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The AAPG/Datapages Combined Publications Database

Environmental Geosciences (DEG)

Abstract

Environmental Geosciences, V. 17, No. 3 (September 2010), P. 121136.

Copyright copy2010. The American Association of Petroleum Geologists/Division of Environmental Geosciences. All rights reserved.

DOI:10.1306/eg.04061010001

Spatial variations in apparent recharge rate to a montane Paleozoic bedrock aquifer, Appalachian Mountains, United States

Cristine M. Vinciguerra,1 Joseph J. Donovan2

1Department of Geology and Geography, West Virginia University, 330 Brooks Hall, Morgantown, West Virginia 26506-6300; present address: AECOM, 40 British American Boulevard, Latham, New York 12110,
2Department of Geology and Geography, West Virginia University, 330 Brooks Hall, Morgantown, West Virginia 26506-6300; [email protected]

AUTHORS

Cristine M. Vinciguerra is a hydrogeologist at AECOM in Latham, New York. She has a masterrsquos degree in Geology from West Virginia University. Her interests include groundwater and surface-water hydrology of mountainous karst terranes.

Joseph J. Donovan teaches groundwater science at West Virginia University and performs research in recharge processes, mining hydrogeology, and Holocene paleoclimate of the Northern Great Plains.

ACKNOWLEDGEMENTS

This project was supported by the West Virginia Bureau for Public Health; the Morgan County (West Virginia) Rural Water Committee; the U.S. Department of Agriculture Cooperative State Research, Education, and Extension Service. Jack Soronen piloted the aircraft used for photography in Figure 4. Field assistance was provided by Matt Finkenbinder and Kevin Rega. Helpful ideas and advice were offered by Eb Werner and Annie Morris.

EDITORrsquoS NOTE

Color versions of Figures 1, 2, 3, 4, 5, 6, 7, 8, 9 may be seen in the online version of this article.

ABSTRACT

Hydrograph separation methods for estimating recharge are not useful in all watersheds, but in this article, the hypothesis is tested that they should be reasonably accurate in montane humid locations where dissipation times for runoff are short. The study area is a montane carbonate/clastic Paleozoic aquifer in the Appalachian Mountains, West Virginia and Virginia. For 1 yr, groundwater discharge was continuously measured at three different stream reaches; each has grossly similar climate, soils, and topography, but differing geology underlying the main stream channels and different stream orientations with respect to structure. One station measured base flow in a strike-parallel stream of moderate length (13.4 km [8.3 mi]); the other two in strike-normal streams of shorter length (2.7 km [1.7 mi]). Pronounced differences were observed in apparent recharge rate between the strike-normal and strike-parallel streams, with the strike-parallel stream similar in apparent recharge to 21 other regional streams, with both large and small catchments, of similar climatic and geologic conditions. Similarly, the strike-normal streams in the study area were significantly lower in recharge compared with these. The precise location of stream losses, if any, could not be pinpointed in detailed streamflow measurements. Although the low apparent recharge rates are primarily ascribed to stream losses, underflow, and/or hyporheic interactions, the evidence for this was nonconclusive. This case underscores that even in humid montane settings of moderate relief, complications in the groundwater budget may arise that make recharge estimates based on surface hydrograph Previous HitanalysisTop inaccurate.

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