The goal of the project is to sustain the existing Volunteer Nitrate Monitoring Network (VNMN) domestic well network for long-term groundwater quality studies by generating ambient groundwater quality data in domestic drinking water wells completed in various southeastern Minnesota aquifers, contrasting vulnerable and non-vulnerable hydrogeologic settings.
Partner Organizations: Kasson Alliance for Restoration, Mantorville Restoration Association, Friends of Mayowood, Denmark Township Historical Society, Friends of Saint Rose, Preservation Lake City, County Historical Societies, Red Wing Downtown Main Street, Winona Main Street, Winona Area Chamber of Commerce, Faribault Main Street, and Faribault Area Chamber of Commerce and Tourism
PAM will work to provide its partners with staff support, administration, supervision, and additional preservation and planning expertise.
The Southside Park and Yackly Park Historical Markers were created and installed to identify and document two historical home sites located within City Parks in the City of New Prague.
Yackly Park site, there had been past efforts made to document the history of the site and the existence of a log cabin with family ties back to New Prague's Founder Anton Philipp. In 2005, irrepairable damage to the remnants of the Yackly Cabin (rot and severe structural problems) led to its documentation by the Scott County Historical Society and demolition.
Filmmaker Joua Lee Grande and her team will complete feature-length documentary Spirited, host feedback sessions and develop an Impact Campaign to create curriculum, community screenings and discussions that focus on the film's topic of Hmong shamanism, how it is changing in modern-day Minnesota, and how it exists alongside current issues.
Native trout require clean, cold water that usually originates from springs, but the springs feeding the 173 designated trout streams in southeastern Minnesota are under increasing pressure from current and expected changes in land use. This joint effort by the University of Minnesota and the Minnesota Department of Natural Resources is working to identify and map the springs and the areas that feed water to these springs and to learn how these waters might be affected by development and water use.
Native trout require clean, cold water that usually originates from springs, but the springs feeding the 173 designated trout streams in southeastern Minnesota are under increasing pressure from current and expected changes in land use. This joint effort by the University of Minnesota and the Minnesota Department of Natural Resources is working to identify and map the springs and the areas that feed water to these springs and to learn how these waters might be affected by development and water use.
Imminent Health Threat (IHT) systems are those that are discharging improperly treated human waste onto the ground surface or into surface waters. In addition to the potential water quality impacts, untreated sewage has the potential to introduce bacteria and viruses into the environment. When IHT systems are identified, county or city staff assist the homeowners through the process required to bring their systems into compliance with the septic ordinance.
The Washington County Department of Public Health and Environment is seeking funds to conduct countywide records catalog and subsequent risk analysis of subsurface sewage treatment systems, or septic systems, in the county. The records catalog will involve the collection, digitization and review of historical permit records from 1972-2004. The risk analysis will utilize information from the historical review, in addition to other pertinent available data.
Having current and accurate data on historic and archaeological sites is important to understanding our past and to preserving Minnesota’s history for future generations. In 2010-2011, the Minnesota Historical Society awarded contracts for these survey projects:
Each fiscal year of ACHF funding, a majority of the twelve regional library systems agree to allocate 10% of their ACHF funding to support statewide partnership projects. SELCO serves as the fiscal agent for statewide projects.
We will deploy acoustic detectors and revisit roost trees identified in our previous ENRTF project to measure effect of seven years of white-nose syndrome on Minnesota bats.
In recent times, the owners of Wolf Marine on the St. Croix River have to excavate sediment that has built up at the outlet of Brown's Creek every year just to keep their marina navigable. Their business is directly affected by how much soil gets into the creek. Reducing dirt and sand entering Brown's Creek is also important to others. The creek is one of the few designated trout streams in the Twin Cities area that supports a fishable brown trout population.
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.
This project seeks to provide data on insecticide contamination in the soil and the insect community across the state and the effect of sublethal insecticide exposure on insect reproduction.
This project will apply the Sunrise River watershed computer model generated under previous projects to selected scenarios of land-cover and land-management changes. The watershed model calibrated to conditions in the late 1990s will form the initial baseline against which all other model runs will be contrasted. Scenarios to be run will include changes in future land cover, agricultural practices, urban practices, and natural resource management.
To support teachers in addressing new science standards , we propose a series of workshops across Minnesota facilitating conversation about sustainability and water conservation, specifically integrating western science and Indigenous perspectives.
This project will assess the condition of ten tributary streams in the Blakeley Bluff region of Scott County. The selected tributaries all discharge directly into the the Minnesota River, which is impaired for fecal coliform and turbidity.
This project will assess lakes and streams in the Cannon River watershed that have not been assessed to determine if they are meeting their designated uses. Some of these lakes and streams have data for certain pollutants, but not enough to complete an impairment assessment. The river and stream reaches are located in Dakota, Goodhue, Le Sueur, Rice, Steele, and Waseca counties. The lakes are located throughout the Cannon watershed (Le Sueur, Rice and Waseca Counties). This project will be a continuation of past assessments conducted in 2007 and 2009.
This project involves monitoring Arcola Creek. Stewardship strategies were defined for long term protection for the creek as part of the District's Lower St. Croix River Spring Creek Stewardship Plan and Ten Year Comprehensive Water Management Plan. Water quality monitoring is necessary to gather appropriate data for assessment.
Rice County Water Resources Division will complete a Surface Water Assessment for six lakes located in the Cannon River Watershed. The lakes chosen include: Sprague Lake (66-0045-00), Mud Lake (66-0054-00), Hatch Lake (66-0063-00), Pooles Lake (66-0046-00), Logue Lake (66-0057-00), and Phelps Lake (66-0062-00). Each lake chosen is currently unassessed, and both Sprague and Mud lake are priority lakes for testing. Sampling will include testing dissolved oxygen, temperature, pH, Secchi, Total phosphorus, and chlorophyll-a. The samples will be taken by volunteers and paid staff.
The Mississippi River is a priority for the SWW 1W1P partnership. The partnership is committed to making progress in reducing sediment delivered to the the Mississippi River in support of achieving the South Metro TSS TMDL. The partnership proposes to construct one structural stormwater BMP directly benefitting the Mississippi River in the City of Newport. The completed practice will reduce sediment delivered to the Mississippi River by up to 22 tons/yr.
South Washington Watershed District and its partners will work to restore the Colby Lake watershed and prevent continued degradation of Bailey Lake by installing two large scale water re-use systems. The water re-use systems at Eagle Valley and Prestwick Golf Courses will capture urban runoff and excess nutrients that would otherwise flow into Colby and Bailey Lakes and use it for irrigation.
The South Washington Watershed District (SWWD) and its partners will continue restoration of Colby, Wilmes, and Powers Lakes through coordinated implementation of targeted watershed retrofits as part of planned roadway rehabilitation projects. Watershed retrofits will include right of way bioretention, iron enhanced sand filtration, and stormwater reuse for irrigation. These practices represent some of the most cost-effective options remaining to provide the nutrient loading reductions necessary to protect and restore SWWD's lakes.
Ramsey-Washington Metro Watershed District (RWMWD) is a largely developed area of the Twin Cities with an average impervious surface area of 34%. Faith organizations often have large impervious surface areas with little to no stormwater treatment on site. The goal of this project is to collaborate with faith organizations in high priority areas to implement stormwater volume reduction retrofit projects. High priority areas are defined as areas with limited to no stormwater treatment before reaching a water body and/or areas that drain to an impaired water.
This project will continue collaboration with faith organizations in priority areas to implement stormwater volume reduction retrofit projects. Priority areas are defined as areas with limited to no stormwater treatment before reaching a water body and/or areas that drain to an impaired or at risk water.
