The main outcome of the project will be development of a Total Maximum Daily Load (TMDL) study that address total suspended solids/turbidity impairments of the Mississippi River (Swan River to Crow Wing River). Community outreach to communicate the results and strategies for restoration will also take place during this project.
The goal of this project is to gather and collect necessary watershed data for the development of a Watershed Restoration and Protection Strategy (WRAPS) for the Upper/Lower Red Lakes Watershed that includes impairments, their causes, and plans for restoration. Implementation of the WRAPS will maintain or improve water quality for the watershed.
The goal of phase 1 of this project is primarily to support organizational planning and coordination among project partners, forming and training a civic engagement team, creating a civic engagement strategic plan, holding two watershed kick off meetings and gathering and summarizing available water quality data. The completion of phase 1 will help provide significant momentum towards the completion of the future phases of the Watershed Restoration and Protection Strategy (WRAPS) process.
Upper Red Lake is a large shallow lake located in north central Minnesota and is heavily used for fishing during the winter ice fishing season. In past years, as ice fishermen leave the lake via one of the 8 ice roads that are maintained by local resorts, bags of trash and human waste are left behind on the ice. Upper Red Lake is a productive fishing lake and it a protection priority in the Upper/Lower Red Lakes Watershed Restoration and Protection Strategy (WRAPS) report.
The three (3) long-range goals of the Upper Sioux Community regarding the preservation and continuation of the Dakota language and culture are directly tied to the Mission Statement adopted in 1996 and delineated in the 2008 Dakota Language Revitalization Tribal Resolution that promises to: 1) Make Dakota Language revitalization the highest priority 2) Implement all strategies to revive the Dakota language; and 3) take necessary steps to raise up a new generation of speakers.
This project will implement specific projects that address strategies identified in the comprehensive local water management plan and will consist of stabilizing over 3,000 feet of eroding stream channel, eliminating a fish migration barrier, and improving aquatic and riparian habitat by increasing sinuosity, rebuilding the incised channel, and recreating the floodplain in Porter and Picha Creeks; Previous landowner discussions, alternative selection and design alternatives have been accomplished or are in process.
The Cannon River is a designated Wild and Scenic River that originates in Rice County and joins the Mississippi River 120 miles downstream near Red Wing. The Upper Cannon, which encompasses 29% of the entire watershed, has been identified as a priority subwatershed.
This project will support the monitoring of reaches where there are data gaps, incorporate new data and relevant data, continue identification of pollutant sources, complete load duration curves, coordinate and encourage participation in stakeholder meetings. The information gathered during Phase IIB will be utilized towards the development of a Draft Restoration (TMDL) and Protection Plan (Plan).
The goal of this project is to construct two executable Hydrologic Simulation Program FORTRAN (HSPF) watershed models for the Minnesota River Headwaters and Lac qui Parle watersheds. The contractor will use the Minnesota River HSPF model application already developed by Tetra Tech as a starting point and will refine the model construction based on the details in this work plan. The contractor will produce HSPF models that, after calibration and validation, will readily be used to provide information to support conventional parameter Total Maximum Daily Loads (TMDLs).
Prior Lake has long been a regional recreation destination including swimming, boating and fishing. The lake gets year-round use from anglers pursuing bass, panfish and walleye. The undulating landscape and the lake itself are important groundwater recharge features for regional water resources including the Savage Fen, Eagle Creek water supply aquifers and the Minnesota River. The management of water quality in Prior Lake is top priority for the Prior Lake-Spring Lake Watershed District (PLSLWD) and other local partners.
The management of water quality and water levels in the Spring and Prior chain of lakes has been top priority for the Prior Lake-Spring Lake Watershed District (PLSLWD) and local partners. Fluctuating water levels affect recreational use and shoreline stability. Both lakes have poor water quality conditions and are impaired due to excessive nutrients. In 2004, the PLSLWD conducted a study that identified areas draining to Spring Lake that have potential for stormwater storage and infiltration.
This project will extend the simulation period for the Hydrological Simulation Program - FORTRAN (HSPF) models for the Grand Rapids, Brainerd, Crow Wing, Redeye, Long Prairie, Sartell, Sauk, St. Cloud, and Crow watersheds, and review and comment on the calibration.
This project will extend, calibrate, and validate watershed models using the Hydrological Simulation Program - FORTRAN (HSPF) watershed model for the Mississippi Headwaters, Leech Lake, Pine, and South Fork Crow Watersheds.
Upper Mississippi, North Fork Crow River Major Watershed TMDL Project led by CROW with assistance from local partners North Fork Crow River Watershed District (WD); Middle Fork Crow River WD; Wright Soil and Water Conservation District (SWCD).
The primary goal of this project is to examine the calibration and validation of recently extended Hydrological Simulation Program – FORTRAN (HSPF) watershed models for the Mississippi River-Headwaters, Mississippi River-Grand Rapids, Mississippi River-Brainerd, Mississippi River-Sartell, Mississippi River-St. Cloud, Leech Lake, Pine River, Crow Wing River, Long Prairie River, and Redeye River watersheds and revise the calibration.
This project will provide MPCA staff, local partners and citizen volunteers with a framework for building local capacity to design civic engagement and communication/outreach efforts that will contribute to meaningful and sustained public participation in surface water protection and restoration activities throughout the watershed.
This goal of this project is the completion of a Hydrological Simulation Program FORTRAN (HSPF) watershed model for the Upper Red River watershed in the Red River Basin. This includes the construction, calibration, and validation of the model for hydrology and water quality parameters.
The Upper Buffalo River Sediment Reduction Project area lies in the first major land use transition within the buffalo's flowage, where intact forests and modestly developed lakes give way to altered hydrology and tilled fields of highly productive soils near the top of the Red River Basin. This abrupt change in land use within the watershed is directly linked to stream impairments within the project area.
Portions of the South Branch of the Buffalo River are currently overloaded with sediment. Two primary waterways in the watershed, Deerhorn Creek and the South Branch, are listed as impaired for turbidity. Due to sediment deposition in the channel, the waterways have lost much of their capacity. Historical attempts by landowners and others to restore the capacity of the channel by removing sediment have had limited success due to additional excess sediment being washed into the channel.
This project will develop a watershed restoration plan that provides quantitative pollutant load reduction estimates and a set of pollutant reduction and watershed management strategies to achieve water quality standards for all impairments within the watershed. It will also an important framework for civic and citizen engagement and communication, which will contribute to long-term public participation in surface water protection and restoration activities throughout the watershed.
The goal of this project is to calibrate, and validate three watershed models using the Hydrological Simulation Program FORTRAN (HSPF) model. The contractor will produce HSPF watershed models that can be further developed to provide information to support conventional parameter TMDLs. The contractor will clearly demonstrate that the models generate predicted output timeseries for hydrology, sediment, nutrients, and dissolved oxygen which are consistent with available sets of observed data.
This project will improve water quality in the heart of Douglas County?s livestock country. The goal of the project is to improve drinking water quality by upgrading, replacing or closing existing damaged or unpermitted manure storage areas, in addition to addressing open lot runoff. Five project locations have been identified and up to 4 more are anticipated to be identified in the next two years, for a total of up to 10 projects. Estimated pollution reduction is 421 pounds of nitrogen and 122 pounds of phosphorus.
There has been a sharp decline in participation in outdoor recreation and education amongst youth, particularly in urban areas. Some argue that youth who have meaningful outdoor education experiences are more likely to become engaged in environmental stewardship and invested in outdoor resources as adults.
Three urban natural areas, including an iconic Native American cultural site, will be restored to native prairie and forest, with a focus on important pollinator and culturally significant native plants.
This project is designed to complete an inventory and assessment of existing stormwater infrastructure in the cities of Two Harbors and Silver including mapping urban surface and sub-surface storm water flow to determine flow paths, pour points, and areas of limited storm water infrastructural capacity. The results of this assessment will be an assessment with prioritized and targeted opportunities for municipal infrastructure retrofits or best management practice installation on both public and private land.
The project included documenting all existing interpretive panels and markers of the U.S. - Dakota War in the MN River Valley and researching potential sites for new interpretive panels or markers. The end result is a written document with an inventory of existing marked U.S. - Dakota War sites in the MN River Valley, research of unmarked sites and an overall strategy of which sites could be marked to better tell the story. The report will provides guidance in telling a more complete story of the U.S. - Dakota War of 1862 through interpretive markers.
Establish and monitor 120 acres of intermediate wheatgrass (Kernza), a new perennial grain crop, in vulnerable wellhead protection regions of Minnesota to profitability reduce nitrate leaching to drinking water.
30,000 feet will serve Over 600 youth and 20 community artist between FY 24 and 25 will participate in arts residencies rooted in African American History and Culture.
some of the art residencies will include:
Deteriorating water quality of Sand Creek and some of its tributaries are.linked to inorganic sediment from field erosion and channel instability. This project continues a successful 2010 Clean Water Fund effort that addresses turbidity and sediment by targeting select subwatersheds for the conversion of row crops to native grasses.
This project aims to significantly reduce the amount of sediment transfer from eroding bluff areas to Seven Mile Creek during spring snowmelt and rain events throughout the year. This will be accomplished by installing and maintaining drop structures and reinforcing the existing spalsh pool at the outlet pipe without destabilizing the surrounding bluffs. When applied in tandem, this project will reduce the peak flow rate to ravine areas while shielding and protecting the bluff itself from eroding.
Nitrate levels in the water supply for the city of Benson have slowly but steadily been increasing since 2012. This project aims to work with the landowners surrounding the Drinking Water Supply Management Areas (DWSMA's) for Benson and Appleton in Swift County to reduce or eliminate the amount of nitrate entering these water supplies. Proven and effective strategies will be implemented to achieve the goals set forth in this grant.
The South Branch of Cascade Creek Turbidity Reduction Project will construct three wetland retention structures within the upper half of the watershed for water quality improvement including sediment reduction, flood attenuation and wildlife habitat improvement. The project will construct wetland basins on the Meadow Lake Golf Course to provide water quality improvement on a previously untreated branch that flows into the upper end of the stream channel restoration project.
Crow Wing County is pursuing this grant to continue this proven community and landowner outreach campaign by developing new water planning tools and using print and social media strategies to effect a positive change in our watersheds. The County believes that landowners want to do the right thing and has the data to show that when doing the right thing can be presented in customer-focused, fact-driven, easy-to-understand format, they get engaged and conservation gets done!
A joint effort of Becker and Clay Soil and Water Conservation District, the Buffalo Red Shallow Lakes and Mainstem Improvement Strategy will reduce nutrient and sediment delivery to 12 impaired lakes and impaired reaches of the Buffalo River through a targeted and prioritized approach to the implementation of Best Management Practices (BMPs). Numerous models have been combined with local knowledge to identify chief sources of constituents in the watershed and to isolate and prioritize implementation sites demonstrating the most significant gains in water quality.
Editing/Transcription is the second of three projects documenting and preserving the Maritime Heritage Minnesota's historical/archaeological investigation and assessment of the USS Essex Shipwreck, listed in the National Register of Historic Places. Five out of twenty-five of the vessel's previously digitized log books were edited, combined into .pdf e-books, transcribed and processed which included the creation of metadata for the digital images. The information resulting from this project is available for public access on Internet Archive.
As a pilot project for the grantee, Maritime Heritage Minnesota (MHS) the goal was to digitalize 6-10 of the 62 known log books of the USS Essex log books held at the National Archives and Records Administration and the United States Naval Academy.
After twelve days not only did they digital the entirety of the 62 log books but they were able to digitalize a private journal of a USS Essex sailor as well as a hand written journal of a sailor who served on her maiden voyage within the time allotted for the project (101 hours). In total 21,499 images were produced.
