An understanding of the quantity and quality of sediment deposited in a reservoir is necessary for effective reservoir and basin management. Sedimentation affects the useful life of a reservoir for such important purposes as flood control, water supply, and recreation. Sediment quality is an important environmental concern because sediment may act as a sink for various water-quality constituents and as a source of constituents to the overlying water column and biota. An analysis of reservoir bottom sediments can provide historical information on sediment deposition as well as magnitudes and trends for water-quality constituents that are associated with sediment such as phosphorus, trace elements, and some pesticides. Such information can be used to document and understand the effects of various natural and human factors on reservoir conditions.
Reservoir sediment investigations conducted by the U.S. Geological Survey since 1995 have been completed with specific objectives being to:
- Estimate total sediment volume and mass
- Estimate annual sediment deposition and yield from the basin
- Determine the occurrence and trends of constituents
- Estimate annual constituent loads and yields from the basin
- Assess sediment quality
- Assess how reservoir conditions have changed over time and identify possible issues of concern
- Provide a baseline for future assessments
- Methods used include bathymetric surveying, bottom-sediment coring, chemical analysis, and statistical analysis
More publications can be found at https://pubs.er.usgs.gov/
Quantifying suspended sediment loads delivered to Cheney Reservoir, Kansas: Temporal patterns and management implications
The aging of America's reservoirs: In-reservoir and downstream physical changes and habitat implications
Occurrence and trends of selected nutrients, other chemical constituents, diatoms, and cyanobacteria in bottom sediment, Lake Maxinkuckee, northern Indiana
Suspended-sediment loads and reservoir sediment trap efficiency for Clinton Lake, Kansas, 2010-12
An investigation of element ratios for assessing suspended-sediment sources in small agricultural basins
Suspended-sediment loads, reservoir sediment trap efficiency, and upstream and downstream channel stability for Kanopolis and Tuttle Creek Lakes, Kansas, 2008-10
Sedimentation and occurrence and trends of selected nutrients, other chemical constituents, and cyanobacteria in bottom sediment, Clinton Lake, northeast Kansas, 1977-2009
Sedimentation, sediment quality, and upstream channel stability, John Redmond Reservoir, east-central Kansas, 1964-2009
Estimation of sediment sources using selected chemical tracers in the Perry lake basin, Kansas, USA
Occurrence and Trends of Selected Chemical Constituents in Bottom Sediment, Grand Lake O' the Cherokees, Northeast Oklahoma, 1940-2008
Characterization of Suspended-Sediment Loading to and from John Redmond Reservoir, East-Central Kansas, 2007-2008
Sedimentation and occurrence and trends of selected nutrients, other chemical constituents, and diatoms in bottom sediment, Fall River Lake, southeast Kansas, 1948-2006
Below are partners associated with this project.
An understanding of the quantity and quality of sediment deposited in a reservoir is necessary for effective reservoir and basin management. Sedimentation affects the useful life of a reservoir for such important purposes as flood control, water supply, and recreation. Sediment quality is an important environmental concern because sediment may act as a sink for various water-quality constituents and as a source of constituents to the overlying water column and biota. An analysis of reservoir bottom sediments can provide historical information on sediment deposition as well as magnitudes and trends for water-quality constituents that are associated with sediment such as phosphorus, trace elements, and some pesticides. Such information can be used to document and understand the effects of various natural and human factors on reservoir conditions.
Reservoir sediment investigations conducted by the U.S. Geological Survey since 1995 have been completed with specific objectives being to:
- Estimate total sediment volume and mass
- Estimate annual sediment deposition and yield from the basin
- Determine the occurrence and trends of constituents
- Estimate annual constituent loads and yields from the basin
- Assess sediment quality
- Assess how reservoir conditions have changed over time and identify possible issues of concern
- Provide a baseline for future assessments
- Methods used include bathymetric surveying, bottom-sediment coring, chemical analysis, and statistical analysis
More publications can be found at https://pubs.er.usgs.gov/
Quantifying suspended sediment loads delivered to Cheney Reservoir, Kansas: Temporal patterns and management implications
The aging of America's reservoirs: In-reservoir and downstream physical changes and habitat implications
Occurrence and trends of selected nutrients, other chemical constituents, diatoms, and cyanobacteria in bottom sediment, Lake Maxinkuckee, northern Indiana
Suspended-sediment loads and reservoir sediment trap efficiency for Clinton Lake, Kansas, 2010-12
An investigation of element ratios for assessing suspended-sediment sources in small agricultural basins
Suspended-sediment loads, reservoir sediment trap efficiency, and upstream and downstream channel stability for Kanopolis and Tuttle Creek Lakes, Kansas, 2008-10
Sedimentation and occurrence and trends of selected nutrients, other chemical constituents, and cyanobacteria in bottom sediment, Clinton Lake, northeast Kansas, 1977-2009
Sedimentation, sediment quality, and upstream channel stability, John Redmond Reservoir, east-central Kansas, 1964-2009
Estimation of sediment sources using selected chemical tracers in the Perry lake basin, Kansas, USA
Occurrence and Trends of Selected Chemical Constituents in Bottom Sediment, Grand Lake O' the Cherokees, Northeast Oklahoma, 1940-2008
Characterization of Suspended-Sediment Loading to and from John Redmond Reservoir, East-Central Kansas, 2007-2008
Sedimentation and occurrence and trends of selected nutrients, other chemical constituents, and diatoms in bottom sediment, Fall River Lake, southeast Kansas, 1948-2006
Below are partners associated with this project.