Brian W. Redder scite author profile

Brian W. Redder

5Publications

12Citation Statements Received

115Citation Statements Given

How they've been cited

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107

Affiliations

Pennsylvania State University

Publications

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Groundwater contributions of flow and nitrogen in a headwater agricultural watershed

Redder

Kennedy²,

Buda

et al. 2021

Hydrological Processes

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Nonpoint sources of nitrogen (N) and other nutrients are a major source of water pollution within the Chesapeake Bay watershed and other basins around the world. Human activities associated with agricultural practices can account for a large percentage of N loadings delivered to streams and rivers. This work aims to improve understanding of N transport from groundwater to surface waters, quantifying the principal hydrological processes driving water and N fluxes into and out of a headwater agricultural stream reach. The study site is a 175-m stream reach in a heavily cultivated 40-ha watershed in east-central Pennsylvania. This subwatershed is underlain by fractured shale bedrock, and receives most of its baseflow from groundwater, either by diffuse matrix discharge through the streambed or by localized discharge through riparian seeps. Samples of stream, seep, and shallow groundwater were collected approximately monthly under steady hydrologic conditions in 2017. Calculated matrix flow from hydraulic head and conductivity measurements paired with differential stream gauging was used to solve for the riparian seep flux using a mass balance approach. Riparian seep fluxes ranged from 45 to 217 m 3 /d, transporting 0.6-4.2 kg N d À1 of nitrate-N from the fractured bedrock aquifer to the stream.Hydrochemical data suggest that the stream is mainly disconnected from the underlying aquifer and that seeps supply essentially all water and N to the system. Seeps are likely sourced with N in nearby agricultural fields and accelerated through the system with shorter residence times than shallow groundwater. Water isotope data reinforced this notion. This study underscores the importance of agriculture as a source of N to ground and surface waters. Identifying source areas that are causing groundwater enrichment of N and seep areas where N discharges to streams is beneficial for developing N pollution mitigation strategies and implementing management practices that aim to reduce nutrient loads to the Chesapeake Bay.

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Groundwater-Surface Water Interactions Affecting Water and Nitrogen Fluxes in an Agricultural Watershed

Redder¹,

Boyer²,

Buda³

et al. 2018

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Water Chemistry of a Hemlock Forest in the Robert V. Riddell State Park of New York

Karson¹,

Redder²,

Balogh‐Brunstad³

2018

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The Biogeochemical Effects of the Hemlock Woolly Adelgid on Soil Water Chemistry

Mehr¹,

Balnis²,

Redder³

et al. 2016

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The Effect of Hemlock Woolly Adelgid Infestation on the Biogeochemistry and Microbial Community of Eastern Hemlock Forest Soils

Balnis¹,

Mehr²,

Redder³

et al. 2016

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Brian W. Redder

Groundwater contributions of flow and nitrogen in a headwater agricultural watershed

Groundwater-Surface Water Interactions Affecting Water and Nitrogen Fluxes in an Agricultural Watershed

Water Chemistry of a Hemlock Forest in the Robert V. Riddell State Park of New York

The Biogeochemical Effects of the Hemlock Woolly Adelgid on Soil Water Chemistry

The Effect of Hemlock Woolly Adelgid Infestation on the Biogeochemistry and Microbial Community of Eastern Hemlock Forest Soils

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