This project will place the Cedar River watershed on a sustainable and clearly understood implementation process for comprehensive water management. All people living in the watershed and all groups operating and managing land in the watershed, are responsible stakeholders in the effort. Objectives for this phase of the project include:
1. Develop a comprehensive watershed restoration and protection strategy.
2. Continue development of a more coordinated and comprehensive citizen participation process.
The entities of the Cedar - Wapsipinicon watershed planning area hope to achieve the Cedar - Wapsipinicon Comprehensive Watershed Management Plan goals, including surface water quality, groundwater quality, excessive sedimentation and erosion, and flooding goals. Work includes cost-share incentives, project development, technical/engineering assistance, education/outreach, and administration/grant reporting.
The United States Environmental Protection Agency requires the Minnesota Pollution Control Agency (MPCA) to carry out the Total Maximum Daily Load (TMDL) program in the state of Minnesota. Minnesota has an abundance of lakes and river reaches, many of which will require a TMDL study. In an effort to expedite the completion of TMDL projects, the MPCA has decided to construct watershed models. These models have the potential to support the simultaneous development of TMDL studies for multiple listings within a watershed.
This project will guide local implementation planning efforts by identifying water quality goals, strategies, and implementation milestones in the Cedar River Watershed. This watershed includes 435 square miles in major portions of Mower, Freeborn and Dodge Counties, and incudes the regional center of Austin. A Watershed Restoration and Protection Strategy (WRAPS) report will be completed by this effort.
This project is for the Cedar River Watershed, which includes major portions of Mower, Freeborn and Dodge Counties in southern Minnesota. The scope of this project is to complete the Total Maximum Daily Load (TMDL) studies for 11 stream reaches with sediment impairments, and 14 stream reaches for bacteria impairments. The major product of this effort will be the final Cedar River TMDL report, which will be submitted to the United States Environmental Protection Agency, and public-noticed by the Minnesota Pollution Control Agency.
There are two main goals of this Cedar Basin HSPF project,
A. Overall development of the HSPF model in the Cedar Basin of Minnesota; and
B. Shell Rock River nutrient, DO , impairment modeling and TMDL completion.
The Cedar River Watershed District was established in 2007 to identify and fix the water quality impairments in the Cedar River. After several years of monitoring and modeling, the district has developed the requisite background data to drill down on the 25 most crucial areas for targeted treatment. In 2015, a Capitol Improvement Plan was developed to prioritize and rank the most critical projects within the priority list. The District is requesting Clean Water Funding to implement the highest ranking projects, which are shovel ready for timely construction.
Pileated Woodpeckers are keystone habitat modifiers that support an array of game, non-game, and conservation concern species. Additional information is needed to understand cavity dynamics for these species.
The Children’s Museum of Southern Minnesota (CMSM) will build upon a strong foundation of Minnesota Arts, Culture and Heritage (ACH) learning experiences made possible with prior MN Legacy funding support to:
To hire a qualified architect to conduct a conditions assessment of the Episcopal Church of the Good Samaritan, listed in the National Register of Historic Places.
The purpose of this project is to project the ground water aquifer serving the City of Long Prairie through assisting low income landowners in the replacement of 12 sub-surface treatment systems that have been documented as failing to protect groundwater within the Long Prairie Drinking Water Supply Management Area. Although the primary driver is ground water protection, replacing these failing systems will also protect surface water of which Lake Charlotte is in close proximity.
Rising temperatures and increased precipitation contribute to decreased oxygen and increased methane in Minnesota lakes and wetlands. We will identify impacts on water quality and methane emissions, providing management guidance.
This project builds partnerships among natural resource professionals, college, middle and high schools to work collaboratively to increase youth exposure to outdoor experiences, environmental issues, and natural resource career paths.
