S
Scott R. Yates
Researcher at Agricultural Research Service
Publications - 139
Citations - 4981
Scott R. Yates is an academic researcher from Agricultural Research Service. The author has contributed to research in topics: Soil water & Loam. The author has an hindex of 37, co-authored 139 publications receiving 4626 citations. Previous affiliations of Scott R. Yates include University of California, Riverside.
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Modeling colloid attachment, straining, and exclusion in saturated porous media.
TL;DR: Numerical experiments indicated that increasing the colloid excluded volume of the pore space resulted in earlier breakthrough and higher peak effluent concentrations as a result of higher pore water velocities and lower residence times, respectively.
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Impact of fumigants on soil microbial communities.
A. Mark Ibekwe,Sharon K. Papiernik,Jianying Gan,Scott R. Yates,Ching-Hong Yang,David E. Crowley +5 more
TL;DR: MeBr has the greatest impact on soil microbial communities and that 1,3-D has the least impact, suggesting a high sensitivity of PLFA analysis and DGGE in monitoring the effects of fumigants on soil community composition and structure
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Emission of Pesticides into the Air
F. van den Berg,R. Kubiak,W. G. Benjey,M. S. Majewski,Scott R. Yates,G. L. Reeves,J.H. Smelt,A.M.A. van der Linden +7 more
TL;DR: In this article, the authors developed a model to predict the volatilization of pesticides from plants, which, again, should be verified with field measurements, and further model development is required which must be verified by field experiments.
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Analysis of Steroid Hormones in a Typical Dairy Waste Disposal System
TL;DR: Increasing the piling time of solid wastes and increasing the residence time of wastewater in sequencing lagoons are suggested to be economical and efficient agriculture practices to extend the degradation time of hormone contaminants and thereby reduce the hormone load to the environment.
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Transformations of selenate and selenite by Stenotrophomonas maltophilia isolated from a seleniferous agricultural drainage pond sediment.
TL;DR: The findings suggest that this bacterium may contribute to the biogeochemical cycling of Se in seleniferous evaporation pond sediments and waters and may also be potentially useful in a bioremediation scheme designed to treat seeniferous agricultural wastewater.