Streamflow monitoring in Wisconsin Active
Streamflow data are needed at many sites on a daily basis for forecasting flow conditions and flooding, water-management decisions, assessing water availability, managing water quality, and meeting legal requirements. The USGS has been measuring streamflow in Wisconsin since 1906 with nearly 1,000 active and discontinued gages.
Information on the flow of rivers and streams is a vital national asset that safeguards lives, protects property, and ensures adequate water supplies for the future.
What is a streamgage?
If you have ever crossed a highway bridge and noticed a metal structure with an antenna by the side of it, you’ve probably seen a USGS streamgage. A streamgage contains instruments that measure and record the amount of water flowing in the river or stream. The USGS operates a network of more than 9,000 streamgages nationwide.
Most streamgages operate by measuring the elevation of the water in the river or stream and then converting the water elevation (called “stage”) to streamflow (“discharge”) by using a curve that relates the stage to a set of actual discharge measurements. The gage records the data and transmits it automatically to the USGS National Water Information System (NWIS). Gages can also collected other information, such was water chemistry parameters and temperature.
Learn more about how USGS streamgages work and the National Streamflow Information Program.
Streamflow measurements can also be made manually. Stream-height recording devices might be a staff gage (like a yardstick), a wire weight gage, or a vertical pipe gage, whose stage is visually observed and recorded. Another type of streamgage is one that only provides information on the highest flow since the gage was last visited. This type of streamgage is called a 'crest stage gage' (see below). Crest-stage gages are used to record peak stage during high-flow and flood events.
Why does the USGS collect streamflow data?
Streamflow data are needed at many sites on a daily basis for forecasting flow conditions and flooding, water-management decisions, assessing water availability, managing water quality, and meeting legal requirements. These activities require streamflow information at a given location for a specified time or period. These needs generally are best satisfied by operating a station to produce a continuous (or daily) record of flow.
Some uses for streamflow data include:
- Planning, designing, operating, and maintaining water management systems
- Issuing flood warnings to protect lives and reduce property damage
- Designing highways and bridges
- Mapping floodplains
- Monitoring environmental conditions and protecting aquatic habitats
- Protecting water quality and regulating pollutant discharges
- Evaluating the effects of climate change on hydrology and streamflow
- Managing water rights and transboundary water issues
- Allowing recreational boaters to monitor conditions
Learn more about the users and uses of USGS streamflow data.
Wisconsin streamflow data
The USGS has been measuring streamflow in Wisconsin since 1906. We have nearly 1,000 active and discontinued streamgages in Wisconsin.
Real-time streamgages collect these measurements automatically every 15 minutes, but can collect data more frequently during times of flooding. Every 1 to 4 hours, the data is transmitted to the USGS. Daily summary data are generated and stored in the National Water Information System (NWIS) database. Real-time stream conditions data are available graphically through WaterWatch; the supporting data is available through the “Current Conditions” section in NWIS. The finalized daily data are also published through yearly Water Year Summaries (historically called Annual Water Data Reports).
Below are data or web applications associated with this project.
WaterWatch (surface water)
WaterWatch displays maps, graphs, and tables describing real-time, recent, and past streamflow conditions for the United States, including flood and droughts. Real-time information generally is updated on an hourly basis.
Surface-water data for Wisconsin
Real-time, daily, peak-flow, field measurements, and statistics of current and historical data that describe stream levels, streamflow (discharge), reservoir and lake levels, surface-water quality, and rainfall in Wisconsin. Surface-water data are collected and stored as either discrete field-water-level measurements or as continuous time-series data from automated recorders.
Below are publications associated with this project.
The USGS National Streamflow Information Program and the importance of preserving long-term streamgages
How does a U.S. Geological Survey streamgage work?
Discharge measurements at gaging stations
From the River to You: USGS Real-Time Streamflow Information...from the National Streamflow Information Program
The stream-gaging program of the U.S. Geological Survey
Below are data or web applications associated with this project.
Annual Water Data Reports
Annual Water Data Reports were published annually for many decades as static archival products that supplemented direct access to current and historical water data provided by the National Water Information System (NWIS). This site helps users access historical Water Data Reports, electronic Site Data Sheets, or current on-demand, print-ready Water-Year Summaries.
- Overview
Streamflow data are needed at many sites on a daily basis for forecasting flow conditions and flooding, water-management decisions, assessing water availability, managing water quality, and meeting legal requirements. The USGS has been measuring streamflow in Wisconsin since 1906 with nearly 1,000 active and discontinued gages.
Information on the flow of rivers and streams is a vital national asset that safeguards lives, protects property, and ensures adequate water supplies for the future.
What is a streamgage?
If you have ever crossed a highway bridge and noticed a metal structure with an antenna by the side of it, you’ve probably seen a USGS streamgage. A streamgage contains instruments that measure and record the amount of water flowing in the river or stream. The USGS operates a network of more than 9,000 streamgages nationwide.
Most streamgages operate by measuring the elevation of the water in the river or stream and then converting the water elevation (called “stage”) to streamflow (“discharge”) by using a curve that relates the stage to a set of actual discharge measurements. The gage records the data and transmits it automatically to the USGS National Water Information System (NWIS). Gages can also collected other information, such was water chemistry parameters and temperature.
Learn more about how USGS streamgages work and the National Streamflow Information Program.
Streamflow measurements can also be made manually. Stream-height recording devices might be a staff gage (like a yardstick), a wire weight gage, or a vertical pipe gage, whose stage is visually observed and recorded. Another type of streamgage is one that only provides information on the highest flow since the gage was last visited. This type of streamgage is called a 'crest stage gage' (see below). Crest-stage gages are used to record peak stage during high-flow and flood events.
Why does the USGS collect streamflow data?
Streamflow data are needed at many sites on a daily basis for forecasting flow conditions and flooding, water-management decisions, assessing water availability, managing water quality, and meeting legal requirements. These activities require streamflow information at a given location for a specified time or period. These needs generally are best satisfied by operating a station to produce a continuous (or daily) record of flow.
Some uses for streamflow data include:
- Planning, designing, operating, and maintaining water management systems
- Issuing flood warnings to protect lives and reduce property damage
- Designing highways and bridges
- Mapping floodplains
- Monitoring environmental conditions and protecting aquatic habitats
- Protecting water quality and regulating pollutant discharges
- Evaluating the effects of climate change on hydrology and streamflow
- Managing water rights and transboundary water issues
- Allowing recreational boaters to monitor conditions
Learn more about the users and uses of USGS streamflow data.
Wisconsin streamflow data
The USGS has been measuring streamflow in Wisconsin since 1906. We have nearly 1,000 active and discontinued streamgages in Wisconsin.
Real-time streamgages collect these measurements automatically every 15 minutes, but can collect data more frequently during times of flooding. Every 1 to 4 hours, the data is transmitted to the USGS. Daily summary data are generated and stored in the National Water Information System (NWIS) database. Real-time stream conditions data are available graphically through WaterWatch; the supporting data is available through the “Current Conditions” section in NWIS. The finalized daily data are also published through yearly Water Year Summaries (historically called Annual Water Data Reports).
- Data
Below are data or web applications associated with this project.
WaterWatch (surface water)
WaterWatch displays maps, graphs, and tables describing real-time, recent, and past streamflow conditions for the United States, including flood and droughts. Real-time information generally is updated on an hourly basis.
Surface-water data for Wisconsin
Real-time, daily, peak-flow, field measurements, and statistics of current and historical data that describe stream levels, streamflow (discharge), reservoir and lake levels, surface-water quality, and rainfall in Wisconsin. Surface-water data are collected and stored as either discrete field-water-level measurements or as continuous time-series data from automated recorders.
- Publications
Below are publications associated with this project.
The USGS National Streamflow Information Program and the importance of preserving long-term streamgages
Long-term streamflow information is critical for use in several water-related areas that are important to humans and wildlife, including water management, computation of flood and drought flows for water infrastructure, and analysis of climate-related trends. Specific uses are many and diverse and range from informing water rights across state and international boundaries to designing dams and briAuthorsGlenn A. Hodgkins, J. Michael Norris, Robert M. LentHow does a U.S. Geological Survey streamgage work?
Information on the flow of rivers and streams is a vital national asset that safeguards lives, protects property, and ensures adequate water supplies for the future. The U.S. Geological Survey (USGS) operates a network of more than 9,000 streamgages nationwide with more than 500 in Texas.AuthorsDee L. LurryDischarge measurements at gaging stations
The techniques and standards for making discharge measurements at streamflow gaging stations are described in this publication. The vertical axis rotating-element current meter, principally the Price current meter, has been traditionally used for most measurements of discharge; however, advancements in acoustic technology have led to important developments in the use of acoustic Doppler current prAuthorsD. Phil Turnipseed, Vernon B. SauerFrom the River to You: USGS Real-Time Streamflow Information...from the National Streamflow Information Program
This Fact Sheet is one in a series that highlights information or recent research findings from the USGS National Streamflow Information Program (NSIP). The investigations and scientific results reported in this series require a nationally consistent streamgaging network with stable long-term monitoring sites and a rigorous program of data, quality assurance, management, archiving, and synthesis.AuthorsJoseph P. Nielsen, J. Michael NorrisThe stream-gaging program of the U.S. Geological Survey
The U.S. Geological Survey stream-gaging program provides streamflow data for a variety of purposes. The uses of streamflow data are described, and the growth of the stream-gaging program is related to legislation and the need to manage the Nation's water resources more effectively. A brief description is provided of the data-collection processes, computation of streamflow records, dissemination oAuthorsKenneth L. Wahl, Wilbert O. Thomas, Robert M. Hirsch - Web Tools
Below are data or web applications associated with this project.
Annual Water Data Reports
Annual Water Data Reports were published annually for many decades as static archival products that supplemented direct access to current and historical water data provided by the National Water Information System (NWIS). This site helps users access historical Water Data Reports, electronic Site Data Sheets, or current on-demand, print-ready Water-Year Summaries.