Water-quality “super” gages (also known as “sentry” gages) provide real-time, continuous measurements of the physical and chemical characteristics of stream water at or near selected U.S. Geological Survey (USGS) streamgages in Ohio, Kentucky, and Indiana. A super gage includes streamflow and water-quality instrumentation and representative stream sample collection for laboratory analysis. USGS scientists can use statistical surrogate models to relate instrument values to analyzed chemical concentrations at a super gage. Real-time, continuous and laboratory-analyzed concentration and load data are publicly accessible on USGS Web pages.
Station Description
Latitude: 41°23'22.7"
Longitude: 86°42'22.2"
Hydrologic Unit Code (HUC): 07120001
Datum: 664.34 feet above NAVD88
Drainage Area: 542 square miles
County in which site is located: Starke County
Site managed by: Indianapolis Office
Station Funding
This station is operated and maintained in cooperation with the Kankakee River Basin Commission and the Indiana Department of Environmental Management.
Hydrologic Conditions
In Indiana, the Kankakee River has a total drainage area of 1,920 square miles. From its source in northern Indiana, the Kankakee River flows westward through several Indiana counties and into Illinois. It is a tributary of the Illinois River and is within the Mississippi Watershed. Major tributaries to the Kankakee River in Indiana include the Yellow River.
The Kankakee River lies in the Northern Moraine and Lake physiographic region of Indiana where the surficial geology consists of stratified sand and gravel. Historically, much of the Kankakee River in Indiana and Illinois meandered through an area called the Grand Marsh. By the early 20th century the entire main stem of the river in Indiana was extensively channelized to lessen flooding and drain swampland areas for agriculture.
Sample Collection and Use
The super gage, Kanakakee River at Davis, deploys a multi-parameter sonde to collect continuous measurements of water temperature, specific conductance, pH, dissolved oxygen, and turbidity. An additional monitor continuously measures nitrate plus nitrite. Measurements are collected every 15 minutes and update to the web hourly. Additionally, hydrologic technicians collect water-quality samples to represent a variety of hydrologic and seasonal conditions. Samples are analyzed for concentration of suspended sediment, nitrogen, and phosphorus.
Concentrations from laboratory analysis and corresponding values from in-stream instruments are mathematically combined to develop a statistical surrogate model. Then, the model is used to compute real-time concentrations based on continuous in-stream sensor readings of another, more easily measured value. For example, turbidity is a typical in-stream measurement used as a surrogate for suspended-sediment concentration. Daily, monthly, and annual loads can be computed and compared to understand seasonal and annual variability.
Why Continuous Monitoring is Important
Over time, the quality of the Kankakee River and its tributaries (Yellow and Iroquois Rivers) has been altered by excess sedimentation from channelization and land use practices. A major concern to local residents and users of the Kankakee River is that sedimentation is limiting the recreational, ecological, and overall usefulness of the river.
The Kankakee River Basin Commission (KRBC) is a local Indiana agency charged with overseeing water resources within the basin including the Kankakee River and its tributaries. In 2013, the KRBC asked the USGS to install, operate, and maintain a super gage on the Kankakee River at Davis, IN. The gage will quantify concentrations and loads of sediment and nutrients being transported by the Kankakee River. This site, in particular, provides information about sediment and nutrient transport prior to the confluence with the Yellow River. Data provide information to understand effects of management practices within the watershed.
Below are multimedia items associated with this project.
Below are partners associated with this project.
Water-quality “super” gages (also known as “sentry” gages) provide real-time, continuous measurements of the physical and chemical characteristics of stream water at or near selected U.S. Geological Survey (USGS) streamgages in Ohio, Kentucky, and Indiana. A super gage includes streamflow and water-quality instrumentation and representative stream sample collection for laboratory analysis. USGS scientists can use statistical surrogate models to relate instrument values to analyzed chemical concentrations at a super gage. Real-time, continuous and laboratory-analyzed concentration and load data are publicly accessible on USGS Web pages.
Station Description
Latitude: 41°23'22.7"
Longitude: 86°42'22.2"
Hydrologic Unit Code (HUC): 07120001
Datum: 664.34 feet above NAVD88
Drainage Area: 542 square miles
County in which site is located: Starke County
Site managed by: Indianapolis Office
Station Funding
This station is operated and maintained in cooperation with the Kankakee River Basin Commission and the Indiana Department of Environmental Management.
Hydrologic Conditions
In Indiana, the Kankakee River has a total drainage area of 1,920 square miles. From its source in northern Indiana, the Kankakee River flows westward through several Indiana counties and into Illinois. It is a tributary of the Illinois River and is within the Mississippi Watershed. Major tributaries to the Kankakee River in Indiana include the Yellow River.
The Kankakee River lies in the Northern Moraine and Lake physiographic region of Indiana where the surficial geology consists of stratified sand and gravel. Historically, much of the Kankakee River in Indiana and Illinois meandered through an area called the Grand Marsh. By the early 20th century the entire main stem of the river in Indiana was extensively channelized to lessen flooding and drain swampland areas for agriculture.
Sample Collection and Use
The super gage, Kanakakee River at Davis, deploys a multi-parameter sonde to collect continuous measurements of water temperature, specific conductance, pH, dissolved oxygen, and turbidity. An additional monitor continuously measures nitrate plus nitrite. Measurements are collected every 15 minutes and update to the web hourly. Additionally, hydrologic technicians collect water-quality samples to represent a variety of hydrologic and seasonal conditions. Samples are analyzed for concentration of suspended sediment, nitrogen, and phosphorus.
Concentrations from laboratory analysis and corresponding values from in-stream instruments are mathematically combined to develop a statistical surrogate model. Then, the model is used to compute real-time concentrations based on continuous in-stream sensor readings of another, more easily measured value. For example, turbidity is a typical in-stream measurement used as a surrogate for suspended-sediment concentration. Daily, monthly, and annual loads can be computed and compared to understand seasonal and annual variability.
Why Continuous Monitoring is Important
Over time, the quality of the Kankakee River and its tributaries (Yellow and Iroquois Rivers) has been altered by excess sedimentation from channelization and land use practices. A major concern to local residents and users of the Kankakee River is that sedimentation is limiting the recreational, ecological, and overall usefulness of the river.
The Kankakee River Basin Commission (KRBC) is a local Indiana agency charged with overseeing water resources within the basin including the Kankakee River and its tributaries. In 2013, the KRBC asked the USGS to install, operate, and maintain a super gage on the Kankakee River at Davis, IN. The gage will quantify concentrations and loads of sediment and nutrients being transported by the Kankakee River. This site, in particular, provides information about sediment and nutrient transport prior to the confluence with the Yellow River. Data provide information to understand effects of management practices within the watershed.
Below are multimedia items associated with this project.
Below are partners associated with this project.