BIBLIOGRAPHIE


               [Qiu et al., 2009] Qiu, Y., Pang, H., Zhou, Z., Zhang, P., Feng, Y., & Sheng, G. D.
                  (2009). Competitive biodegradation of dichlobenil and atrazine coexisting in soil
                  amended with a char and citrate. Environmental Pollution, 157(11), 2964–2969.
               [Queyrel et al., 2013] Queyrel, W., Habets, F., Blanchoud, H., Launay, M., & Ri-
                  poche, D. (2013). Integration of a pesticide fate module in the crop model
                  STICS : evaluation on three experimental sites (submitted).
               [Rabiet et al., 2010] Rabiet, M., Margoum, C., Gouy, V., Carluer, N., & Coquery,
                  M. (2010). Assessing pesticide concentrations and fluxes in the stream of a small
                  vineyard catchment – effect of sampling frequency. Environmental Pollution,
                  158(3), 737–748.

               [Racke & Lichtenstein, 1985] Racke, K. D. & Lichtenstein, E. P. (1985). Effects of
                  agricultural practices on the binding and fate of 14C-parathion in soil. Journal
                  of Environmental Science and Health, Part B, 22(1), 1–14.

               [Rat, 2007] Rat, A. (2007). Transfert de produits phytosanitaires vers les eaux
                  souterraines, modélisation à l’échelle d’un bassin versant (Cas d’étude du bassin
                  amont de la Vesle). PhD thesis, Ecole Nationale Supérieure des Mines de Paris,
                  Paris.
               [Rat et al., 2006a] Rat, A., Ledoux, E., & Viennot, P. (2006a). Transferts de pes-
                  ticides vers les eaux souterraines, modélisation à l’échelle d’un bassin versant
                  (Cas d’étude du bassin amont de la Vesle). PIREN, ENSMP.

               [Rat et al., 2006b] Rat, A., Mercier, P., & Ledoux, E. (2006b). Modelisation des
                  transferts de pesticides vers les eaux souterraines (Application au devenir de
                  l’atrazine). Rapport piren seine, ENSMP.
               [Regitano et al., 2006] Regitano, J. B., Koskinen, W. C., & Sadowsky, M. J.

                  (2006). Influence of soil aging on sorption and bioavailability of simazine. Jour-
                  nal of Agricultural and Food Chemistry, 54(4), 1373–1379.
               [Rekolainen et al., 2000] Rekolainen, S., Gouy, V., Francaviglia, R., Eklo, O.-M.,
                  & Bärlund, I. (2000). Simulation of soil water, bromide and pesticide beha-
                  viour in soil with the GLEAMS model. Agricultural Water Management, 44(1),
                  201–224.

               [Renaud et al., 2004] Renaud, F., Brown, C., Fryer, C., & Walker, A. (2004). A
                  lysimeter experiment to investigate temporal changes in the availability of pes-
                  ticide residues for leaching. Environmental Pollution, 131(1), 81–91.
               [Riffard et al., 2002] Riffard, M., Augeard, B., Kao, C., Andreassian, V., Ansart,

                  P., & Chaumont, C. (2002). Synthese des recherches effectuees sur le bassin
                  versant de l’Orgeval affluent du Grand Morin sur la thematique ruissellement
                  erosion. Rapport d’étude, IRSTEA, Antony.
               [Ritchie, 1972] Ritchie, J. T. (1972). Model for predicting evaporation from a row
                  crop with incomplete cover. Water Resources Research, 8(5), 1204–1213.




               256