Cognizant to the needs of the stormwater community, a group that has engaged in stormwater research at the University of Minnesota (UMN) has developed a research program for the biennium that addresses pressing needs: a stormwater research roadmap and framework for priority needs, research required to improve stormwater pond maintenance, and information transfer related to these needs.
The Minnesota Zoo will develop educational displays and engaging, hands-on interactives to summarize scientific findings about moose decline in Minnesota. Information will be integrated online to increase accessibility for all.
Land and water conservation efforts require accurate information about land cover and land use. Minnesota’s land cover and land use data has not been updated since 2000 and so does not reflect changes since that time resulting from growth and development, agricultural production, or landscape cover. Researchers at the University of Minnesota are using this appropriation to conduct a statewide update and enhancement of land cover and land use data and make it freely available online for use by government and non-government organizations involved in land and water conservation.
This work order will provide the Minnesota Pollution Control Agency (MPCA) with assistance in assembling, graphics, geographic information system (GIS) maps, data synthesis, writing, formatting and editing the 5-year nutrient reduction strategy progress report and update and similar updates for the Sediment Reduction Strategy. The Sediment Strategy update also involves incorporation of modeling results and other technical information into the 2015 strategy document.
This project will result in updates to the Minimal Impact Design Standards (MIDS) Calculator, creation of a water quality calculator based on the MIDS Calculator, and recommended updates to the Minnesota Stormwater Manual. The updated MIDS Calculator will be called MIDS Calculator Version 4 and the water quality calculator will be called MPCA Water Quality Calculator Version 1.
The goal of this project is to obtain key information needed to update the Nutrient Reduction Strategy based on watershed approach experiences over the past five years.
Over the past 100 years, about half of Minnesota’s original 22 million acres of wetlands have been drained or filled. Some regions of the State have lost more than 90 percent of their original wetlands. The National Wetland Inventory, a program initiated in the 1970s, is an important tool used at all levels of government and by private industry, non-profit organizations, and private landowners for wetland regulation and management, land management and conservation planning, environmental impact assessment, and natural resource inventories.
To update the 2003 Historic Structures Report to provide more specific guidance on the restoration of the Randolph M. Probstfield House, listed in the National Register of Historic Places.
Project goal is to develop Total Maximum Daily Loads (TMDLs) and Watershed Restoration and Protection Strategies (WRAPS) that will protect and improve water quality for the Minnesota portion of the Mississippi River–Reno and Upper Iowa River watersheds. This information paired with other tools (e.g. Hydrologic Simulation Program FORTRAN (HSPF) models and best management practice spreadsheets) and will support restoration and protection strategy development and prioritization efforts in the 1W1P area.
This project will provide the monitoring of reaches where there are data gaps, incorporate new data and analyze relevant data, identify pollutant sources, hold a stakeholder meeting, and gather information towards the future development of a Draft Restoration (TMDL) and Protection Plan.
Phase II of the Upper South Branch Project will continue a FY2011 CWF project with the strategic implementation of conservation practices within the Upper South Branch of the Buffalo River watershed. This second phase will result in approximately 305 acres of new filter strips, 50 side inlet sediment control structures, and 8 sediment control basins which will reduce sediment loading to the stream by 4,700 tons/year and phosphorus by 9,700 pounds/year.
The goal of this project is the completion of an Upper Mississippi River Bacteria Total Maximum Daily Load (TMDL) and Protection Plan. In addition, an Implementation Plan will be developed and finalized under this contract.
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.
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).
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.
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.
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.
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.
Partners: Carleton College and Veblen Farmstead. Preservation work at the Thorstein Veblen Farmstead National Historic Landmark, near Nerstrand, Rice County, Minnesota, will provide urgently needed stabilization and preservation of three outbuildings at the farmstead, including the original small barn, the large hay barn and the granary.The farmstead is a rare site that preserves and illustrates the pioneering immigrant experience on the prairie. People from across the country and from overseas have visited the property over the past several years.