Urban Water Quality Monitoring in Johnson County Kansas Active
Johnson County, a suburban part of the Kansas City metropolitan area, is one of the most populated counties in Kansas with 544,000 people in 2010, a 21 percent increase in population since 2000, according to the U.S. Census Bureau. Located in northeastern Kansas, about one-half of the county is urban. Urban, industrial, and agricultural land uses affect the quality of streams and lakes in the county. Water-quality impairments related to excessive nutrients, sediment, and bacteria have been identified by the Kansas Department of Health and Environment. Since 2002, the USGS has conducted several past and ongoing studies related to hydrology and stream quality. Analysis of the data obtained from these studies is being used to better understand streamflow characteristics such as flooding and urban hydrology and factors that affect water quality and ecosystem health. In addition, these studies identify current and changing conditions and help municipalities address regulatory requirements related to the Clean Water Act.
Streams in Johnson County in northeast Kansas are important for human and environmental health, water supply, recreation, and aesthetic value. Rapid population growth and urbanization in Johnson County has affected stream quality. Urbanization results in more residential, commercial, and industrial developments, and generally affects streams by altering hydrology, geomorphology, chemistry, and biology. These changes affect aquatic communities. Contamination entering streams in rural and urban areas can originate from point sources (such as wastewater treatment discharges) and nonpoint sources (such as stormwater runoff, leaking sewer lines, septic tanks, and atmospheric deposition).
Results from these studies are used to define current water-quality conditions, understand variability in conditions, evaluate effects of urbanization, develop effective water-quality management plans, document changes in water quality, and evaluate conditions relative to total maximum daily loads (TMDLs), National Pollutant Discharge Elimination System (NPDES) requirements, and water-quality standards.
Monitoring Water Quality to Assess Total Maximum Daily Loads (TMDLs)
Total maximum daily loads (TMDLs) are water-quality criteria that originate from national recommended criteria (US EPA) and state water-quality standards (Kansas Department of Health and Environment). In Johnson County, most water-quality impairment is caused by excessive nutrients, sediment, and fecal bacteria. This project monitors water-quality constituents in stormwater that are regulated by TMDLs in Johnson County streams and lakes and evaluates the utility of the monitoring data in assessing water-quality improvements. Water-quality samples are being collected at 26 sites and analyzed for nutrients (nitrogen and phosphorus), sediment, and E.coli bacteria.
Assessment of Streamflow Alteration in Johnson County Streams
Alteration of the natural streamflow regime, or hydromodification, is a primary factor affecting stream health in urban areas and is potentially a major cause of ecological stream impairments. This study will quantify hydromodification in selected watersheds, identify streamflow metrics that may have important implications for stream quality, and develop tools for monitoring streamflow changes that may be used to evaluate management practices that affect streamflow.
Effects of Wastewater Discharge and Treatment Facility Upgrades on Stream Quality
The effects of wastewater effluent discharge on stream quality were assessed in Indian Creek and in the Blue River during 2008-2014. Physical and chemical conditions were evaluated using previously and newly collected discrete and continuous data. Conditions were compared with an assessment of biological community composition and ecosystem function along the upstream-downstream gradient to understand the potential effects of wastewater effluent on water quality, biological community structure, and ecosystem function.
Evaluation of Water Quality of Johnson County Streams
Water quality of Johnson County streams was evaluated during 2002-2010 to describe water quality in streams throughout Johnson County; identify contaminant source areas; assess biological conditions in relation to environmental variables; evaluate the effects of urbanization; and estimate water-quality constituent concentrations, loads, and yields.
Types of data collected for evaluation included streamflow, water chemistry (discrete and continuous data), streambed sediment chemistry, benthic macroinvertebrates, periphyton (algae), habitat measurements, and land-use information. Constituents analyzed in water and sediment were suspended sediment, dissolved solids and major ions, nutrients (nitrogen and phosphorus), indicator bacteria (E.coli), pesticides, and organic wastewater and pharmaceutical compounds. This information is used to define current water-quality conditions, document changes in water quality, and evaluate effects of urbanization.
Sediment Transport to Streams and Lakes in Johnson County
Sediment transport was studied during 2006-2008 to better understand the effects of urbanization, construction activity, management practices, and impoundments on suspended-sediment concentrations and loads in Johnson County streams and lakes. This information is used to better understand where and at what scale impacts from landscape disturbance can be controlled to protect stream water quality and stream ecosystems.
Below are publications associated with this project.
Water quality of streams in Johnson County, Kansas, 2002-07
Continuous water-quality monitoring of streams in Johnson County, Kansas 2002-06
Estimation of Constituent Concentrations, Loads, and Yields in Streams of Johnson County, Northeast Kansas, Using Continuous Water-Quality Monitoring and Regression Models, October 2002 through December 2006
Bottom-Sediment Accumulation and Quality in Shawnee Mission Lake, Johnson County, Kansas, 2006
Assessment of biological conditions at selected stream sites in Johnson County, Kansas, and Cass and Jackson Counties, Missouri, 2003 and 2004
Biological conditions in streams of Johnson County, Kansas, and nearby Missouri, 2003 and 2004
Effects of nonpoint and selected point contaminant sources on stream-water quality and relation to land use in Johnson County, northeastern Kansas, October 2002 through June 2004
Effects of contaminant sources on stream-water quality in Johnson County, northeastern Kansas, October 2002 through June 2004
Below are partners associated with this project.
- Overview
Johnson County, a suburban part of the Kansas City metropolitan area, is one of the most populated counties in Kansas with 544,000 people in 2010, a 21 percent increase in population since 2000, according to the U.S. Census Bureau. Located in northeastern Kansas, about one-half of the county is urban. Urban, industrial, and agricultural land uses affect the quality of streams and lakes in the county. Water-quality impairments related to excessive nutrients, sediment, and bacteria have been identified by the Kansas Department of Health and Environment. Since 2002, the USGS has conducted several past and ongoing studies related to hydrology and stream quality. Analysis of the data obtained from these studies is being used to better understand streamflow characteristics such as flooding and urban hydrology and factors that affect water quality and ecosystem health. In addition, these studies identify current and changing conditions and help municipalities address regulatory requirements related to the Clean Water Act.
Streams in Johnson County in northeast Kansas are important for human and environmental health, water supply, recreation, and aesthetic value. Rapid population growth and urbanization in Johnson County has affected stream quality. Urbanization results in more residential, commercial, and industrial developments, and generally affects streams by altering hydrology, geomorphology, chemistry, and biology. These changes affect aquatic communities. Contamination entering streams in rural and urban areas can originate from point sources (such as wastewater treatment discharges) and nonpoint sources (such as stormwater runoff, leaking sewer lines, septic tanks, and atmospheric deposition).
Results from these studies are used to define current water-quality conditions, understand variability in conditions, evaluate effects of urbanization, develop effective water-quality management plans, document changes in water quality, and evaluate conditions relative to total maximum daily loads (TMDLs), National Pollutant Discharge Elimination System (NPDES) requirements, and water-quality standards.
Monitoring Water Quality to Assess Total Maximum Daily Loads (TMDLs)
Total maximum daily loads (TMDLs) are water-quality criteria that originate from national recommended criteria (US EPA) and state water-quality standards (Kansas Department of Health and Environment). In Johnson County, most water-quality impairment is caused by excessive nutrients, sediment, and fecal bacteria. This project monitors water-quality constituents in stormwater that are regulated by TMDLs in Johnson County streams and lakes and evaluates the utility of the monitoring data in assessing water-quality improvements. Water-quality samples are being collected at 26 sites and analyzed for nutrients (nitrogen and phosphorus), sediment, and E.coli bacteria.
Assessment of Streamflow Alteration in Johnson County Streams
Alteration of the natural streamflow regime, or hydromodification, is a primary factor affecting stream health in urban areas and is potentially a major cause of ecological stream impairments. This study will quantify hydromodification in selected watersheds, identify streamflow metrics that may have important implications for stream quality, and develop tools for monitoring streamflow changes that may be used to evaluate management practices that affect streamflow.
Effects of Wastewater Discharge and Treatment Facility Upgrades on Stream Quality
The effects of wastewater effluent discharge on stream quality were assessed in Indian Creek and in the Blue River during 2008-2014. Physical and chemical conditions were evaluated using previously and newly collected discrete and continuous data. Conditions were compared with an assessment of biological community composition and ecosystem function along the upstream-downstream gradient to understand the potential effects of wastewater effluent on water quality, biological community structure, and ecosystem function.
Evaluation of Water Quality of Johnson County Streams
Water quality of Johnson County streams was evaluated during 2002-2010 to describe water quality in streams throughout Johnson County; identify contaminant source areas; assess biological conditions in relation to environmental variables; evaluate the effects of urbanization; and estimate water-quality constituent concentrations, loads, and yields.
Types of data collected for evaluation included streamflow, water chemistry (discrete and continuous data), streambed sediment chemistry, benthic macroinvertebrates, periphyton (algae), habitat measurements, and land-use information. Constituents analyzed in water and sediment were suspended sediment, dissolved solids and major ions, nutrients (nitrogen and phosphorus), indicator bacteria (E.coli), pesticides, and organic wastewater and pharmaceutical compounds. This information is used to define current water-quality conditions, document changes in water quality, and evaluate effects of urbanization.
Sediment Transport to Streams and Lakes in Johnson County
Sediment transport was studied during 2006-2008 to better understand the effects of urbanization, construction activity, management practices, and impoundments on suspended-sediment concentrations and loads in Johnson County streams and lakes. This information is used to better understand where and at what scale impacts from landscape disturbance can be controlled to protect stream water quality and stream ecosystems.
- Publications
Below are publications associated with this project.
Filter Total Items: 20Water quality of streams in Johnson County, Kansas, 2002-07
Water quality of streams in Johnson County, Kansas was evaluated from October 2002 through December 2007 in a cooperative study between the U.S. Geological Survey and the Johnson County Stormwater Management Program. Water quality at 42 stream sites, representing urban and rural basins, was characterized by evaluating benthic macroinvertebrates, water (discrete and continuous data), and/or streambAuthorsT. J. RasmussenContinuous water-quality monitoring of streams in Johnson County, Kansas 2002-06
Water quality in Johnson County, Kansas was characterized on the basis of continuous, in-stream monitoring. The results summarized in this fact sheet may be used to better understand concentration and load variability during changing seasonal and streamflow conditions and to assess water-quality conditions relative to water-quality standards and management goals. The baseline information also willAuthorsTeresa J. Rasmussen, Casey J. Lee, Andrew C. ZieglerEstimation of Constituent Concentrations, Loads, and Yields in Streams of Johnson County, Northeast Kansas, Using Continuous Water-Quality Monitoring and Regression Models, October 2002 through December 2006
Johnson County is one of the most rapidly developing counties in Kansas. Population growth and expanding urban land use affect the quality of county streams, which are important for human and environmental health, water supply, recreation, and aesthetic value. This report describes estimates of streamflow and constituent concentrations, loads, and yields in relation to watershed characteristics inAuthorsTeresa J. Rasmussen, Casey J. Lee, Andrew C. ZieglerBottom-Sediment Accumulation and Quality in Shawnee Mission Lake, Johnson County, Kansas, 2006
Shawnee Mission Lake is an artificial impoundment central to Shawnee Mission Park, the largest public park in Johnson County, Kansas. The Shawnee Mission Lake watershed has remained relatively undeveloped since the completion of the dam in 1962. However, recent (1990?2006) urban development has been a cause for concern regarding the quantity and quality of sediment entering the reservoir. The U.S.AuthorsCasey J. Lee, Kyle E. Juracek, Christopher C. FullerAssessment of biological conditions at selected stream sites in Johnson County, Kansas, and Cass and Jackson Counties, Missouri, 2003 and 2004
Macroinvertebrate samples were collected at 15 stream sites representing 11 different watersheds in Johnson County, Kansas, in 2003 and 2004 to assess biological conditions in streams and relations to environmental variables. Published data from an additional seven stream sites, one in Johnson County, Kansas, and six others in adjacent Cass and Jackson Counties in Missouri also were evaluated. MulAuthorsBarry C. Poulton, Teresa J. Rasmussen, Casey J. LeeBiological conditions in streams of Johnson County, Kansas, and nearby Missouri, 2003 and 2004
Johnson County is one of the fastest growing and most populated counties in Kansas. Urban development affects streams by altering stream hydrology, geomorphology, water chemistry, and habitat, which then can lead to adverse effects on fish and macroinvertebrate communities. In addition, increasing sources of contaminants in urbanizing streams results in public-health concerns associated with exposAuthorsBarry C. Poulton, Teresa J. Rasmussen, Casey J. LeeEffects of nonpoint and selected point contaminant sources on stream-water quality and relation to land use in Johnson County, northeastern Kansas, October 2002 through June 2004
Water and sediment samples were collected by the U.S. Geological Survey in 12 watersheds in Johnson County, northeastern Kansas, to determine the effects of nonpoint and selected point contaminant sources on stream-water quality and their relation to varying land use. The streams studied were located in urban areas of the county (Brush, Dykes Branch, Indian, Tomahawk, and Turkey Creeks), developinAuthorsCasey J. Lee, D.P. Mau, T. J. RasmussenEffects of contaminant sources on stream-water quality in Johnson County, northeastern Kansas, October 2002 through June 2004
No abstract available.AuthorsCasey J. Lee, David P. Mau, Teresa J. Rasmussen - Partners
Below are partners associated with this project.