Journal ArticleDOI
Delineating and Quantifying Ground Water Discharge Zones Using Streambed Temperatures
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TLDR
A new and simple empirical method was used to relate fluxes obtained from minipiezometer data to streambed temperatures and a conceptual model for ground water/surface water interactions consisting of five different behaviors was developed based on the magnitude and direction of flux across the surface of the streambed.Abstract:
Streambed temperature mapping, hydraulic testing using minipiezometers, and geochemical analyses of interstitial water of the streambed were used to delineate the pattern of ground water discharge in a sandy streambed and to develop a flux-based conceptual model for ground water/surface water interactions. A new and simple empirical method was used to relate fluxes obtained from minipiezometer data to streambed temperatures. The relationship allowed flux to be calculated at locations where only streambed temperature measurements were made. Slug testing and potentiomanometer measurements at 34 piezometers indicated ground water discharge ranged from 0.03 to 446 L/m2/day (and possibly as high as 7060 L/m2/day) along a 60 m long by 11 to 14 m wide reach of river. Complex but similar plan-view patterns of flux were calculated for both summer and winter using hundreds of streambed temperatures measured on a 1 by 2 m grid. The reach was dominated by ground water discharge and 5% to 7% of the area accounted for ∼20% to 24% of the total discharge. < 12% of the total area consisted of recharge zones or no-discharge zones. A conceptual model for ground water/surface water interactions consisting of five different behaviors was developed based on the magnitude and direction of flux across the surface of the streambed. The behaviors include short-circuit discharge (e.g., high-flow springs), high discharge (e.g., preferential flowpaths), low to moderate discharge, no discharge (e.g., horizontal hyporheic or ground water flow), and recharge. Geological variations at depth played a key role in determining which type of flow behavior occurred in the streambed.read more
Citations
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Heat as a ground water tracer.
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References
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The ecological significance of exchange processes between rivers and groundwater
Matthias Brunke,Tom Gonser +1 more
TL;DR: The hyporheic corridor concept emphasizes connectivity and interactions between subterranean and surface flow on an ecosystem level for floodplain rivers as mentioned in this paper, which is a complementary concept to others which focus on surficial processes in the lateral and longitudinal dimensions.
Journal ArticleDOI
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TL;DR: In this paper, the authors measured seepage velocities from −0.1-2.58 µm s−1 in Minnesota and Wisconsin lakes and in Nova Scotia and North Carolina estuaries.
Journal ArticleDOI
The Effect of streambed topography on surface-subsurface water exchange in mountain catchments
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Journal ArticleDOI
A natural gradient experiment on solute transport in a sand aquifer: 1. Approach and overview of plume movement
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Journal ArticleDOI
Stream and Fluvial Plain Ground Water Interactions: Rescaling Hydrogeologic Thought
TL;DR: In this article, the authors focus on near-channel ground water and surface water to maintain stream health and flood plain ecological function and refocus their conceptual models of water exchange between the aquifer and stream.