An understanding of river- and stream-channel geomorphic responses to various human-caused and natural disturbances is important for effective management, conservation, and rehabilitation of rivers and streams to accommodate multiple, often conflicting, needs. Channel changes may have implications for the protection of property and structures, water supply, navigation, and habitat. The channel-bank erosion that accompanies natural channel migration on a flood plain represents a constant threat to property and structures located in or near the channel. Various human-caused and natural disturbances introduce additional instability to which rivers and streams adjust. Human-caused disturbances include reservoirs, channelization, in-channel sand and gravel extraction, and urbanization. A common natural disturbance is a flood. Possible geomorphic responses of a channel to disturbances include channel-bed degradation (erosion), channel-bed aggradation (deposition of material), channel widening, and channel straightening. These adjustments represent the channel’s attempt to establish a new approximate equilibrium condition.
Channel adjustments are a concern for several reasons. A substantial lowering of the channel bed poses an immediate threat to bridge pier foundations as well as buried pipelines and cables. In addition, substantial bed lowering increases bank height and bank instability that may trigger channel widening. Channel aggradation raises the bed elevation, reduces channel capacity, and increases the likelihood of flooding. Any channel-bed changes that occur on the main-stem rivers and streams also may migrate upstream on the tributaries where additional property, structures, and habitat may be at risk. Finally, any long-term channel adjustment processes also may instigate or worsen local scour problems.
Geomorphic investigations conducted by the U.S. Geological Survey since 1995 have mostly focused on the response of river and stream channels to various types of natural and human-caused disturbances including floods, reservoir construction and operation, and channelization. Such studies document channel changes, reconstruct historical conditions, determine the causes of channel changes, estimate the rate of geomorphic processes, and, in some cases, can enable predictions of future channel changes. Methods have included the use of streamgage data, multidate aerial photography, and onsite data collection to determine the location, timing, magnitude, direction, duration, and rate of channel change.
more publications can be found at: https://pubs.er.usgs.gov/
Limitations and implications of stream classification
Historic channel change along Soldier Creek, northeast Kansas
Channel-bed elevation changes downstream from large reservoirs in Kansas
Channel stability downstream from a dam assessed using aerial photographs and stream-gage information
Channel stability of the Neosho River downstream from John Redmond Dam, Kansas
Geomorphic effects of overflow dams on the lower Neosho River, Kansas
Changes in high-flow frequency and channel geometry of the Neosho River downstream from John Redmond Dam, southeastern Kansas
Downstream effects of dams on alluvial rivers
Streamflow characteristics related to channel geometry of streams in western United States
Effect of channel material on width-discharge relations for perennial streams, with emphasis on streams in Kansas -- a progress report
Channel widening and flood-plain construction along Cimarron River in southwestern Kansas
Below are partners associated with this project.
An understanding of river- and stream-channel geomorphic responses to various human-caused and natural disturbances is important for effective management, conservation, and rehabilitation of rivers and streams to accommodate multiple, often conflicting, needs. Channel changes may have implications for the protection of property and structures, water supply, navigation, and habitat. The channel-bank erosion that accompanies natural channel migration on a flood plain represents a constant threat to property and structures located in or near the channel. Various human-caused and natural disturbances introduce additional instability to which rivers and streams adjust. Human-caused disturbances include reservoirs, channelization, in-channel sand and gravel extraction, and urbanization. A common natural disturbance is a flood. Possible geomorphic responses of a channel to disturbances include channel-bed degradation (erosion), channel-bed aggradation (deposition of material), channel widening, and channel straightening. These adjustments represent the channel’s attempt to establish a new approximate equilibrium condition.
Channel adjustments are a concern for several reasons. A substantial lowering of the channel bed poses an immediate threat to bridge pier foundations as well as buried pipelines and cables. In addition, substantial bed lowering increases bank height and bank instability that may trigger channel widening. Channel aggradation raises the bed elevation, reduces channel capacity, and increases the likelihood of flooding. Any channel-bed changes that occur on the main-stem rivers and streams also may migrate upstream on the tributaries where additional property, structures, and habitat may be at risk. Finally, any long-term channel adjustment processes also may instigate or worsen local scour problems.
Geomorphic investigations conducted by the U.S. Geological Survey since 1995 have mostly focused on the response of river and stream channels to various types of natural and human-caused disturbances including floods, reservoir construction and operation, and channelization. Such studies document channel changes, reconstruct historical conditions, determine the causes of channel changes, estimate the rate of geomorphic processes, and, in some cases, can enable predictions of future channel changes. Methods have included the use of streamgage data, multidate aerial photography, and onsite data collection to determine the location, timing, magnitude, direction, duration, and rate of channel change.
more publications can be found at: https://pubs.er.usgs.gov/
Limitations and implications of stream classification
Historic channel change along Soldier Creek, northeast Kansas
Channel-bed elevation changes downstream from large reservoirs in Kansas
Channel stability downstream from a dam assessed using aerial photographs and stream-gage information
Channel stability of the Neosho River downstream from John Redmond Dam, Kansas
Geomorphic effects of overflow dams on the lower Neosho River, Kansas
Changes in high-flow frequency and channel geometry of the Neosho River downstream from John Redmond Dam, southeastern Kansas
Downstream effects of dams on alluvial rivers
Streamflow characteristics related to channel geometry of streams in western United States
Effect of channel material on width-discharge relations for perennial streams, with emphasis on streams in Kansas -- a progress report
Channel widening and flood-plain construction along Cimarron River in southwestern Kansas
Below are partners associated with this project.