Kenneth J Leib
Ken is the Associate Director for Studies with the USGS Colorado Water Science Center (COWSC), Western Colorado Office, in Grand Junction, CO.
Previously he served as the Office and Studies Section Chief of the Western Area Office of the COWSC in Grand Junction, CO, and as a project hydrologist. He received a B.S. in Watershed Science from Colorado State University in 1995 and has worked with the USGS since 1996. Ken has served as the COWSC representative to the National Irrigation Water Quality Program, Salinity Control Program, Selenium Management Program, and has been project lead on numerous water-quality and surface water investigations in Western Colorado.
Science and Products
Characterization of Streamflow, Suspended Sediment, and Nutrients in the Upper Yampa River Basin
The Upper Yampa River Basin (UYRB) drains approximately 1,800 square miles west of the Continental Divide in northwestern Colorado. In 2019, the USGS, in cooperation with local stakeholders in the UYRB water community, initiated a study to characterize streamflow, suspended sediment, and nutrients using historic and recently acquired water-quality data from a long-term monitoring program initiated...
Lower Gunnison River Basin Groundwater Selenium
The east side of the Uncompahgre River Basin has been a known contributor of dissolved selenium to recipient streams. Discharge of groundwater containing dissolved selenium contributes to surface-water selenium concentrations and loads; however, the groundwater system on the east side of the Uncompahgre River Basin is not well characterized.
Natural Resources Conservation Service Deep Percolation
The conversion of agricultural land to urban residential land is associated with rapid population growth in the Grand Valley of western Colorado. Information regarding the effects of this land-use conversion on deep percolation, irrigation-water application, and associated salt loading to the Colorado River is needed to support water-resource planning and conservation efforts.
Eagle River Water-Quality Data
The Eagle River drains approximately 970 square miles (sq mi) west of the Continental Divide in central Colorado before flowing into the Colorado River. The Eagle River watershed (ERW) is located primarily within Eagle County and includes the towns of Vail, Minturn, Avon, Edwards, Eagle, and Gypsum. The eastern boundary of the Eagle River watershed is drained by Gore Creek, located at Vail Pass...
Loutzenhizer Arroyo Water Quality Monitoring activities in the Lower Gunnison Basin
Emerging water-quality issues within Delta, Montrose, and Mesa counties reflect changing land use practices, housing development and related pressures due to growth. Significant amounts of data have been collected by members of the Gunnison Basin Selenium Task Force as it relates to selenium related water-quality problems. Soils within a large portion of the lower Gunnison Basin are derived from...
Characterization of Selenium Sources in the Lower Gunnison River Basin
High concentrations of dissolved selenium have been detected in the lower Gunnison River basin including the Uncompahgre River basin. Butler and others (1991 and 1996) identified the highest concentrations of selenium in surface waters in areas that are irrigated on soils derived from Mancos Shale. In July 1997, the Colorado Water Quality Control Commission amended the classifications and numeric...
Science and Products
Characterization of Streamflow, Suspended Sediment, and Nutrients in the Upper Yampa River Basin
The Upper Yampa River Basin (UYRB) drains approximately 1,800 square miles west of the Continental Divide in northwestern Colorado. In 2019, the USGS, in cooperation with local stakeholders in the UYRB water community, initiated a study to characterize streamflow, suspended sediment, and nutrients using historic and recently acquired water-quality data from a long-term monitoring program initiated...
Lower Gunnison River Basin Groundwater Selenium
The east side of the Uncompahgre River Basin has been a known contributor of dissolved selenium to recipient streams. Discharge of groundwater containing dissolved selenium contributes to surface-water selenium concentrations and loads; however, the groundwater system on the east side of the Uncompahgre River Basin is not well characterized.
Natural Resources Conservation Service Deep Percolation
The conversion of agricultural land to urban residential land is associated with rapid population growth in the Grand Valley of western Colorado. Information regarding the effects of this land-use conversion on deep percolation, irrigation-water application, and associated salt loading to the Colorado River is needed to support water-resource planning and conservation efforts.
Eagle River Water-Quality Data
The Eagle River drains approximately 970 square miles (sq mi) west of the Continental Divide in central Colorado before flowing into the Colorado River. The Eagle River watershed (ERW) is located primarily within Eagle County and includes the towns of Vail, Minturn, Avon, Edwards, Eagle, and Gypsum. The eastern boundary of the Eagle River watershed is drained by Gore Creek, located at Vail Pass...
Loutzenhizer Arroyo Water Quality Monitoring activities in the Lower Gunnison Basin
Emerging water-quality issues within Delta, Montrose, and Mesa counties reflect changing land use practices, housing development and related pressures due to growth. Significant amounts of data have been collected by members of the Gunnison Basin Selenium Task Force as it relates to selenium related water-quality problems. Soils within a large portion of the lower Gunnison Basin are derived from...
Characterization of Selenium Sources in the Lower Gunnison River Basin
High concentrations of dissolved selenium have been detected in the lower Gunnison River basin including the Uncompahgre River basin. Butler and others (1991 and 1996) identified the highest concentrations of selenium in surface waters in areas that are irrigated on soils derived from Mancos Shale. In July 1997, the Colorado Water Quality Control Commission amended the classifications and numeric...