Phase I built the foundation for the South Fork Crow River Watershed Restoration and Protection Strategy (WRAPS) and created a civic engagement plan. Civic engagement strategies were identified to create greater communication and watershed activities. Phase II provided the analytical and strategic foundation essential to prescribing protection and restoration strategies. These strategies focus on both protecting current fully supporting and restoring impaired surface water resources to water quality standards in the South Fork watershed.
This project will develop Total Maximum Daily Load (TMDL) allocations and complete a final draft TMDL report for the five lake impairments listed for the South Fork Crow River Watershed.
This project contains several activities that will implement effective, shovel ready conservation practices on multiple water bodies. The goal is to reduce the erosion impacting stream bank stability. Three initiatives will be implemented, including the installation of four shoreland restoration/stabilization projects, completion of two stream bank stabilization projects on the Middle Fork Crow River and a rain barrel program. An education program will provide outreach to lake and city residents throughout the Middle Fork Crow River Watershed.
Minnesota’s extensive state park and trail system, the second oldest in the country, is currently comprised of a total of 76 state parks and recreation areas and 13 state trails scattered throughout the state. Some of Minnesota’s state parks and trails have privately owned lands within the designated park boundaries or trail corridors. Purchase of these lands from willing landowners for addition to the state park and trail system makes them permanently available for public recreation and enjoyment and facilitates more efficient management.
Each fiscal year of ACHF funding, a majority of the twelve regional library systems agree to allocate 10% of their ACHF funding to support statewide partnership projects. SELCO serves as the fiscal agent for statewide projects.
We will deploy acoustic detectors and revisit roost trees identified in our previous ENRTF project to measure effect of seven years of white-nose syndrome on Minnesota bats.
This grant seeks to build the top 5 prioritized projects (2 iron-enhanced sand filters, 1 rain garden, 1 infiltration trench, and 1 tree trench) within the City of New London. Installation of these project will result in a cost-effective pollutant reduction from city runoff to various nearby water resources. The project is estimated to reduce sediment by 2 tons and phosphorus by 8 pounds annually.
This project seeks to provide data on insecticide contamination in the soil and the insect community across the state and the effect of sublethal insecticide exposure on insect reproduction.
To support teachers in addressing new science standards , we propose a series of workshops across Minnesota facilitating conversation about sustainability and water conservation, specifically integrating western science and Indigenous perspectives.
Central MN Community Empowerment Organization will revitalize the use of cultural and artistic expressions for the Somali youth of Minnesota to preserve and display their cultural heritage. CMCEO plans to promote patriotism and citizenship through cultural heritage where artists are trained to compose Somali creative arts and music. This will enable youth to learn their cultural heritage and creativity in an engaging environment.
This project involves monitoring three data deficient lakes in the Crow Wing River Watershed and one stream site at the inlet to White Earth Lake. The data deficient lakes were on the MPCA Targeted watershed list. After getting the required assessment dataset for these lakes, all targeted lakes in Becker County will be completed for this assessment cycle. The stream site is a site that the White Earth Lake Association and the Becker Coalition of Lake Associations (COLA) will monitor. It is the inlet to White Earth Lake.
This project will allow monitoring to take place on nine stream sites and characterize their water quality and determine their impaired status for biological and chemical parameters. The physical and chemical measurements will include dissolved oxygen, pH, temperature, conductivity, transparency, total phosphorus, total Kjeldahl nitrogen, total suspended solids, total volatile solids, nitrite-nitrate nitrogen, chloride, sulfate, hardness and e-coli.
