Skip to main content
U.S. flag

An official website of the United States government

Water data for Michigan, Minnesota, and Wisconsin

Access real-time and historical data for surface water, groundwater, water quality, and water use

Get data

Edge-of-field monitoring

Testing the effectiveness of agricultural conservation practices for reducing nutrient and sediment runoff

Learn more

SPARROW models of streamflow and nitrogen, phosphorus, and suspended-s

SPARROW Watershed Models of Loads in Midwest Streams

Explore

Great Lakes urban stormwater monitoring

Assessing the ability of green infrastructure to reduce stormwater runoff in Great Lakes urban areas

Learn more

Great Lakes mercury sources revealed

Mercury "footprinting" identifies sources of pollution in the Great Lakes

Explore

Upper Midwest Water Science Center

Our USGS Upper Midwest Water Science Center priority is to continue the important work of the Department of the Interior and the USGS, while also maintaining the health and safety of our employees and community.  Based on guidance from the White House, the CDC, and state and local authorities, we are shifting our operations to a virtual mode and have minimal staffing

Current conditions in MI, MN, and WI

Explore real-time streamflow, groundwater, and water-quality conditions and access data with our interactive map application.

Message from the Director

Headshot of John F. Walker

Learn more about the Upper Midwest Water Science Center from John Walker, our Center Director.

Read more

Upper Midwest Water Science Cener Quick Links

News

link

Identifying the Sources of Mercury in Water, Sediment, and Fish Downstream of a Historical Mining Site

link

Upper Midwest Water Science Center Fall/Winter 2022 Newsletter is now available

link

Launch of Northeast Wisconsin Well Water Advisory Forecast Study

View All

Publications

Simulation of monthly mean and monthly base flow of streamflow using random forests for the Mississippi River Alluvial Plain, 1901 to 2018

Improved simulations of streamflow and base flow for selected sites within and adjacent to the Mississippi River Alluvial Plain area are important for modeling groundwater flow because surface-water flows have a substantial effect on groundwater levels. One method for simulating streamflow and base flow, random forest (RF) models, was developed from the data at gaged sites and, in turn, was used t
By
Water Resources Mission Area, Upper Midwest Environmental Sciences Center, Upper Midwest Water Science Center, Lower Mississippi-Gulf Water Science Center, Nebraska Water Science Center

The water cycle

An illustrated diagram of the water cycle. This is a modern, updated version of the widely used diagram featured on the USGS Water Science School. Notably, this new water cycle diagram depicts humans and major categories of human water use as key components of the water cycle, in addition to the key pools and fluxes of the hydrologic cycle. This product targets an 8th grade audience and is designe
By
Water Resources Mission Area, Caribbean-Florida Water Science Center (CFWSC), Colorado Water Science Center, Upper Midwest Water Science Center

Building a library of source samples for sediment fingerprinting – Potential and proof of concept

PurposeSediment fingerprinting of fluvial targets has proven useful to guide conservation management and prioritize sediment sources for Federal and State supported programs in the United States. However, the collection and analysis of source samples can make these studies unaffordable, especially when needed for multiple drainage basins. We investigate the potential use of source samples from a b
By
Ohio-Kentucky-Indiana Water Science Center, Upper Midwest Water Science Center
View All

Science

link
Two cylindrical coolers and water quality monitoring equipment next to greenery planted in a sidewalk urban environment.

Rapid Assessment of Green Infrastructure to Inform Future Implementation in the Great Lakes

Green infrastructure (GI) practices across the Great Lakes are being assessed to better understand how soils, vegetation, land use, maintenance practices and other design parameters influence their ability to infiltrate stormwater runoff. Statistical evaluation of aggregated site assessments will provide useful information on which factors hold high importance when designing and locating future GI...
By
Upper Midwest Water Science Center
link

Rapid Assessment of Green Infrastructure to Inform Future Implementation in the Great Lakes

Green infrastructure (GI) practices across the Great Lakes are being assessed to better understand how soils, vegetation, land use, maintenance practices and other design parameters influence their ability to infiltrate stormwater runoff. Statistical evaluation of aggregated site assessments will provide useful information on which factors hold high importance when designing and locating future GI...
Learn More
link
Three people measure streamflow while standing in the middle of an Iowa stream, leafy foliage surrounds stream.

Assessing the health risk from waterborne pathogens for public users recreating on future Iowa Water Trails recreation sites near Des Moines

Scientists at LIDE are collaborating with Polk County Conservation in central Iowa to estimate the health risk posed to recreators in the Des Moines River and tributaries. Samples collected over two years are tested for viral, bacterial, and protozoan pathogens, and health risk is estimated using quantitative microbial risk assessment (QMRA). Health risk will also be compared to microbial source...
By
Upper Midwest Water Science Center, Laboratory for Infectious Disease and the Environment
link

Assessing the health risk from waterborne pathogens for public users recreating on future Iowa Water Trails recreation sites near Des Moines

Scientists at LIDE are collaborating with Polk County Conservation in central Iowa to estimate the health risk posed to recreators in the Des Moines River and tributaries. Samples collected over two years are tested for viral, bacterial, and protozoan pathogens, and health risk is estimated using quantitative microbial risk assessment (QMRA). Health risk will also be compared to microbial source...
Learn More
link
Three scientists collecting residential water well samples on sunny snowy day

Well Water Advisory Forecasts for northeast Wisconsin

The fractured bedrock of northeast Wisconsin is vulnerable to groundwater contamination because water and contaminants can move quickly. LIDE is launching a study to predict contamination of private wells in northeast WI using Runoff Risk Advisory Forecasts (RRAF). RRAF is an online tool that forecasts conditions conducive to surface runoff, and the long-term vision is to leverage its forecasts to...
By
Upper Midwest Water Science Center, Laboratory for Infectious Disease and the Environment
link

Well Water Advisory Forecasts for northeast Wisconsin

The fractured bedrock of northeast Wisconsin is vulnerable to groundwater contamination because water and contaminants can move quickly. LIDE is launching a study to predict contamination of private wells in northeast WI using Runoff Risk Advisory Forecasts (RRAF). RRAF is an online tool that forecasts conditions conducive to surface runoff, and the long-term vision is to leverage its forecasts to...
Learn More
View All