This project will support water quality monitoring and data analysis in the Red River Basin. The monitoring will assist in providing water chemistry data needed to calculate annual pollutant loads for the Major Watershed Load Monitoring Program (MWLMP) and provide short term data sets of select parameters to other MPCA programs.
To analyze existing archaeological data from two cultural landscapes and interpret it for use among American Indian people through the creation of a manuscript and portal.
Leveraging new statewide climate data, we will assess future change in the duration, frequency and magnitude of heavy precipitation and drought events and engage communities to prepare for these extremes.
We will develop a cost- and energy-efficient method of managing the concentrated saline waste from a municipal desalination plant, increasing the economic feasibility of centralized water softening and sulfate removal.
Many Faces of the White Bear Lake Area will provide opportunities to listen, learn, reflect, and engage in conversations and actions that promote equity, diversity, and inclusion. The theme, Many Faces: Many Expressions, will bring awareness to the heritage and traditions of our American Indian neighbors through a Wacipi; continues by highlighting stories of recent immigrants to our area through innovative artwork; and culminates by celebrating and building community through a multi-cultural festival.
1. To increase access to Ojibwe language for students at the Nawayee Center School. MIAC will provide funding for an Ojibwe Language teacher at the Nawayee Center School, since there is currently no Ojibwe language program or teacher. During the project, the teacher will work with seasoned Ojibwe language immersion and classroom teachers to develop and build the language program for the Nawayee Center School. Success will be determined by the successful creation and implementation of a new Ojibwe language program at Nawayee Center School. We will also create a model for others to utilize.
1. To achieve a sustainable, permanent Ojibwe Language Program for the Nawayee Center School that includes professional development and continuous support for a new Ojibwe language teacher at the school. 2. To introduce Nawayee Center School to a strong network of first language speakers, elders, artists, language facilitators and knowledge-keepers for the Nawayee Center School to support a sustainable community-based language program that includes staff, students, and their families.
To restore the front steps and add handicap accessibility to St. John's Episcopal Church, listed in the National Register of Historic Places and current home of the Dodge County Historical Society
Establish network of automated radiotelemetry stations to monitor bird migration and local movements of a threatened species, and develop strategic plans for long-term use of infrastructure to monitor animal movement.
We will quantify and map antibiotic and antibiotic resistance gene contamination in Minnesota waters and soils and identify locations in need of mitigation to protect environmental, human, and animal health.
We will map habitat and diseases of urban foxes and coyotes to understand what they need to live and risks posed to people and pets, thereby demystifying them for residents.
Data is needed about which aquatic habitats moose prefer and how moose can potentially enhance nearshore lake foodwebs. This project will map critical aquatic habitats and measure lake foodweb effects.
We propose conducting the first statewide analysis mapping the extent of Minnesota’s unprofitable cropland and estimating both the water-quality and habitat benefits of converting these lands to perennial crops/vegetation.
We will determine how disease prevalence, diet, habitat use, and inter-species interactions of coyote and red fox populations change from urban to rural areas along the Mississippi River corridor.
We develop and demonstrate a practical tool for mapping aquifer recharge potential; conduct policy analysis; and use the tool to evaluate the recharge potential of several aquifers in Minnesota.
The Kohlman Lake nutrient reduction study identified a major source of phosphorus loading from the impervious areas like roads, roofs and parking lots within the watershed.. Within this area, one major land use feature stands out - Maplewood Mall. Retrofitting the Mall parking areas to infiltrate at least one inch of stormwater runoff will result in a large reduction in phosphorus to Kohlman Creek and the lake.
The Kohlman Lake TMDL calls for the reduction of nutrients from watershed and in-lake loading. A major source of phosphorus loading is from the impervious areas in the District (roads, interstates, roofs, and parking lots). In the analysis of the Kohlman Lake watershed, one major land use feature stands out - Maplewood Mall. The District identified that retrofitting the Mall parking areas to infiltrate at least one inch of runoff would result in a large reduction in phosphorus to Kohlman Creek and the lake.
This project designed a new sugar shack at Maplewood State Park. This sugar shack will provide space for interpretive programming centered on maple syrup sugaring. The Maplewood Friends Group is securing construction funding for this collaborative project.
