Effects of Point Source Loadings, Sub-basin Inputs and Longitudinal Variation in Material Retention on C, N and P Delivery from the Ohio River Basin |
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Authors: | P A Bukaveckas D L Guelda J Jack R Koch T Sellers J Shostell |
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Institution: | (1) Department of Biology, Center for Environmental Studies, 1000 W. Cary Street, Richmond, Virginia 23284, USA;(2) Bemidji State University, Bemidji, Minnesota 56601, USA;(3) Department of Biology, Center for Watershed Research, University of Louisville, Louisville, Kentucky 40292, USA;(4) Division of Natural Sciences, Keuka College, Keuka Park, New York 14478, USA;(5) Department of Biology, Pennsylvania State University – Fayette, Uniontown, Pennsylvania 15401, USA |
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Abstract: | Spatial variability in material fluxes within large river basins may arise from point source inputs, variable contributions
from sub-basins and longitudinal variation in material transformation and retention. By measuring instantaneous fluxes throughout
the Ohio River basin, we were able to draw inferences about the importance of these factors in determining the overall export
of C, N and P from the basin. Our study spanned the lower 645 km of the Ohio River and included all tributaries that contributed
at least 1% of the volume of the Ohio River at its confluence with the Mississippi. The intensively cultivated northern sub-basin
(Wabash River) contributed a large fraction of N and P entering the Ohio River. In the southern sub-basins (Tennessee and
Cumberland Rivers), impoundments and less intense cultivation appear to diminish and delay material delivery particularly
with respect to N. The southern rivers account for a proportionately larger fraction of the water entering the Mississippi
River during low discharge conditions and this fraction has increased during the past 50 years. The upper portion of the study
reach was found to be a net source of CHLa and DOC and a net sink for inorganic N suggesting that this portion of the river
provided a generally favorable environment for autotrophic production. Point source loadings of NH4 were significant inputs to the upper sub-reach but a relatively small component of the overall budget for dissolved inorganic
N. |
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Keywords: | river Ohio River nutrients nitrogen phosphorus mass balance point sources |
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