This appropriation funded 283 projects totaling 21,953 acres. The two largest types of enhancement were 112 woody removal projects totaling 10,160 acres and 134 prescribed burns totaling 10,082 acres. Additionally, we seeded 30 sites totaling 1386 acres, put in infrastructure for conservation grazing of 236 acres on 3 sites, conducted 3 oak savanna enhancements totaling 42 acres, and treated 47 acres of invasive species on 2 sites.
This program of on-the-ground conservation projects increased the wildlife and ecological values of forest communities on Minnesota's public forestlands. Restoration and enhancement projects in this program enhanced more than 10,000 acres of forest.
We protected 22.3 miles of trout streams and 1.3 miles of lakeshore via easements (585 acres in total), and 7.4 miles (504 acres) of lakeshore through fee-title purchase. We enhanced shoreline habitat on 524 acres of riparian land, and instream habitat on 3.1 miles of trout streams and 0.5 miles of warmwater rivers.
The AgBMP Loan Program provides needed funding for local implementation of clean water practices at an extremely low cost, is unique in its structure and is not duplicated by any other source of funding.The AgBMP loan program provides 3% loans through local lenders to farmers, rural landowners, and agriculture supply businesses.
Lambert Creek discharges into Vadnais Lake, the final impoundment reservoir containing the potable water supply for the city of St. Paul and eight nearby suburbs. Monitoring data indicates high nutrient levels and the creek is listed by the State as having high bacterial levels. In-stream work along Lambert Creek has been maximized with restoration improvements achieving nutrient load reduction. The next step to further improve water quality is to concentrate on restoration efforts on a subwatershed level.
Minnesota Trout Unlimited enhanced in-stream and riparian fish and wildlife habitat in and along coldwater streams located on public lands and Aquatic Management Areas. We completed all 9 projects originally proposed and three additional. Contracting efficiencies and leveraging of other funding allowed us to add two habitat enhancement projects in southeast Minnesota and another segment on the Sucker River in northeast Minnesota. We enhanced 10 more acres of habitat than originally proposed and increased leverage by $121,700 (67%).
Lambert Creek is wholly within the Vadnais Lake Area Water Management Area. Vadnais Lake is the drinking water reservoir for the City of St. Paul and surrounding communities. Lambert Creek has elevated bacteria and nutrient levels and water quality in Vadnais Lake will not improve unless there is a reduction in the phosphorus loading from Lambert Creek.
The Knife River is a state protected water and a Designated Trout Stream. It is nationally known as a prime fresh-water steelhead fishery and is managed as a cold-water trout fishery for native species including brook trout. The Knife River is characterized by steep gradients, multiple water-falls and cascades, tea-colored water, and remnant old-growth forest cover types including white pine, Norway pine and white cedar.
This project will provide a protocol for prioritizing sites in the St. Louis Area of Concern (AOC ) for restoration based on site-specific bioavailability considerations. Despite large data collection efforts focused on sediment chemistry, the extent to which sediment with moderate levels of contamination is available for uptake into biota and therefore contributing to Beneficial Use Impairments (BUI)s is still largely unknown.
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.
Friends of the Mississippi is using this appropriation to restore and enhance approximately 163 acres of permanently protected prairie and forest lands in Dakota, Washington, Ramsey, and Hennepin counties in order increase the amount of high quality habitat within designated conservation corridors. Specific activities will include updating management plans, soil preparation, prescribed burning, native vegetation installation, woody encroachment removal, and invasive species control.
These funds will enable Great River Greening to restore approximately 121 acres of permanently protected forests, savanna, prairie, and wetland habitat and 0.18 miles of shoreland habitat while engaging hundreds of volunteers in the stewardship of the Metropolitan area's remaining natural areas. Specific activities include invasive species control, seeding/planting, prescribed burning, and other associated activities.
Through a long standing partnership, this project will continue to implement a process formalized with a 2010 Clean Water Fund Grant to conduct stormwater sub-watershed assessments. The goal of the sub-watershed assessments is to accelerate water quality improvements by focusing efforts in high priority areas. Specifically, subwatershed assessments are a tool used to identify the most effective urban stormwater conservation practice by location.
With this final report, Metro Big Rivers Phase 2 is complete and significantly exceeded its original acreage targets of protecting, restoring and enhancing priority wildlife habitat within the three big rivers corridors in the Metropolitan Urbanizing Area. Specifically:
* Metro Big Rivers 2 planned to protect 733 acres, but actually protected 1,430 acres.
* Metro Big Rivers 2 planned to restore 15 acres and enhance 135 acres, but actually restored 15 acres and enhanced 178 acres.
This project will create a high accuracy elevation dataset - critical for effectively planning and implementing water quality projects - for the state of Minnesota using LiDAR (Light Detection and Ranging) and geospatial mapping technologies. Although some areas of the state have been mapped previously, many counties remain unmapped or have insufficient or inadequate data. This multi-year project, to be completed in 2012, is a collaborative effort of Minnesota's Digital Elevation Committee and partners with county surveyors to ensure accuracy with ground-truthing.
The SRRWD has successfully acquired fee title to 257 acres of land that encompasses the headwaters of the Shell Rock River located at the Albert Lea Lake outlet. This 257 acre parcel will now be a Minnesota Department of Natural Resources Aquatic Management Area (AMA) guided by an Aquatic Management Plan.
The Highland Ravine is a large bluff area in central St. Paul that has become highly eroded due to hydrologic changes associated with urban development. During rain and snow melt events, water and sediment moves down slope onto private residential properties causing significant flooding and sedimentation. In addition, sediment-laden water from the gullies goes into the St. Paul storm sewer system which discharges, untreated, directly to the Mississippi River.
The Stewart River is a state protected water and a Designated Trout Stream. In 2010, it was identified as a high priority watershed during the update of the Lake County Water Management Plan. The river empties into Lake Superior near the drinking water intake for the City of Two Harbors.
This project will restore five severely eroding streambank sites along a 1.5 mile reach of the Stewart River. Commitments have been secured from the five property owners, including the Lake County Highway Department, to complete the project.
Bald Eagle Lake is a popular recreational lake known for its fishery on the Metropolitan Council's Priority Lakes List. The lake is negatively impacted by excess nutrients and restoring its water quality is a local priority.
This project will collect stormwater runoff from an approximately 900 acre area and re-use it to irrigate an existing golf course. This innovative project will provide a multitude of environmental benefits for Bald Eagle Lake including significant runoff volume reduction, groundwater recharge and phosphorus load reduction.