Minnesota’s Scientific and Natural Areas (SNA) Program is an effort to preserve and perpetuate the state’s ecological diversity and ensure that no single rare feature is lost from any region of the state. This includes landforms, fossil remains, plant and animal communities, rare and endangered species, and other unique biotic or geological features. These sites play an important role in scientific study, public education, and outdoor recreation.
Approximately 70 percent of all Minnesotans rely on groundwater as their primary source of drinking water. Wells used for drinking water must be properly sealed when removed from service to protect both public health and Minnesota’s invaluable groundwater resources. The Minnesota Department of Health protects both public health and groundwater by assuring the proper sealing of unused wells.
Clean Water funds are being provided to well owners as a 50% cost-share assistance for sealing unused public water-supply wells.
Over the past two years, Dakota County has learned that many properties within the city do not have septic system records identifying the presence or condition of their septic system, and anecdotal evidence that some are failing. The County will use CWF Accelerated Implementation Grant dollars to inventory and inspect all septic systems within the City of Randolph. As part of the inspection, a well inventory will also be conducted. Based on a preliminary assessment, there are 105 properties that will require inspection.
This Phase 6 request for Ducks Unlimited's land protection and restoration program will acquire and restore 600 acres of prairie land on shallow lakes and prairie land with restorable wetlands in the Prairie Pothole Region of SW Minnesota for transfer to the Minnesota DNR for inclusion in the state Wildlife Management Area system. This land acquisition and restoration work will focus on land that buffers shallow lakes and provides breeding habitat for ducks and other prairie wildlife.
Shattuck Saint Mary's, located atop of a bluff area upland of the east bank of the Straight River, encompasses a land area of 324 acres that contains over 16,426 miles of mild to extensively eroded ravines and gullies; many of which directly discharge to the Straight River. In addition to pollutant loads in runoff from the school's watershed and eroded ravines, banks and gullies, the Straight River also experiences pollutant loading from eroding stream banks in this reach; annual sediment loads average 1,962 tons per year.
The Phase VI Habitat Restoration Program included an Orr Property Acquisition, a Vandegrift Wetland Restoration, an IC&E Wetland Enhancement Project and a Headwaters Streambank Restoration Project. As a result, 296 acres of habitat and wetlands were protected, enhanced or restored.
The goal of this project is to leverage the existing Hydrological Simulation Program FORTRAN (HSPF) model application that has been calibrated and validated for the Shell Rock River Watershed to assist with wastewater permitting. The contractor will deliver all modeling files and a final technical memorandum outlining the scenarios developed, how the scenarios are represented in the model, and the impact these scenarios have on water quality at specified locations for parameters of concern as described below.
The St. Croix River is one of the most pristine, large river ecosystems remaining in the upper Mississippi River System. Washington County, in partnership with the City of Stillwater, is using this appropriation to acquire 15 acres containing 3,500 feet of St. Croix River shoreline just north of downtown Stillwater and parallel to the Brown’s Creek State Trail. The land will be turned into a local nature park for trail users, river users, tourists, and area residents with passive recreation including fishing, boat launching, walking, and picnicking.
The purpose of this project is to create an inventory and priority list of where inlet control and buffer strips are needed along Judicial Ditch 15 to reduce the nutrients, sediment and volume of water being transported by field tile. This will help protect landowner drainage needs, while focusing on applicable best management practices that will reduce on-field and in-channel peak flow erosion. This ditch system is the headwaters to Cokato Lake, which connects to the North Fork Crow River.
The Chippewa River Watershed Project will work with local partners, such as Land Stewardship Project, soil and water conservation districts, and the Natural Resources Conservation Service, to restore water quality in Lake Gilchrist, Simon Lake, Lake Johanna and in Mud Creek, and to protect unimpaired water resources in the watershed. This will be done through implementation of Best Management Practices focusing on the reduction of phosphorous, sediment, and runoff in the landscape, primarily by increasing the landscape's ability to retain water.
Design & engineering to develop building plans for a addition to the Nature Center, Sugar Shack, Garden House, Shelters, and Maintenance Facility. Develop site plans for gathering nodes, observation, amenities, trails, landscaping, signage, stormwater management; initiate construction for site related improvements such as trails, gathering nodes, nature observation, signage, landscaping, and site amenities. Supplement construction costs for amenities on the Campus Site and Infrastructure project.
