Sorption and predicted mobility of herbicides in Baltic soils |
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Authors: | Ona Sakaliene Sharon K. Papiernik William C. Koskinen Kurt A. Spokas |
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Affiliation: | 1. Lithuanian Institute of Agriculture , Vilnius , Lithuania;2. United States Department of Agriculture-Agricultural Research Service , Morris , Minnesota;3. United States Department of Agriculture-Agricultural Research Service , St. Paul , Minnesota |
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Abstract: | This study was undertaken to determine sorption coefficients of eight herbicides (alachlor, amitrole, atrazine, simazine, dicamba, imazamox, imazethapyr, and pendimethalin) to seven agricultural soils from sites throughout Lithuania. The measured sorption coefficients were used to predict the susceptibility of these herbicides to leach to groundwater. Soil-water partitioning coefficients were measured in batch equilibrium studies using radiolabeled herbicides. In most soils, sorption followed the general trend pendimethalin > alachlor > atrazine~ amitrole~ simazine > imazethapyr > imazamox > dicamba, consistent with the trends in hydrophobicity (log Kow) except in the case of amitrole. For several herbicides, sorption coefficients and calculated retardation factors were lowest (predicted to be most susceptible to leaching) in a soil of intermediate organic carbon content and sand content. Calculated herbicide retardation factors were high for soils with high organic carbon contents. Estimated leaching times under saturated conditions, assuming no herbicide degradation and no preferential water flow, were more strongly affected by soil textural effects on predicted water flow than by herbicide sorption effects. All herbicides were predicted to be slowest to leach in soils with high clay and low sand contents, and fastest to leach in soils with high sand content and low organic matter content. Herbicide management is important to the continued increase in agricultural production and profitability in the Baltic region, and these results will be useful in identifying critical areas requiring improved management practices to reduce water contamination by pesticides. |
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Keywords: | Alachlor amitrole atrazine dicamba imazamox imazethapyr pendimethalin simazine adsorption |
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