Timothy L. Negley scite author profile

Abstract:The results of a hydrological analysis that was conducted as part of a larger, multifaceted, collaborative effort to quantify ecosystem functions in watersheds subjected to land-use and land-cover change are presented. The primary goal of the study was to determine whether a small watershed in the Appalachian region (USA) that was recently subjected to surface mining and reclamation practices produces stormflow responses to rain events that are different from those produced by a nearby reference watershed covered by young, second-growth forest. Water balances indicated that runoff yields did not vary significantly between the two watersheds on an annual basis. Statistically significant differences (p Ä 0Ð05) in runoff responses were observed on an event basis, however, with the mined/reclaimed watershed producing, on average (a) higher storm runoff coefficients (2Ð5ð), (b) greater total storm runoff (3ð), and (c) higher peak hourly runoff rates (2ð) when compared with the reference watershed. Results of a unit hydrograph analysis also showed, unexpectedly, that the modelled unit responses of the two watersheds to effective rainfall pulses were similar, despite the noted differences in land cover. Differences in stormflow responses were thus largely explained by dramatic reductions in cumulative rates of rainfall abstraction (measured using infiltrometers) attributable to soil compaction during land reclamation. Additional field hydrological measurements on other mined watersheds will be needed to generalize our results, as well as to understand and predict the cumulative hydrological impacts of widespread surface mining in larger watersheds and river basins.

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Factors influencing groundwater seepage in a large, mesotrophic lake in New York

Schneider

Negley

Wafer³

2005

Journal of Hydrology

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Contemporary Trends in the Acid–Base Status of Two Acid-Sensitive Streams in Western Maryland

Eshleman

Kline

Morgan

et al. 2007

Environ. Sci. Technol.

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Recovery of streamwater acid neutralizing capacity (ANC) resulting from declines in regional acid deposition was examined using contemporary (1990-2005) data from two long-term monitoring stations located on the Appalachian Plateau in western Maryland, U.S. Two computational methods were used to estimate daily, monthly, and annual fluxes and discharge-weighted concentrations of ANC, sulfate, nitrate, and base cations over the period of record, and two statistical methods were used to evaluate long-term trends in fluxes and concentrations. The methods used to estimate concentrations, as well as the statistical techniques, produced very similar results, underlining the robustness of the identified trends. We found clear evidence that streamwater sulfate concentrations have declined at an average rate of about 3 microeq L(-1) yr(-1) at the two sites due to a 34% reduction in wet atmospheric sulfur deposition. Trends in nitrate concentrations appear to be related to other watershed factors, especially forest disturbance. The best evidence of recovery is based on a doubling of ANC (from 21 to 42 microeq L(-1)) at the more acid-sensitive site over the 16-year period. A slowing, or possible reversal, in the sulfate, nitrate, and SBC trends is evident in our data and may portend a decline in the rate of--or end to--further recovery.

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A Comparative Hydrologic Analysis of Surface Mined and Forested Watersheds in Western Maryland

Negley¹

2002

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Timothy L. Negley

Comparison of stormflow responses of surface‐mined and forested watersheds in the Appalachian Mountains, USA

Factors influencing groundwater seepage in a large, mesotrophic lake in New York

Contemporary Trends in the Acid–Base Status of Two Acid-Sensitive Streams in Western Maryland

A Comparative Hydrologic Analysis of Surface Mined and Forested Watersheds in Western Maryland

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