Great River Greening (GRG), Anoka Conservation District (ACD), Isanti SWCD (ISWCD), Minnesota Land Trust (MLT), and Stearns SWCD (StSWCD) enhanced 339 acres, equaling 137% of the stated goal of 247 acres, and 0.12 miles of shoreline. Further, MLT permanently protected 86 forest and 181 wetland acres, equaling 334% of the stated goal of 80 acres, and 1.67 miles of shoreline through conservation easement.
This program will harness the expertise, resources, and connections of a broad community of committed conservation stakeholders to significantly elevate restoration and enhancement of oak savannas (Minnesota's most critically imperiled habitat), woodlands and forests on public lands across the region.
With funding from the Outdoor Heritage Fund and other leveraged sources, the Anoka Sand Plain Partnership restored/enhanced 1,866 acres of priority wildlife habitat within the Anoka Sand Plain and in the Rum River watershed in east-central Minnesota.
The Anoka Sand Plain Partnership restored / enhanced 3,714 acres of priority prairie, savanna, forest, wetland, and shoreline habitat on public lands and waters within the Anoka Sand Plain EcoRegion within the Metropolitan Urbanizing, Forest-Prairie, and Northern Forest regions. Total R/E acreage achieved over the course of the appropriation is 126% of our stated acreage goals, and was accomplished through a robust partnership of four direct recipients improving a total of 16 priority sites including WMAs, state forest, national wildlife refuges, city and county lands.
Great River Greening (GRG), Anoka Conservation District (ACD), Isanti County Parks (ICP) and National Wild Turkey Federation (NWTF) completed restoration and enhancement (R/E) activities on 1,896, equal to 147% of the planned 1,286 acres, and on 1.2 miles of shoreland, over 17 parcels.
The Anoka Sand Plain (ASP) Partnership will protect 164 acres through conservation easement, restore/enhance 468 acres of Prairie/Oak Savanna, Wetland, Habitat, and Woodland/Forest, including rescue and relocation of 11,000 rare plants, at sites centered around the DNR's ASP ecoregion. Our actions will increase biodiversity, habitat connectivity, recreational opportunities, and landscape resilience, which align with the ASP Partnership's 10-year Strategic Plan, DNR Wildlife Action Plan and LSOHC Section priorities.
The Anoka Sand Plain (ASP) Partnership protected 423 acres through conservation easement, restored/enhanced 768 acres of Prairie/Oak Savanna, Wetland, Habitat, and Woodland/Forest habitats, including rescue and relocation of 11,000 rare plants, at sites centered around the DNR's ASP ecoregion. Overall, we reached 112% of our acreage goals, and an additional 5.4 miles of shoreline.
Through various means, human produced chemicals can make their way into surface waters where they can have adverse effects on the function of ecological communities. Of particular concern are antibiotics and other antimicrobial substances because they have the potential to create increased antibiotic resistance. While there is a background level of naturally occurring antibiotic resistance in the natural world, elevated or persistent levels caused by human activities have the potential to harm human, animal, and overall ecosystem health.
Aquatic invasive species pose critical ecological and economic challenges for the entire state and beyond. They can cause irreparable harm to fisheries and aquatic habitat as well as damage to infrastructure. The problems posed by aquatic invasive species continue to grow as existing infestations expand and new exotic species arrive, most of which are poorly understood. New ideas and approaches are needed to develop real solutions.
Aquatic invasive species pose critical ecological and economic challenges for the entire state and beyond. They can cause irreparable harm to fisheries and aquatic habitat as well as damage to infrastructure. The problems posed by aquatic invasive species continue to grow as existing infestations expand and new exotic species arrive, most of which are poorly understood. New ideas and approaches are needed to develop real solutions.
The DNR is working with local communities and an interagency team to define, prioritize, and establish groundwater management areas in Minnesota. Groundwater management areas will have increased data collection and monitoring that allow the state and local communities to understand water supplies, uses, limitations, and threats to natural resources that depend on groundwater. This information will support detailed aquifer protection plans that ensure equitable and sustainable groundwater and drinking water use for the future.
This project will use the We Are Water MN traveling exhibit and the Minnesota Humanities Center's approach to community engagement, relationship building, and storytelling, to increase community capacity for sustainable watershed management in five Minnesota watersheds. The following communities were selected as host sites for this project:
Winona (City of Winona), active hosting period: March 3-April 25, 2022
Lake City (Lake Pepin Legacy Alliance), active hosting period: April 28-June 20, 2022
We Are Hmong Minnesota, a 2,500-square-foot exhibit, debuted March 7, 2015, timed for the celebration of the 40th anniversary of the beginning of Hmong migration to Minnesota. MNHS staff worked in partnership with the Hmong community to develop the exhibit. A traveling version of the exhibit for loan to libraries, schools, and community centers was also developed and is currently circulating. A companion exhibit at the James J. Hill House displayed a collection of Hmong textiles recently donated to the Minnesota Historical Society.
This project will provide condition monitoring and problem investigation monitoring at the following sites.
Mississippi River: Tributaries include Bassett Creek, Cannon River, Crow River, and Minnehaha Creek.
Minnesota River: Tributaries include Eagle Creek,Riley Creek, and Valley Creek tributary to the St. Croix River
Naturally occurring arsenic can make groundwater unsafe for drinking. Before going to the expense of drilling a well and sampling the water for arsenic, it would benefit public health to be able to predict the level of arsenic in groundwater in a certain area. A special research project with the U.S. Geological Survey is designed to develop the capacity to assess local geological conditions, related groundwater chemistry and well construction factors in three counties in order to predict the levels of arsenic found in groundwater related to those variables.
