Toby D. Feaster scite author profile

Toby D. Feaster

5Publications

83Citation Statements Received

74Citation Statements Given

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104

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United States Geological Survey

Publications

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Characterizing mercury concentrations and fluxes in a Coastal Plain watershed: Insights from dynamic modeling and data

et al. 2012

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[1] Mercury (Hg) is one of the leading water quality concerns in surface waters of the United States. Although watershed-scale Hg cycling research has increased in the past two decades, advances in modeling watershed Hg processes in diverse physiographic regions, spatial scales, and land cover types are needed. The goal of this study was to assess Hg cycling in a Coastal Plain system using concentrations and fluxes estimated by multiple watershed-scale models with distinct mathematical frameworks reflecting different system dynamics. We simulated total mercury (Hg T , the sum of filtered and particulate forms) concentrations and fluxes from a Coastal Plain watershed (McTier Creek) using three watershed Hg models and an empirical load model. Model output was compared with observed in-stream Hg T . We found that shallow subsurface flow is a potentially important transport mechanism of particulate Hg T during periods when connectivity between the uplands and surface waters is maximized. Other processes (e.g., stream bank erosion, sediment re-suspension) may increase particulate Hg T in the water column. Simulations and data suggest that variable source area (VSA) flow and lack of rainfall interactions with surface soil horizons result in increased dissolved Hg T concentrations unrelated to DOC mobilization following precipitation events. Although flushing of DOC-Hg T complexes from surface soils can also occur during this period, DOC-complexed Hg T becomes more important during base flow conditions. TOPLOAD simulations highlight saturated subsurface flow as a primary driver of daily Hg T loadings, but shallow subsurface flow is important for Hg T loads during high-flow events. Results suggest limited seasonal trends in Hg T dynamics.

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Magnitude and Frequency of Rural Floods in the Southeastern United States, 2006: Volume 3, South Carolina

Feaster¹,

Gotvald²,

Weaver³

2009

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Ten-and 1-percent chance exceedance flows from the previous South Carolina flood-frequency investigation and from the current flood-frequency investigation .......29 12. Ten-and 1-percent chance exceedance flows from the previous South Carolina flood-frequency investigation for regression curves relevant to sites in North Carolina and Georgia and from the current flood-frequency investigation ..........29 13. Variance of prediction values for rural streamgaging stations in South Carolina

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Magnitude and Frequency of Floods in Alabama, 2003

Hedgecock¹,

Feaster²

2007

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Magnitude and Frequency of Rural Floods in the Southeastern United States, through 2006: Volume 2, North Carolina

Feaster¹,

Gotvald²,

Weaver³

2009

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Methods for estimating the magnitude and frequency of floods for urban and small, rural streams in Georgia, South Carolina, and North Carolina, 2011

Feaster¹,

Gotvald²,

Weaver³

2014

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Toby D. Feaster

Characterizing mercury concentrations and fluxes in a Coastal Plain watershed: Insights from dynamic modeling and data

Magnitude and Frequency of Rural Floods in the Southeastern United States, 2006: Volume 3, South Carolina

Magnitude and Frequency of Floods in Alabama, 2003

Magnitude and Frequency of Rural Floods in the Southeastern United States, through 2006: Volume 2, North Carolina

Methods for estimating the magnitude and frequency of floods for urban and small, rural streams in Georgia, South Carolina, and North Carolina, 2011

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