BIBLIOGRAPHY     247

            Upchurch, R. P., “The influence of soil–moisture content on the response of cotton to
              herbicides,” Weeds 5, 112–120 (1957).
            Vanier, C., D. Planas, and M. Sylvestre, “Empirical relationships between polychlori-
              nated biphenyls in sediments and submerged rooted macrophytes,” Can. Fish.
              Aquat. Sci. 56, 1792–1800 (1999).
            ———, “Equilibrium partition theory applied to PCBs in macrophytes,” Environ. Sci.
              Technol. 35, 4830–4833 (2001).
            van Laar, J. J., “Über Dampfspannungen von binären Gemischen,” Z. Phys. Chem. 72,
              723–751 (1910).
            ———,“Zur Theorie der Dampfspannungen von binären Gemischen,” Z. Phys. Chem.
              83, 599–609 (1913).
            Wade, P. I.,“Soil fumigation. I. The sorption of ethylene dibromide by soils,” J. Sci. Food
              Agric. 5, 184–192 (1954).
            Walker, A., “Availability of atrazine to plants in different soils,” Pestic. Sci. 3, 139–148
              (1972).
            Weber, W. J., Jr. and W. Huang, “A distributed reactivity model for sorption by soils
              and sediments. 4. Intraparticle heterogeneity and phase-distribution relationships
              under nonequilibrium conditions,” Environ. Sci. Technol. 30, 881–888 (1996).
            Weed, S. B. and J. B. Weber,“Pesticide-organic matter interactions,” In Pesticides in Soil
              and Water, W. D. Guenzi, Ed., Soil Science Society of America, Madison, WI, 1974,
              pp. 223–256.
            Weil, L., G. Duré, and K.-E. Quentin, “Wasserlöslichkeit von insektiziden chlorierten
              Kohlenwasserstoffen und polychlorierten Biphenylen im Hinblick auf eine
              Gewässerbelastung mit diesen Stoffen,” Z. Wasser Abwasser  Forsch. 7, 169–175
              (1974).
            Weissmahr, K. W., S. B. Haderlein, R. P. Schwarzenbach, R. Handy, and R. Nuesch, “In
              situ spectroscopic investigations of adsorption mechanisms of nitroaromatic com-
              pounds at clay minerals,” Environ. Sci. Technol. 31, 240–247 (1997).
            Wershaw, R. L., P. J. Burcar, and M. C. Glodberg,“Interaction of pesticides with natural
              organic material,” Environ. Sci. Technol. 3, 271–273 (1969).
            Westall, J. C., “Properties of organic compounds in relation to chemical binding.” In
              Biofilm Processes in Groundwater Research, Symposium, Proceedings Stockholm,
              Sweden, 1983, pp. 65–90.
            Whalen, J. W., “Adsorption on low-energy surfaces: Hexane and octane adsorption on
              polytetrafluoroethylene,” J. Colloid Interface Sci. 28: 443–448 (1968).
            Xia, G., “Sorption behavior of nonpolar organic chemicals on natural sorbents,” Ph.D.
              dissertation, Johns Hopkins University, Baltimore, 1998, p. 297.
            Xia, G. and W. P. Ball,“Adsorption-partition uptake of nine low-polarity organic chem-
              icals on a natural sorbent,” Environ. Sci. Technol. 33, 262–269 (1999).
            ———, “Polanyi-based models for the competitive sorption of low-polarity
              organic contaminants on a natural solid,” Environ. Sci. Technol. 34, 1246–1253
              (2000).
            Xing, B. and J. J. Pignatello, “Dual-mode sorption of low-polarity compounds in glassy
              poly(vinylchloride) and soil organic matter,” Environ. Sci. Technol. 31, 792–799
              (1997).