BIBLIOGRAPHIE


               [Vanclooster et al., 2000] Vanclooster, M., Ducheyne, S., Dust, M., & Vereecken,

                  H. (2000). Evaluation of pesticide dynamics of the WAVE-model. Agricultural
                  Water Management, 44(1), 371–388.
               [Vazquez-Amabile et al., 2006] Vazquez-Amabile, G., Engel, B. A., & Flanagan,
                  D. C. (2006). Modeling and risk analysis of nonpoint-source pollution caused by

                  atrazine using SWAT. TRANSACTIONS-AMERICAN SOCIETY OF AGRI-
                  CULTURAL ENGINEERS, 49(3), 667.
               [Vieth & Sladek, 1965] Vieth, W. R. & Sladek, K. J. (1965). A model for diffusion
                  in a glassy polymer. Journal of Colloid Science, 20(9), 1014–1033.
               [Vink et al., 1997] Vink, J. P., Gottesbüren, B., Diekkrüger, B., & van der Zee,
                  S. E. (1997). Simulation and model comparison of unsaturated movement of
                  pesticides from a large clay lysimeter. Ecological modelling, 105(1), 113–127.
               [Vischetti et al., 2010] Vischetti, C., Corti, G., Monaci, E., Cocco, S., Coppola,
                  L., & Agnelli, A. (2010). Pesticide adsorption and degradation in fine earth and
                  rock fragments of two soils of different origin. Geoderma, 154(3-4), 348–352.
               [Von Oepen et al., 1991] Von Oepen, B., Kördel, W., & Klein, W. (1991). Sorp-
                  tion of nonpolar and polar compounds to soils : processes, measurements and
                  experience with the applicability of the modified OECD-Guideline 106. Che-
                  mosphere, 22(3), 285–304.
               [Walker et al., 2005] Walker, A., Rodriguez-Cruz, M., & Mitchell, M. (2005). In-
                  fluence of ageing of residues on the availability of herbicides for leaching. Envi-
                  ronmental Pollution, 133(1), 43–51.
               [Walker & Zimdahl, 1981] Walker, A. & Zimdahl, R. L. (1981). Simulation of the
                  persistence of atrazine, linuron and metolachlor in soil at different sites in the
                  USA. Weed Research, 21(6), 255–265.

               [Wang et al., 2000] Wang, M. H., Duru, J. O., Hjelmfelt, A. T., Ghidey, F.,
                  & Thompson, A. (2000).       Environmental modeling of a Claypan watershed
                  using HSPF, volume 8.       Gulph : Computational Hydraulics International.
                  WOS :000166736300011.
               [Wauchope et al., 2004] Wauchope, R. D., Rojas, K. W., Ahuja, L. R., Ma, Q.,
                  Malone, R. W., & Ma, L. (2004). Documenting the pesticide processes module
                  of the ARS RZWQM agroecosystem model. Pest Management Science, 60(3),
                  222–239.
               [Wauchope et al., 2002] Wauchope, R. D., Yeh, S., Linders, J., Kloskowski, R.,
                  Tanaka, K., Rubin, B., Katayama, A., Kördel, W., Gerstl, Z., Lane, M., & Uns-
                  worth, J. B. (2002). Pesticide soil sorption parameters : theory, measurement,
                  uses, limitations and reliability. Pest Management Science, 58(5), 419–445.






               262