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Hyporheic flow path response to hydraulic jumps at river steps: Hydrostatic model simulations
T. Endreny,
L. Lautz
, D. Siegel
Department of Earth & Environmental Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
24
Scopus citations
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Earth & Environmental Sciences
hydrostatics
100%
hydraulics
62%
downwelling
53%
river
45%
simulation
40%
topography
22%
hyporheic zone
21%
surface water
21%
nutrient
20%
hydrostatic pressure
17%
subsurface flow
17%
ecosystem function
16%
prediction
15%
mosaic
15%
upwelling
13%
parameterization
13%
hydrodynamics
11%
productivity
10%
geometry
10%
groundwater
9%
test
6%
parameter
5%