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Research ArticleResearchR

Stream nutrient levels and proximity of agricultural and forest land to streams: Some relationships

J. M. Omernik, A. R. Abernathy and L. M. Male
Journal of Soil and Water Conservation July 1981, 36 (4) 227-231;
J. M. Omernik
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A. R. Abernathy
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L. M. Male
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ABSTRACT:

The effectiveness of forested buffer strips for controlling nutrient loss from agricultural land to streams is not well documented. To clarify this effectiveness, an attempt was made to determine whether considering the proximity of two land use types (agriculture and forest) to streams improved the ability to predict nutrient levels over simply using the proportion of watersheds occupied by each land use. Results indicated that considering the proximity of these land uses did not improve this predictive ability. One reason may be that the long-term effects of near-stream vegetation in reducing stream nutrient levels is negligible.

Footnotes

  • James A. Omernik is a geographer with the Corvallis Environmental Research Laboratory. U.S. Environmental Protection Agency, 200 S.W. 35th Street, Corvallis, Oregon 97330; A. Ray Abernathy is a professor in the Department of Environmental Systems Engineering, Clem-son University, Clemson, South Carolina 29631; and Larry M. Male is an operations research analyst with CERL, EPA, Corvallis.

  • Copyright 1981 by the Soil and Water Conservation Society

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Journal of Soil and Water Conservation: 36 (4)
Journal of Soil and Water Conservation
Vol. 36, Issue 4
July/August 1981
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Stream nutrient levels and proximity of agricultural and forest land to streams: Some relationships
J. M. Omernik, A. R. Abernathy, L. M. Male
Journal of Soil and Water Conservation Jul 1981, 36 (4) 227-231;

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Stream nutrient levels and proximity of agricultural and forest land to streams: Some relationships
J. M. Omernik, A. R. Abernathy, L. M. Male
Journal of Soil and Water Conservation Jul 1981, 36 (4) 227-231;
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