Abstract
In the Coastal Plain of the southeastern USA, streams have commonly been artificially channelized for flood control and agricultural drainage. However, groundwater discharge along such streams has received relatively little attention. Using a combination of stream- and spring-flow measurements, spring temperature measurements, temperature profiling along the stream-bed, and geologic mapping, we delineated zones of diffuse and focused discharge along Little Bayou Creek, a channelized, first-order perennial stream in western Kentucky. Seasonal variability in groundwater discharge mimics hydraulic-head fluctuations in a nearby monitoring well and spring-discharge fluctuations elsewhere in the region, and is likely to reflect seasonal variability in recharge. Diffuse discharge occurs where the stream is incised into the semi-confined regional gravel aquifer, which is comprised of the Mounds Gravel. Focused discharge occurs upstream where the channel appears to have intersected preferential pathways within the confining unit. Seasonal fluctuations in discharge from individual springs are repressed where piping results in bank collapse. Thereby, focused discharge can contribute to the morphological evolution of the stream channel.
Original language | English |
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Pages (from-to) | 252-264 |
Number of pages | 13 |
Journal | Journal of Hydrology |
Volume | 360 |
Issue number | 1-4 |
DOIs | |
State | Published - Oct 15 2008 |
Bibliographical note
Funding Information:The research described herein was funded by the US Department of Energy (DOE) via the Agreement-in-Principle with the Commonwealth of Kentucky (through a Contract from the Kentucky Division of Waste Management to the University of Kentucky, UK) and via the Kentucky Research Consortium for Energy and Environment. However, the contents of this paper do not necessarily reflect views and policies of the US Government or the Commonwealth of Kentucky. Supplemental funding was provided by Grants from the Geological Society of America Southeastern Section, the UK Graduate School, and the UK Department of Earth and Environmental Sciences Brown-McFarlan Fund to LaSage and Mukherjee. We thank DOE and the Tennessee Valley Authority for providing data and access to their properties and the Kentucky Department of Fish and Wildlife Resources for providing access. Brian Begley, Gaye Brewer, Lee Gatterdam, Andrea Hougham, Michael LaSage, Janet Miller, Karen Thompson, David Vance, and James Ward helped with field work. We particularly appreciate the assistance of John Nelson (Illinois State Geological Survey) and Steve Hampson (Kentucky Research Consortium for Energy and Environment) during mapping and development of the conceptual stratigraphic model. John Nelson, Brian Begley, Bruce Phillips, and two anonymous reviewers provided helpful comments on drafts of this paper.
Funding
The research described herein was funded by the US Department of Energy (DOE) via the Agreement-in-Principle with the Commonwealth of Kentucky (through a Contract from the Kentucky Division of Waste Management to the University of Kentucky, UK) and via the Kentucky Research Consortium for Energy and Environment. However, the contents of this paper do not necessarily reflect views and policies of the US Government or the Commonwealth of Kentucky. Supplemental funding was provided by Grants from the Geological Society of America Southeastern Section, the UK Graduate School, and the UK Department of Earth and Environmental Sciences Brown-McFarlan Fund to LaSage and Mukherjee. We thank DOE and the Tennessee Valley Authority for providing data and access to their properties and the Kentucky Department of Fish and Wildlife Resources for providing access. Brian Begley, Gaye Brewer, Lee Gatterdam, Andrea Hougham, Michael LaSage, Janet Miller, Karen Thompson, David Vance, and James Ward helped with field work. We particularly appreciate the assistance of John Nelson (Illinois State Geological Survey) and Steve Hampson (Kentucky Research Consortium for Energy and Environment) during mapping and development of the conceptual stratigraphic model. John Nelson, Brian Begley, Bruce Phillips, and two anonymous reviewers provided helpful comments on drafts of this paper.
Funders | Funder number |
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Kentucky Division of Waste Management | |
Kentucky Research Consortium for Energy and Environment | |
UK Department of Earth and Environmental Sciences Brown-McFarlan Fund | |
UK Graduate School and Biology | |
US Department of Energy | |
Michigan State University-U.S. Department of Energy (MSU-DOE) Plant Research Laboratory |
Keywords
- Channelization
- Coastal Plain
- Discharge
- Groundwater
- Kentucky
ASJC Scopus subject areas
- Water Science and Technology