Author
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SIMS, GERALD |
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CUPPLES, ALISON - UNIV OF ILLINOIS |
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Submitted to: International Congress of Pesticide Chemistry Abstracts
Publication Type: Abstract Only Publication Acceptance Date: 3/4/1998 Publication Date: N/A Citation: N/A Interpretive Summary: Technical Abstract: Rates of pesticide degradation in soil exhibit a high degree of variability, the sources of which are usually unclear. Combining data from incubations performed using a range of soil properties and environmental conditions has resulted in greater understanding of factors controlling pesticide degradation in soil. The herbicides clomazone, flumetsulam, atrazine, and cloransulam-methyl, as well as the former insecticide naphthalene offer examples of degradation kinetics controlled by coupling competing processes which may in turn be regulated separately by environmental conditions and soil properties. The processes of degradation and volatilization appear to compete for clomazone in solution; sorbed clomazone is degraded only after the solution phase is depleted. Similarly, volatilization of naphthalene is enhanced when degradation has been inhibited by high nutrient levels. Degradation of the herbicide flumetsulam has been shown to be regulated by sorption, even though the compound has a relatively low affinity for the soil. The fate pathway for cloransulam-methyl shifts from mineralization to formation of metabolites, bound residues and physically occluded material as temperature increases. Atrazine degradation in soil may be controlled in part by the presence of inorganic N, as the herbicide appears to be used as an N source by microorganisms. New insight gained from measurement of multiple fate processes is demonstrated by these examples. |
