Provide industrial, source reduction technical assistance to reduce nutrient discharge to wastewater treatment facilities through industrial process optimization. Document impact of nutrient reduction on wastewater operations and discharge quality.
This provides a project manager to work with regulated parties to identify new or more efficient ways of meeting standards at wastewater treatment facilities (municipal and industrial).
Minnesota Sea Grant seeks to create a science-policy fellowship program to train Minnesota's science-policy workforce and advance Minnesota's water resource policy, emulating Sea Grants successful federal-level fellowship program.
We propose robotics-based educational activities for middle-school youth on water quality in Minnesota. Youth will gain skills for measuring water quality and communicating results through group study and hands-on projects.
The goal of this project is to develop guidance for water quality parameter evaluation and calibration for Hydrological Simulation Program FORTRAN (HSPF) applications focused on dissolved oxygen (D.O.), nutrient, and algal simulation, along with a demonstration of the guidance by step-by-step application to D.O.-impaired Minnesota watersheds.
Tetra Tech will work to support the science needed when planning in Minnesota for water storage practice implementation. The goal is to provide practical water storage recommendations that can be incorporated into smaller scale planning within major watersheds (HUC 8), as well as larger scale planning for the Sediment Reduction Strategy for the Minnesota River and South Metro Mississippi River.
There are several models and tools that State agencies, university staff, and local government staff utilize to measure outcomes for pollution reduction benefits in agricultural watersheds in Minnesota. The mechanisms and scales at which these tools are built on are slightly to drastically different.
The DNR provides technical support related to the causes of altered hydrology and watershed management solutions. We use state-of-the-art models and statistical methods to look at cumulative impacts of drainage and land-use practices and determine the benefits of best management practices. This involves collaboration with multiple partners at multiple scales.
DNR regional clean water specialists and area hydrologists work with regional staff from other state agencies and with local partners to help identify the causes of pollution problems and determine the best strategies for fixing them. We collect and analyze stream channel stability and streambank erosion data to help identify root causes of certain water quality impairments in streams.
The Watershed Health Assessment Framework (WHAF) is a web-based tool for resource managers and others interested in the ecological health of Minnesota's watersheds. The framework uses five ecological components to organize and deliver information about watershed health conditions in Minnesota. The five components are hydrology, connectivity, biology, geomorphology, and water quality. Statewide GIS data from DNR and partner agencies are used to calculate health scores that reveal similarities and differences between watersheds.
This project delineates and maps watersheds (drainage areas) of lakes, rivers, streams, and wetlands for the state of Minnesota and provides watershed maps in digital form for use in geographic information systems. These maps become the basis for clean water planning and implementation efforts.
Minnesota has widespread water quality impairments due to nonpoint-source pollution generated by agricultural, urban, and other human-altered lands. Mitigation of these impairments requires implementing best management practices (BMPs) that are designed to limit soil erosion and nutrient transport from lands to receiving waters. Long-term data sets of water quality and land-use history are needed to tease apart the many factors that affect water quality. In particular, data sets that span periods before and after BMP implementation are needed to determine BMP effectiveness.
The Watonwan Watershed Technician will provide highly focused targeting of conservation programs and practices. The technician will enhance current staff capabilities in the Watonwan watershed by collecting landowner contact information from previous studies and GIS methods, produce mass mailings about funding opportunities, and meet one-on-one with landowners to discuss their conservation concerns. The technician will implement 45 projects/practices over a three year period.
In conjunction with the Watonwan Major Watershed Project engagement process, create a contact strategy for community/landowner opportunities, obstacles, and opinions on land management and water quality that will result in the identification of restoration and protection strategies for the Watonwan River watershed.
Develop a network of informed citizens, business people, community leaders and others capable of acting collectively to get work done in a sustained, strategic and meaningful way through a sense of shared ownership in the water resource management process.
The Watonwan Watershed Resource Specialist has been funding with Clean Water funds since 2012. Since that time, the Watonwan Watershed Resource Specialist has been a crucial connector between landowners and natural resource professionals in the Watonwan Watershed. As the technical ability and responsibilities of the WWRS expands, the need and urgency to secure extended funding becomes a priority. This project will fund half of the Watonwan Watershed Research Specialist position through year 2020.
With the completion of LiDAR data in southern Minnesota, it is imperative to use this data as effectively as possible. In order to do so, the Greater Blue Earth River Basin Alliance (GBERBA) will contract with a vendor to complete a Geographic Information System (GIS) terrain analysis in subsheds of the Watonwan River watershed. This inventory will utilize the State of Minnesota LiDAR elevation datasets to create many GIS datasets by spatially analyzing the elevation data.
MNHS continues to focus on broadening access to many of its Legacy-funded programs through the Internet. This funding supports the web development professionals who plan, build and implement digital components that are part of many Legacy-funded history projects. MNHS also uses the web to report on its use of Legacy funds at legacy.mnhs.org and for the public to apply for Legacy grant funds at legacy.mnhs.org/grants.
MNHS continues to focus on broadening access to many of its Legacy-funded programs through the Internet. This funding supports the web development professionals who plan, build, and implement digital components that are part of many Legacy-funded history projects and helps pay for Web hosting to make these projects accessible to people in Minnesota and beyond. MNHS also uses the web to report on its use of Legacy funds at legacy.mnhs.org and for the public to apply for Legacy grant funds at legacy.mnhs.org/grants.
This program is a part of a comprehensive clean water strategy to prevent sediment and nutrients from entering our lakes, rivers, and streams; enhance fish and wildlife habitat; protect groundwater and wetlands. Specifically the Wellhead Protection Conservation Easement program is targeted to protect drinking water through the Reinvest in Minnesota Program (RIM).
To hire a qualified historian to complete an evaluation to determine eligibility for listing in the National Register of Historic Places for the 1925 Wesley Hospital Building, Wadena, MN.
Locating the sources of sediment, phosphorus, and bacteria is integral to reducing the effect they have on a water body. The completion of the West Fork Des Moines River (WFDMR) Targeting and Prioritizing Endeavor will result in a set of data that is the most cost-effective for the implementation of Best Management Practices (BMPs) for all identified priority resources. The results will be expressed as the maximum reduction of a water quality contaminant (e.g. sediment, phosphorus, bacteria) at a priority resource (e.g. an impaired stream) for a given level of investment.
This monitoring work expands on previously established routine water quality and flow sampling to include extensive fish and aquatic invertebrate surveys. Subsequent steps include assessment of the monitoring data to determine impairments, identification of stressors that are causing impairments, development of Total Maximum Daily Load (TMDL) studies using identification of pollutant sources using computer modeling and other techniques, civic engagement, and public education as approaches in progress towards water quality goals.
This project will apply science to identify viable and priority wetland restorations and rehabilitations that will deliver sustainable water quality benefit, along with flood storage and habitat benefits. Decision tools will be developed to assist with selection of restoration projects.
What's Up, Doc? The Animation Art of Chuck Jones is a new traveling exhibit from the Smithsonian Institution that reveals the creative genius behind some of the most enduringly popular cartoons and animated films of all time. Chuck Jones brought to animation an unparalleled talent for comic invention and a flair for creating animated characters with distinctive and often wildly eccentric personalities.
The Minnesota Indian Affairs Council in collaboration with the Minnesota Humanities Center will extend and deepen the ongoing partnership around the Why Treaties Matter: Self-Government in the Dakota and Ojibwe Nations exhibition, supporting host sites through December 2012.
Project goals include installation of a 200-kW White Earth community-owned solar garden reducing GHG emissions, increasing economic development through environmental education and solar workforce training, and improving energy resilience.
Wild bees are important for their pollination services and for their contribution to species diversity; for example, many prairie-grassland plant species require pollinators for seed production. However, while the importance of plant-pollinator interactions is well recognized, there are large gaps in our knowledge of Minnesota’s wild bees. The only statewide list of bee species was published in 1919 and it reported only 88 species, whereas it is currently estimated that there are approximately 350-400 native bee species in the state.
Project outcomes include results from hydroponics experiments, which will likely consist of information on the response of wild rice growth to a range of concentrations of sulfate, sulfide, and various cations. Results from these experiments will be used to help determine what additional research is needed in 2013. The MPCA will use this data to evaluate the current sulfate standard and the need, if any, for modifications to it.
Project outcomes include data that will ultimately allow the MPCA to quantitatively compare the environmental conditions (surface water and sedimentary geochemistry) at sites that successfully support wild rice growth to sites that do not support wild rice. These data, in particular the analysis of the porewater samples obtained under this project, will be compared to the results from a separate project that will assess the growth of wild rice using hydroponic methods.
The MPCA is currently collecting additional information needed to evaluate the 10 mg/liter wild-rice-based sulfate standard and has received funding through legislation passed during the 2011 Special Session to implement a wild rice research plan and contract with scientific experts to further understand the effects of sulfate on the growth of wild rice. The goal of this project is to determine responses of wild rice to sulfate and the products of geochemical transformations of sulfate.
This project makes an additional plant growth chamber available to increase efficiency for the MPCA Wild Rice Standards Study, which is gathering information about the effects of sulfate on the growth of wild rice.
