Monitoring Mining Effects in the Kootenai River Watershed Active
The Kootenai River (Kootenay in Canada) rises from the Canadian Rockies and flows south in an arc through Montana and Idaho before swinging back into British Columbia and the Columbia River. The uplifted sedimentary rocks forming the southern Canadian Rockies have rich coal deposits that have been mined for many decades. The coal beds and associated rock layers are enriched with other minerals as well, and in the last two decades elevated concentrations of selenium in downstream waters have raised concerns. Selenium is an essential mineral for all animals, but in excess it can accumulate in the tissues of fish and other animals to the point of harming reproduction.
In 2018, in cooperation with the U.S. Environmental Protection Agency, and with in-kind support from the Kootenai Tribe of Idaho, the Idaho Department of Fish and Game; and the Montana Department of Fish, Wildlife & Parks, we began collecting water and fish-tissue samples from sites in the Kootenai River and major tributaries. We published the results of those efforts in a data release.
Congress recently passed legislation to provide funding to expand transboundary water-quality monitoring in the Pacific Northwest. Scientists from our center and the USGS Wyoming-Montana Water Science Center will conduct water-quality monitoring in Lake Koocanusa and the Kootenai River. For the Kootenai River portion of the study, the objectives of the monitoring are:
- repeat the 2018 selenium and nutrient sampling in the waters of the Kootenai River and major tributaries,
- repeat and expand selenium sampling in the tissues of fish from the Kootenai River, and
- investigate the transfer of selenium from water through the food web to fish in the river.
The monitoring begins in 2020 and is expected to continue through at least 2024.
Transboundary Assessments of Water Quality in the Pacific Northwest
USGS Transboundary River Monitoring in Southeast Alaska
Assessing the impacts of mining on the Transboundary Koocanusa Reservoir
Assessing the impacts of mining in the Transboundary Flathead and Kootenai River systems
Transboundary Watersheds Geonarrative
Explore the geonarrative highlighting USGS research activities in transboundary watersheds in the northwest. The USGS is establishing baseline water quality conditions in rivers that cross the US-Canadian border.
We thank these partners for their support of this study.
- Overview
The Kootenai River (Kootenay in Canada) rises from the Canadian Rockies and flows south in an arc through Montana and Idaho before swinging back into British Columbia and the Columbia River. The uplifted sedimentary rocks forming the southern Canadian Rockies have rich coal deposits that have been mined for many decades. The coal beds and associated rock layers are enriched with other minerals as well, and in the last two decades elevated concentrations of selenium in downstream waters have raised concerns. Selenium is an essential mineral for all animals, but in excess it can accumulate in the tissues of fish and other animals to the point of harming reproduction.
In 2018, in cooperation with the U.S. Environmental Protection Agency, and with in-kind support from the Kootenai Tribe of Idaho, the Idaho Department of Fish and Game; and the Montana Department of Fish, Wildlife & Parks, we began collecting water and fish-tissue samples from sites in the Kootenai River and major tributaries. We published the results of those efforts in a data release.
Congress recently passed legislation to provide funding to expand transboundary water-quality monitoring in the Pacific Northwest. Scientists from our center and the USGS Wyoming-Montana Water Science Center will conduct water-quality monitoring in Lake Koocanusa and the Kootenai River. For the Kootenai River portion of the study, the objectives of the monitoring are:
- repeat the 2018 selenium and nutrient sampling in the waters of the Kootenai River and major tributaries,
- repeat and expand selenium sampling in the tissues of fish from the Kootenai River, and
- investigate the transfer of selenium from water through the food web to fish in the river.
The monitoring begins in 2020 and is expected to continue through at least 2024.
- Science
Transboundary Assessments of Water Quality in the Pacific Northwest
In 2019, the USGS began studying the baseline water-quality of selected transboundary rivers in the Pacific Northwest. These studies are designed to characterize current water-quality conditions so as to facilitate future assessments of potential impacts related to upstream mining activities.USGS Transboundary River Monitoring in Southeast Alaska
The USGS Alaska Science Center operates super gages on the Alsek, Taku, Stikine, Unuk and Salmon Rivers. Discrete water quality, sediment, and biological sampling are also collected at each gage location. Discrete water quality samples are also collected annually at the Canada-Alaska border crossings of the Taku, Stikine, and Unuk Rivers. Water quality data collection began in 2018 on the Unuk...Assessing the impacts of mining on the Transboundary Koocanusa Reservoir
Lead Researcher: Travis Schmidt Project Manager: Melissa Schaar Water-Quality Field Lead: Chad ReeseAssessing the impacts of mining in the Transboundary Flathead and Kootenai River systems
The Transboundary Flathead and Kootenai Basins in Montana and British Columbia host some of the most diverse and unique native aquatic ecosystems throughout North America. Headwaters of these basin feed into Waterton-Glacier International Peace Park (U.S. and Canada) and Flathead Lake, and Lake Koocanusa and the Kootenai River in the U.S. Despite the tremendous historical and ecological value of... - Web Tools
Transboundary Watersheds Geonarrative
Explore the geonarrative highlighting USGS research activities in transboundary watersheds in the northwest. The USGS is establishing baseline water quality conditions in rivers that cross the US-Canadian border.
- Partners
We thank these partners for their support of this study.