David C Heimann
David Heimann is a Hydrologist with the USGS, Central Midwest Water Science Center, in Lee's Summit, Missouri.
Abstracts and Presentations
Heimann, D.C., Morris, D,M., Gemeinhardt, T.R., 2015, Nutrient Contributions from Alluvial Soils Associated with the Restoration of Shallow Water Habitat in the Lower Missouri River: River Research and Applications, Vol.31(3), p.323-334.
Heimann, D.C. and Blevins, D.W., 2010, Hydrology and Water Quality of Tallgrass Prairie and Agricultural Streams in Missouri and Kansas: Missouri Prairie Journal vol. 31, no. 1, p. 4-11.
Science and Products
Filter Total Items: 41
Use of Numerical Simulations in Surface-Water Studies by the U.S. Geological Survey in Missouri
Numerical simulations of surface-water systems can be a useful tool to predict and understand a variety of physical, chemical, and ecological processes. A number of applications have been conducted by the U.S. Geological Survey Missouri Water Science Center in conjunction with ecological and flood studies in Missouri. Numerical simulations can provide a physically based method to predict...
Authors
David C. Heimann, Paul H. Rydlund, Susan S. Licher
Quantification of fish habitat in selected reaches of the Marmaton and Marais des Cygnes Rivers, Missouri
The U.S. Geological Survey, in cooperation with the Missouri Department of Conservation, undertook a study to quantify fish habitat by using relations between streamflow and the spatial and temporal distributions of fish habitat at five sites in the Marmaton and Marais des Cygnes Rivers in western Missouri. Twenty-six fish habitat categories were selected for nine species under varying...
Authors
David C. Heimann, Joseph M. Richards, Shannon K. Brewer, Richard D. Norman
Hydrologic, soil, and vegetation gradients in remnant and constructed riparian wetlands in west-central Missouri, 2001-04
A study was conducted by the U.S. Geological Survey in cooperation with the Missouri Department of Conservation at the Four Rivers Conservation Area (west-central Missouri), between January 2001 and March 2004, to examine the relations between environmental factors (hydrology, soils, elevation, and landform type) and the spatial distribution of vegetation in remnant and constructed...
Authors
David C. Heimann, Paige A. Mettler-Cherry
Topography and Sedimentation Characteristics of the Squaw Creek National Wildlife Refuge, Holt County, Missouri, 1937-2002
The Squaw Creek National Wildlife Refuge (hereafter referred to as the Refuge), located on the Missouri River floodplain in northwest Missouri, was established in 1935 to provide habitat for migratory birds and wildlife. Results of 1937 and 1964 topographic surveys indicate that sedimenta-tion, primarily from Squaw Creek and Davis Creek inflows, had substantially reduced Refuge pool...
Authors
David C. Heimann, Joseph M. Richards
Numerical simulation of streamflow distribution, sediment transport, and sediment deposition along Long Beach Creek in Northeast Missouri
This report presents the results of a study conducted by the U.S. Geological Survey in cooperation with the Missouri Department of Conservation to describe the hydrology, sediment transport, and sediment deposition along a selected reach of Long Branch Creek in Macon County, Missouri. The study was designed to investigate spatial and temporal characteristics of sediment deposition in a...
Authors
David C. Heimann
Sediment loads and accumulation in a small riparian wetland system in northern Missouri
Sediment transport and deposition along a stream in an agricultural basin (65 km2) in northern Missouri, USA were quantified as part of a long-term study to evaluate effects of silvicultural practices on the hydrology, sediment, vegetation, and wildlife characteristics of remaining forested riparian systems. Median cumulative sediment deposition, measured using feldspar clay pads...
Authors
David C. Heimann, Michael J. Roell
Science and Products
Filter Total Items: 41
Use of Numerical Simulations in Surface-Water Studies by the U.S. Geological Survey in Missouri
Numerical simulations of surface-water systems can be a useful tool to predict and understand a variety of physical, chemical, and ecological processes. A number of applications have been conducted by the U.S. Geological Survey Missouri Water Science Center in conjunction with ecological and flood studies in Missouri. Numerical simulations can provide a physically based method to predict...
Authors
David C. Heimann, Paul H. Rydlund, Susan S. Licher
Quantification of fish habitat in selected reaches of the Marmaton and Marais des Cygnes Rivers, Missouri
The U.S. Geological Survey, in cooperation with the Missouri Department of Conservation, undertook a study to quantify fish habitat by using relations between streamflow and the spatial and temporal distributions of fish habitat at five sites in the Marmaton and Marais des Cygnes Rivers in western Missouri. Twenty-six fish habitat categories were selected for nine species under varying...
Authors
David C. Heimann, Joseph M. Richards, Shannon K. Brewer, Richard D. Norman
Hydrologic, soil, and vegetation gradients in remnant and constructed riparian wetlands in west-central Missouri, 2001-04
A study was conducted by the U.S. Geological Survey in cooperation with the Missouri Department of Conservation at the Four Rivers Conservation Area (west-central Missouri), between January 2001 and March 2004, to examine the relations between environmental factors (hydrology, soils, elevation, and landform type) and the spatial distribution of vegetation in remnant and constructed...
Authors
David C. Heimann, Paige A. Mettler-Cherry
Topography and Sedimentation Characteristics of the Squaw Creek National Wildlife Refuge, Holt County, Missouri, 1937-2002
The Squaw Creek National Wildlife Refuge (hereafter referred to as the Refuge), located on the Missouri River floodplain in northwest Missouri, was established in 1935 to provide habitat for migratory birds and wildlife. Results of 1937 and 1964 topographic surveys indicate that sedimenta-tion, primarily from Squaw Creek and Davis Creek inflows, had substantially reduced Refuge pool...
Authors
David C. Heimann, Joseph M. Richards
Numerical simulation of streamflow distribution, sediment transport, and sediment deposition along Long Beach Creek in Northeast Missouri
This report presents the results of a study conducted by the U.S. Geological Survey in cooperation with the Missouri Department of Conservation to describe the hydrology, sediment transport, and sediment deposition along a selected reach of Long Branch Creek in Macon County, Missouri. The study was designed to investigate spatial and temporal characteristics of sediment deposition in a...
Authors
David C. Heimann
Sediment loads and accumulation in a small riparian wetland system in northern Missouri
Sediment transport and deposition along a stream in an agricultural basin (65 km2) in northern Missouri, USA were quantified as part of a long-term study to evaluate effects of silvicultural practices on the hydrology, sediment, vegetation, and wildlife characteristics of remaining forested riparian systems. Median cumulative sediment deposition, measured using feldspar clay pads...
Authors
David C. Heimann, Michael J. Roell