Comparison of hyporheic exchange under covered and uncovered channels based on linked surface and groundwater flow simulations

Comparison of hyporheic exchange under covered and uncovered channels based on linked surface and groundwater flow simulations

Hyporheic exchange is an important process upon which stream biogeochemical cycling is dependent. The potential for hyporheic exchange in covered channels (i.e., ice-covered channels, karst conduits, fractures) with permeable sediments has not yet been assessed. We characterize the potential for hyp...

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Veröffentlicht in:Water resources research 2008-03, Vol.44 (3), p.n/a
Hauptverfasser: Cardenas, M.B, Gooseff, M.N
Format: Artikel
Sprache:eng
Schlagworte:
bed forms
biogeochemical cycles
computational fluid dynamics
COMSOL
equations
FLUENT
groundwater flow
hydrologic models
hyporheic zone
ice
ice cover
karsts
model validation
sediments
simulation models
stream channels
stream flow
turbulent flow
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creator Cardenas, M.B
Gooseff, M.N
description Hyporheic exchange is an important process upon which stream biogeochemical cycling is dependent. The potential for hyporheic exchange in covered channels (i.e., ice-covered channels, karst conduits, fractures) with permeable sediments has not yet been assessed. We characterize the potential for hyporheic exchange in covered channels using linked turbulent channel flow/groundwater flow simulations. Simulations show that hyporheic exchange occurs in covered channels which have shallower hyporheic zones and larger hyporheic fluxes than equivalent-depth equivalent-discharge uncovered channels. We also analyzed hyporheic exchange for the case of freely floating covers with rough undersides and found that hyporheic exchange decreases with increasing cover roughness which in turn is driven by subdued bed topography, a response to additional resistance due to covers. The results suggest that hyporheic exchange occurs in covered channels and may be just as or perhaps more important to the ecology and biogeochemistry of these channels than to open channel streams.
doi_str_mv 10.1029/2007WR006506
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The potential for hyporheic exchange in covered channels (i.e., ice-covered channels, karst conduits, fractures) with permeable sediments has not yet been assessed. We characterize the potential for hyporheic exchange in covered channels using linked turbulent channel flow/groundwater flow simulations. Simulations show that hyporheic exchange occurs in covered channels which have shallower hyporheic zones and larger hyporheic fluxes than equivalent-depth equivalent-discharge uncovered channels. We also analyzed hyporheic exchange for the case of freely floating covers with rough undersides and found that hyporheic exchange decreases with increasing cover roughness which in turn is driven by subdued bed topography, a response to additional resistance due to covers. 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source Wiley-Blackwell AGU Digital Library; EZB-FREE-00999 freely available EZB journals; Wiley Online Library All Journals
subjects bed forms
biogeochemical cycles
computational fluid dynamics
COMSOL
equations
FLUENT
groundwater flow
hydrologic models
hyporheic zone
ice
ice cover
karsts
model validation
sediments
simulation models
stream channels
stream flow
turbulent flow
title Comparison of hyporheic exchange under covered and uncovered channels based on linked surface and groundwater flow simulations
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