This program focuses on the rehabilitation or replacement of existing state trail bridges, including structural engineering inspections of all trail bridges . Of the more than 300 existing bridges on State Trails, the majority are wood or masonry former railroad structures of which more than 1/3 exceed 100 years old. Starting in fiscal year 2014, future PAT reporting will not separate bridges from trails outcomes reporting, as they are part of the same system of recreational use.
This project works to reduce energy consumption and model renewable energy methods on state park, state recreation area, state forest and trail facilities. The DNR Parks and Trails Division is working to increase the use of energy conservation and renewable energy technologies.
Install fishing piers at 20 statewide locations (15 replacements and 5 new) with the goal of improving fishing opportunities especially for people with disabilities, children, elderly and those without a boat.
Renewal of existing State Trail surfaces, parking areas, and trail wayside areas, improving accessibility, enhancing user safety and implementing current best management practices. MNDNR Parks and Trails Division has a identified approximately 85 miles of existing state trail in need of rehabilitation and upgrading. This program also focuses on the rehabilitation or replacement of existing state trail bridges, including structural engineering inspections of all trail bridges .
Ecological restorations aim to aid the recovery of native ecosystems that have been degraded or lost. However, very seldom are restorations evaluated past the initial implementation phase to determine whether the efforts achieved their goals and the funds spent were a strategic conservation investment. Monitoring and evaluation of restorations can teach what works and what does not in order to advance restoration practices and increase the likelihood of success for future projects.
With funding from the ACHF, 20 portraits were cleaned and are now more secure with the addition of high-quality non-glare/UV filtering plexiglass. Using the original framing, each portrait was retrofitted to accommodate the new plexiglass.
Minnesota's wetlands provide crucial habitat for waterfowl and other wildlife, assist in flood control, and help maintain water quality. However, the state has lost half the wetlands that existed before European settlement and these drained wetlands have not been mapped as part of the National Wetlands Inventory. This appropriation is enabling efforts by Ducks Unlimited to provide a complement to the National Wetlands Inventory by identifying and mapping drained wetlands that have the potential to be restored to provide their various benefits once again.
This program is a part of a comprehensive clean water strategy to prevent sediment and nutrients from entering our lakes, rivers, and streams; enhance fish and wildlife habitat; protect groundwater and wetlands. Specifically the Riparian Buffer Easement Program targets creating buffers on riparian lands adjacent to public waters, except wetlands. Through the Reinvest in Minnesota Program (RIM) and in partnership with Soil and Water Conservation Districts and private landowners, permanent conservation easements are purchased and buffers established.
TMDL project in the Root River Watershed that will support surface water assessment, analysis of data, interpretation of southeast Minnesota's karst landscape, stressor identification, TMDL computation, source assessment, and implementation planning.
This project entails reconstruction, resurfacing and widening 3.6 miles of the segment of the Sakatah Singing Hills State Trail from Mankato to 589th Avenue.
This project will complete an assessment of watershed lakes and streams. The assessment will include biological and stressor id analysis, which will support a summary report on lake conditions and protection strategies for lakes included in this watershed study.
The Sauk River Stormwater Runoff Reduction and Riparian Restoration Project is a watershed-wide effort to reduce the amount of nutrients delivered by stormwater and bank erosion to area surface waters. Funds will be used to assist local schools and municipalities with their restoration project design, installation, and financing.
This funding will improve our collection of artifacts representing Minnesota's cultural heritage and create new forms of statewide cultural heritage educational opportunities for audiences of all ages.
To learn more about the Science Museum of Minnesota, click here.
To provide full ADA-compliant access to the Scriver Block, listed on the National Register of Historic Places, with an elevator and grade access entrance.
The Red Clay Project was a 1970's era project that encompassed watersheds in Northeast Minnesota and Northern Wisconsin draining to Lake Superior. In Minnesota, efforts focused on sediment retention structures in two subwatersheds of the Nemadji River Basin in Carlton County. Sixteen structures were constructed in the Skunk Creek Watershed and four structures were constructed in the Deer Creek Watershed. The design life of these structures was 10-25 years depending on the specific project and the design life has now been exceeded.
The Seven Mile Creek Condition Monitoring project will maintain and build on the continuous flow and water quality data base at three stream sites and one county tile in the Seven Mile Creek watershed through the collection of approximately eighty five water samples per monitoring season in preparation for the Middle Minnesota Intensive Watershed Monitoring scheduled to begin in 2013.
The Historical and Cultural Society of Clay County used the funds to purchase 1223 linear feet of V-GRIP™ baked enamel on steel shelving to store their growing collection of archival materials. This project will have lasting implications for the professional care of the historical record of Clay County for many years to come.
The Greater Blue Earth River Basin is a large area within the Watonwan, Le Sueur, and Blue Earth River watersheds. Recent research by University of Minnesota, the National Center for Earth Dynamics, and others has found this basin to be the largest contributor of sediment to Lake Pepin.