Silver carp are migrating north up the Mississippi River and pose threats to the native fish and aquatic ecosystems of Minnesota rivers and lakes where they can become established. Additionally, the unique jumping ability of silver carp also places recreational boaters in danger of being injured during collisions with airborne fish. However, it is believed that this jumping ability could potentially be exploited as a weakness to help detect, manage, and control silver carp populations. Researchers at the University of Minnesota – Duluth, in cooperation with the U.S.
This project would educate residents and provide assistance to the City of Le Center in sealing an unused/abandoned municipal well. One municipal well has been identified as a high risk due to impacting the groundwater and drinking water supply to the City of Le Center.
AC3 will use these funds to continue engagement with Native American community members and expand into dialogue with artists in the native and black communities. We will uncover messages and narratives that will then be turned into semi-permanent visuals as well as host a series of interactive arts-based community events to engage Native residents in exploring and amplifying messages of unity, justice, and solidarity.
There is a critical need to understand how our natural resources are already responding to climate change in order to develop tools for projecting natural resource responses into the future and to devise plans for actions that can be taken in reaction to observed and predicted changes. Phenology – the timing of seasonal biological events such as budburst, flowering, bird migration, and leaf coloring – provides a tested indicator of climate change response by plants and animals.
As a part of the Mississippi Headwaters Stormwater Retrofit Analysis, a feasibility study was conducted on the Bemidji State University property to determine possible subsurface water quality best management practices options. Staff from Beltrami SWCD, in cooperation with the City of Bemidji and Bemidji State University, are proposing to install a subsurface stormwater treatment system to reduce Total Suspended Solids (TSS) and Total Phosphorus (TP) loading to Lake Bemidji and subsequently the Mississippi River.
The Chief's Coulee drainage area, in northern Thief River Falls, has been identified as a source of flooding and water quality concerns through inspection and water quality sampling. Once a natural drainage course, many diverse land uses now surround the Coulee which include agriculture, industrial railroad yards, grain elevators, recycling operators, residential development, and municipal street department facilities. Extremely high concentrations of pollutants and water quality indicators, such as E.
Mine stockpiles are unproductive due to soil deficiencies of organic matter, nutrients, and soil organisms, which are essential to supporting healthy plant growth, diversity, and succession. Waste products, including biosolids, composts, and dredged materials, have the potential to be used to address some of these deficiencies and make the lands productive again.
The proposed alum treatment will reduce internal phosphorus loading by 527 lb/yr and ensure Forest Lake remains below the state standard of 40 ?g/L summer average phosphorus concentration. Forest Lake is not listed as impaired for nutrients, but summertime phosphorus readings occasionally exceed state standards, meaning this lake is at great risk of becoming impaired. CLFLWD sets its own goal for Forest Lake to achieve and maintain a summertime average phosphorus concentration of 30 ?g/L (i.e., even lower than the state standard).
