David Rus
Dave Rus is a Lead Hydrologist for the U.S. Geological Survey Nebraska Water Science Center in Lincoln, Nebraska.
Education and Certifications
1996, B.S. Biological Systems Engineering, University of Nebraska-Lincoln
2010, M.S. Biological Systems Engineering, University of Nebraska-Lincoln
Science and Products
Filter Total Items: 20
Water Quality of Combined Sewer Overflows, Stormwater, and Streams, Omaha, Nebraska, 2006-07
The U.S. Geological Survey, in cooperation with the City of Omaha, investigated the water quality of combined sewer overflows, stormwater, and streams in the Omaha, Nebraska, area by collecting and analyzing 1,175 water samples from August 2006 through October 2007. The study area included the drainage area of Papillion Creek at Capeheart Road near Bellevue, Nebraska, which encompasses the tributa
Authors
Jason R. Vogel, Jill D. Frankforter, David L. Rus, Christopher M. Hobza, Matthew T. Moser
Evapotranspiration Rates of Riparian Forests, Platte River, Nebraska, 2002-06
Evapotranspiration (ET) in riparian areas is a poorly understood component of the regional water balance in the Platte River Basin, where competing demands have resulted in water shortages in the ground-water/surface-water system. From April 2002 through March 2006, the U.S. Geological Survey, Nebraska Platte River Cooperative Hydrology Study Group, and Central Platte Natural Resources District co
Authors
Matthew K. Landon, David L. Rus, Benjamin J. Dietsch, Michaela R. Johnson, Kathleen D. Eggemeyer
Nutrient and Suspended-Sediment Trends in the Missouri River Basin, 1993-2003
Trends in streamflow and concentration of total nitrogen, nitrite plus nitrate, ammonia, total phosphorus, orthophosphorus, and suspended sediment were determined for the period from 1993 to 2003 at selected stream sites in the Missouri River Basin. Flow-adjusted trends in concentration (the trends that would have occurred in the absence of natural changes in streamflow) and non-flow-adjusted tren
Authors
Lori A. Sprague, Melanie L. Clark, David L. Rus, Ronald B. Zelt, Jennifer L. Flynn, Jerri V. Davis
An Assessment of Hydrology, Fluvial Geomorphology, and Stream Ecology in the Cardwell Branch Watershed, Nebraska, 2003-04
An assessment of the 16.3-square-mile Cardwell Branch watershed characterized the hydrology, fluvial geomorphology, and stream ecology in 2003-04. The study - performed by the U.S. Geological Survey in cooperation with the City of Lincoln, Nebraska, and the Lower Platte South Natural Resources District - focused on the 7.7-square-mile drainage downstream from Yankee Hill Reservoir.
Hydrologic a
Authors
David L. Rus, Benjamin J. Dietsch, Brenda K. Woodward, Beth E. Fry, Richard C. Wilson
Streambed adjustment and channel widening in eastern Nebraska
In eastern Nebraska, stream straightening and dredging efforts since the 1890s have disturbed the natural equilibrium of stream channels and have led to streambed adjustment by degradation and subsequent channel widening. This report describes a study to evaluate the effect these disturbances have had on stream channels in eastern Nebraska.
Two sets of survey data were collected approximately
Authors
David L. Rus, Benjamin J. Dietsch, Andrew Simon
Vertical profiles of streambed hydraulic conductivity determined using slug tests in central and western Nebraska
Many issues of water-resources management
rely on modeling of ground-water/surfacewater
interactions, and streambed hydraulic
conductivity is a key parameter controlling the
water fluxes across the stream/aquifer interface.
However, in central and western Nebraska, this
parameter is generally undefined. The U.S.
Geological Survey, in cooperation with the
Nebraska Platte River Cooperative Hydrology
Authors
David L. Rus, Virginia L. McGuire, Brian R. Zurbuchen, Vitaly A. Zlotnik
Trends in channel gradation in Nebraska streams, 1913-95
No abstract available.
Authors
Abraham H. Chen, David L. Rus, C.P. Stanton
Channel stability of Turkey Creek, Nebraska
Channelization on Turkey Creek and its receiving stream, the South Fork Big Nemaha River, has disturbed the equilibrium of Turkey Creek and has led to channel-stability problems, such as degradation and channel widening, which pose a threat to bridges and land adjacent to the stream. As part of a multiagency study, the U.S. Geological Survey assessed channel stability at two bridge sites on upper
Authors
David L. Rus, Philip J. Soenksen
Science and Products
Filter Total Items: 20
Water Quality of Combined Sewer Overflows, Stormwater, and Streams, Omaha, Nebraska, 2006-07
The U.S. Geological Survey, in cooperation with the City of Omaha, investigated the water quality of combined sewer overflows, stormwater, and streams in the Omaha, Nebraska, area by collecting and analyzing 1,175 water samples from August 2006 through October 2007. The study area included the drainage area of Papillion Creek at Capeheart Road near Bellevue, Nebraska, which encompasses the tributa
Authors
Jason R. Vogel, Jill D. Frankforter, David L. Rus, Christopher M. Hobza, Matthew T. Moser
Evapotranspiration Rates of Riparian Forests, Platte River, Nebraska, 2002-06
Evapotranspiration (ET) in riparian areas is a poorly understood component of the regional water balance in the Platte River Basin, where competing demands have resulted in water shortages in the ground-water/surface-water system. From April 2002 through March 2006, the U.S. Geological Survey, Nebraska Platte River Cooperative Hydrology Study Group, and Central Platte Natural Resources District co
Authors
Matthew K. Landon, David L. Rus, Benjamin J. Dietsch, Michaela R. Johnson, Kathleen D. Eggemeyer
Nutrient and Suspended-Sediment Trends in the Missouri River Basin, 1993-2003
Trends in streamflow and concentration of total nitrogen, nitrite plus nitrate, ammonia, total phosphorus, orthophosphorus, and suspended sediment were determined for the period from 1993 to 2003 at selected stream sites in the Missouri River Basin. Flow-adjusted trends in concentration (the trends that would have occurred in the absence of natural changes in streamflow) and non-flow-adjusted tren
Authors
Lori A. Sprague, Melanie L. Clark, David L. Rus, Ronald B. Zelt, Jennifer L. Flynn, Jerri V. Davis
An Assessment of Hydrology, Fluvial Geomorphology, and Stream Ecology in the Cardwell Branch Watershed, Nebraska, 2003-04
An assessment of the 16.3-square-mile Cardwell Branch watershed characterized the hydrology, fluvial geomorphology, and stream ecology in 2003-04. The study - performed by the U.S. Geological Survey in cooperation with the City of Lincoln, Nebraska, and the Lower Platte South Natural Resources District - focused on the 7.7-square-mile drainage downstream from Yankee Hill Reservoir.
Hydrologic a
Authors
David L. Rus, Benjamin J. Dietsch, Brenda K. Woodward, Beth E. Fry, Richard C. Wilson
Streambed adjustment and channel widening in eastern Nebraska
In eastern Nebraska, stream straightening and dredging efforts since the 1890s have disturbed the natural equilibrium of stream channels and have led to streambed adjustment by degradation and subsequent channel widening. This report describes a study to evaluate the effect these disturbances have had on stream channels in eastern Nebraska.
Two sets of survey data were collected approximately
Authors
David L. Rus, Benjamin J. Dietsch, Andrew Simon
Vertical profiles of streambed hydraulic conductivity determined using slug tests in central and western Nebraska
Many issues of water-resources management
rely on modeling of ground-water/surfacewater
interactions, and streambed hydraulic
conductivity is a key parameter controlling the
water fluxes across the stream/aquifer interface.
However, in central and western Nebraska, this
parameter is generally undefined. The U.S.
Geological Survey, in cooperation with the
Nebraska Platte River Cooperative Hydrology
Authors
David L. Rus, Virginia L. McGuire, Brian R. Zurbuchen, Vitaly A. Zlotnik
Trends in channel gradation in Nebraska streams, 1913-95
No abstract available.
Authors
Abraham H. Chen, David L. Rus, C.P. Stanton
Channel stability of Turkey Creek, Nebraska
Channelization on Turkey Creek and its receiving stream, the South Fork Big Nemaha River, has disturbed the equilibrium of Turkey Creek and has led to channel-stability problems, such as degradation and channel widening, which pose a threat to bridges and land adjacent to the stream. As part of a multiagency study, the U.S. Geological Survey assessed channel stability at two bridge sites on upper
Authors
David L. Rus, Philip J. Soenksen