::get_usms_list(file = file.path(workspace,"usms.xml")) + +### Generate txt files into individual folders + +# generate text files +gen_usms_xml2txt(javastics = javastics_path, + workspace = workspace, + out_dir = txt_path, + verbose = TRUE, + usm = list_usms, + check=FALSE) #je mets l'option a FALSE car sinon j'ai soit disant des fichiers climatiques manquants du type 14050.198,14050.199,14050.2 (pas de lecture des z?ros) + \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/redelacSticsInputGenerator.xml Wed Jun 07 06:08:27 2023 +0000 @@ -0,0 +1,59 @@ +<tool id="redelacSticsInputGenerator" name="redelacSticsInputGenerator" version="1.0.0"> + <description>to run generate Stics Inputs for REDELAC</description> + <requirements> + <container type="singularity">docker://registry.forgemia.inra.fr/quaysofthestics/sticsquays/rstudio_stics:10.0.0</container> + </requirements> + <command detect_errors="aggressive"> + <![CDATA[ + cp -r /home/rstudio/JavaSTICS-1.5.1-STICS-10.0.0/JavaSTICS-1.5.1-STICS-10.0.0 . && + rm -rf JavaSTICS-1.5.1-STICS-10.0.0/config && + cp -r $__tool_directory__/config JavaSTICS-1.5.1-STICS-10.0.0 && + unzip ${Workspace} -d TMP && + export WSname=\$(ls TMP) && + mv TMP/* JavaSTICS-1.5.1-STICS-10.0.0/WS && + unzip ${Climat} -d TMPbis && + mv TMPbis/*/* JavaSTICS-1.5.1-STICS-10.0.0/WS && + cp ${USMs} JavaSTICS-1.5.1-STICS-10.0.0/WS/USMs.csv && + cp ${Tec} JavaSTICS-1.5.1-STICS-10.0.0/WS/Tec.csv && + cp ${Ini} JavaSTICS-1.5.1-STICS-10.0.0/WS/Ini.csv && + cp ${Station} JavaSTICS-1.5.1-STICS-10.0.0/WS/Station.csv && + cd JavaSTICS-1.5.1-STICS-10.0.0 && + Rscript --verbose $__tool_directory__/redelacSticsInputGenerator.R && + rm WS/1* && + mv WS \$WSname && + zip -r \$WSname \$WSname && + cp \$WSname.zip ${GeneratedWorkspace} + ]]> + </command> + <inputs> + <param name="Workspace" type="data" format="zip" label="Select a stics Workspace (zip file)"/> + <param name="Climat" type="data" format="zip" label="Select a climat scenario (zip file)"/> + <param name="USMs" type="data" format="csv" label="Select the USMs sheet (csv)"/> + <param name="Tec" type="data" format="csv" label="Select the Tec sheet (csv)"/> + <param name="Ini" type="data" format="csv" label="Select the Ini sheet (csv)"/> + <param name="Station" type="data" format="csv" label="Select the Station sheet (csv)"/> + </inputs> + <outputs> + <data format="zip" name="GeneratedWorkspace" + label="Stics generated Workspace"> + </data> + </outputs> + <tests> + </tests> + <help> +*The usage of this tool is restricted to the user of the stics_authorized group.* + +*To be granted, apply to the Project Stics Team and then request to SIWAA* + +Documentation +------------- +A tool to generate Stics Inputs according to a plan for REDELAC + +Credits +------- +- Wrapped Tool Author: https://www6.paca.inrae.fr/stics_eng/About-us/Project-Stics-Team +- Stics Site: https://www6.paca.inra.fr/stics_eng +- Galaxy Tool Maintainer: Patrick Chabrier patrick.chabrier@inrae.fr +- Copyright: INRAE + </help> +</tool>