#. Matrice and A. , 3 doses de surface sans enfouissement et 3 doses de surface avec enfouissement différé, 2009.

#. Matrice and B. , 3 doses correspondant à 3 profondeurs d'injection B <-data.frame(Dose=c(150

<. Ea, Cb=1:nrow(A)),Ua) for (i in 1:nrow(A)) {Ea

<. Eb, Cb=1:nrow(B)),Ub) for (i in 1:nrow(B)) {Eb[Eb$Cb==i

$. E_pedoclim, $. Statione_pedoclim, and . Site==, Fagnieres" names(NH3)<-c('Heure_meteo','FluxNH3','volatN0','volatN1','volat_totN0','volat_totN1', 'perte_apportN','AAtsol1','AAtsol2','AAtsol3', 'ANtsol1','ANtsol2','ANtsol3','AAs1','AAs2

. Perte_tan-[-i-]-<-perte_kgha, } if (E$Dose[i]==0) {Perte_kgha[i] <-0 ; Perte_TAN

<. Resultat, frame(E,Perte_kgha,Perte_TAN) write.table(Resultat

#. De-sorties, RESULTATS # S=Sélection de variables journalières *.st2 # RPR= reliquat N post-récolte S <-matrix(data=,nrow=nrow(E),ncol=2)

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