BIBLIOGRAPHIE


               [Trépos et al., 2012] Trépos, R., Masson, V., Cordier, M.-O., Gascuel-Odoux, C.,
                  & Salmon-Monviola, J. (2012). Mining simulation data by rule induction to de-

                  termine critical source areas of stream water pollution by herbicides. Multi-scale
                  water and land-use modelling for better decision making in agro-eco systems,
                  86(0), 75–88.
               [UIPP, 2012] UIPP (2012). Rapport d’activite 2011 2012 UIPP. Rapport d’acti-
                  vité.
               [Valocchi, 1985] Valocchi, A. J. (1985). Validity of the local equilibrium assump-

                  tion for modeling sorbing solute transport through homogeneous soils. Water
                  Resources Research, 21(6), 808–820.

               [Valé, 2006] Valé, M. (2006). Quantification et prédiction de la minéralisation
                  nette de l’azote in situ, sous divers pédoclimats et systèmes de culture français.
                  PhD thesis, INP ENSAT.
               [van Beinum et al., 2006] van Beinum, W., Beulke, S., Fryer, C., & Brown, C.
                  (2006). Lysimeter experiment to investigate the potential influence of diffusion-
                  limited sorption on pesticide availability for leaching. Journal of Agricultural
                  and Food Chemistry, 54(24), 9152–9159.

               [Van der Linden et al., 2003] Van der Linden, T., Tiktak, A., Boesten, J., & Krui-
                  jne, R. (2003). Comparison of geopearl with the single scenario approach in
                  pesticide registration. In PESTICIDE IN AIR, PLANT, SOIL & WATER SYS-
                  TEM (pp. 499–506). 27100 PAVIA : LA GOLIARDICA PAVESE.

               [Van Der Ploeg et al., 1995] Van Der Ploeg, R. R., Ringe, H., & Machulla, G.
                  (1995). Late fall site-specific soil nitrate upper limits for groundwater protection
                  purposes. Journal of environmental quality, 24(4), 725–733.
               [Van Eerd et al., 2003] Van Eerd, L. L., Hoagland, R. E., Zablotowicz, R. M., &

                  Hall, J. C. (2003). Pesticide metabolism in plants and microorganisms. Weed
                  Science, 51(4), 472–495.
               [van Genuchten et al., 2012] van Genuchten, Simunek, J., Van Genuchten, M. T.,
                  & Sejna, M. (2012). HYDRUS : MODEL USE, CALIBRATION, AND VALI-
                  DATION. Transactions of the ASABE, 55(4), 1261–1274.
               [Van Genuchten & Wagenet, 1989] Van Genuchten, M. T. & Wagenet, R. J.
                  (1989). Two-site/two-region models for pesticide transport and degradation :

                  Theoretical development and analytical solutions. Soil Science Society of Ame-
                  rica Journal, 53(5), 1303–1310.
               [Vanclooster & Boesten, 2000] Vanclooster, M. & Boesten, J. (2000). Application
                  of pesticide simulation models to the vredepeel dataset : I. water, solute and
                  heat transport. Agricultural Water Management, 44(1), 105–117.






                                                                                               261