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USGS Report: Agriculture and Urban Activities Degrade Water Quality in the South Platte River Basin
Released: 4/20/1998

Contact Information:
U.S. Department of the Interior, U.S. Geological Survey
Office of Communication
119 National Center
Reston, VA 20192
Kevin F. Dennehy 1-click interview
Phone: 303-236-4882 x312

Water quality in the South Platte River Basin has been adversely affected by agriculture and urban development, according to the results of a 5-year investigation of water quality by the U.S. Geological Survey.

"From the standpoint of human health in agricultural areas, we were most concerned about pesticide and nitrate in local drinking water," said Kevin Dennehy, USGS hydrologist in charge of the study. "While we found pesticides in 29 out of the 30 wells sampled, the concentrations were low throughout the agricultural land use area, and concentrations generally were below the regulatory criteria for each of the individual pesticides."

"A complicating factor in telling a complete story about water quality in the basin," Dennehy noted, "is that less than 50 percent of the pesticides that were.detected have established water-quality standards. Moreover, the effects of long-term exposure to pesticide mixtures are, as yet, unknown."

Furthermore, ground water in agricultural areas downstream from Denver is less of an option as a rural drinking-water supply because of the impacts to ground-water quality from the intensive application of agricultural fertilizers and manure, accompanied by widespread irrigation," Dennehy said. "We found that nitrate concentrations exceeded the maximum contaminant level, or MCL, in about 48 percent of agricultural wells sampled. A maximum contaminant level is a drinking-water regulatory standard that is set by the USEPA. Although the wells sampled for this study were not drinking-water wells, local residents get their drinking water from domestic wells that tap the same underground water-supply source," Dennehy said.

Surface- and ground-water resources in the Denver metropolitan area are susceptible to contamination from pesticides and VOCs. All surface-water samples collected at two urban sites contained at least one pesticide, and water from 90 percent of the wells in the shallow alluvial aquifer contained at ]east one pesticide. VOCs were detected in 86 percent of the wells sampled from the shallow alluvial aquifen Sixty- two percent of the samples had more than one VOC present.

The most frequently detected VOC was methyl tert-butyl ether (MTBE), a gasoline additive used to reduce carbon monoxide emissions from vehicles during winter. Although pesticide and VOC concentrations generally were small, their widespread occurrence is a concern, Currently, neither surface nor ground water from the urban area is used for drinking water, but better management of potentially toxic substances may be needed to protect water resources for possible future use as a drinking-water supply.

The good news from the USGS report is that surface and ground water in the forested mountain areas are generally of good quality and relatively unaffected by humans. Mining activities and residential development, however, have impacted water resources and fish communities. Wells are the primary.drinking-water source for most mountain communities, but pesticides were not detected in well water, and only one well had a nitrate concentration above the U.S. Environmental Protection Agency drinking-water standard.

VOCs, such as gasoline components and cleaning solvents were detected in 30 percent of the wells sampled in the mountain areas, but none of the concentrations exceeded drinking-water standards. The occurrence of VOCs in mountain wells indicates that ground water is susceptible to contamination from development and other human activities on the surface.

The effects of human activity on water quality go beyond the concerns of drinking water--the aquatic ecosystem of the basin also has been affected. "Surface water from agricultural and urban areas is not used for drinking water, but fish and invertebrate communities that live in these waters are affected by degraded stream-water-quality," Dennehy said. "Although variability in the type and number of fish can be due to natural factors, including stream size, habitat characteristics, and hydrologic conditions, some variability can be attributed to human influence. For example. suckers, which are tolerant of pollution, dominate fish communities at sites affected by mining and in urban environments." Straightening stream channels, reducing bank vegetation, and increasing bank erosion are some of the human activities that affect stream ecosystems.

Contaminants in all components of the environment --water, bed sediment, and fish --are of con-cern. Although contaminants such as organochlorine pesticides and PCBs found in bed sediment and fish tissue have been banned from use since the 1970’s, they have persisted in the environment for decades, which is important when considering that fish are a part of the natural food chain. The highest number and the highest concentrations of compounds were detected in the urban and mixed (urban/agriculture) areas On a positive note, concentrations of these compounds in whole fish did not exceed US Food and Drug Administration standards for human consumption of fish fillets.

The South Platte River Basin covers parts of three states: 79 percent of the basin is in Colorado, 15 percent is in Nebraska, and 6 percent is in Wyoming. Land use in the basin is predominately rangeland (41 percent), but agriculture (37 percent) and urban or built-up (3 percent) areas have the largest effect on water quality. The population of the basin was about 2.7 million in 1995. About 90 percent of this population is clustered in the Front Range urban corridor (10 percent of the basin), which is located where the mountains meet the plains and is oriented in a north-south direction from Denver to Fort Collins, Colorado.

This study is one of more than 50 studies across the Nation being investigated by the USGS as part of its National Water-Quality Assessment (NAWQA) program. Through the NAWQA program, the USGS provides policy makers and citizens with information about current conditions and trends in water quality and an assesses of the factors that affect water quality across the United States.

Copies of the 38-page, color report, "Water Quality in the South Platte River Basin, Colorado, Nebraska, and Wyoming, 1992-95," by Kevin E Dennehy, David W. Litke, Cathy M. Tate, Sharon L. Qi, Peter B. McMahon, Breton W. Bruce, Robert A. Kimbrough. and Janet S. Heiny. published as USGS Circular 1167 are available free of charge from the USGS Branch of Information Services, Box 25286, Denver Federal Center, Denver, CO 80225, (303) 202-4700 (fax request to (303) 202-4693). The Circular may be viewed on the World Wide Web at:


For additional information contact:

Kevin Dennehy Project Manager
South Platte River Basin NAWQA
(303) 236-4882 X312
kdennehv @ usQs.Qov

Peter McMahon, Water Quality Specialist
South Platte River Basin NAWQA
(303) 236-4882 X286
pmcmahon @usgs. gov

Additional information about the South Platte Basin NAWQA is also available at:


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