The Project and Outreach Coordinator will facilitate efforts within the watershed to provide landowner support and assistance in identifying areas in need of conservation plans and best management practices. The coordinator would use the Watershed Protection and Restoration Strategy Report and county water plans to target and prioritize outreach and education to maximize water quality benefits. This will greatly multiply the number of educated landowners in the watershed and increase the number of projects implemented.
This project primarily focuses on riparian restoration (permanent vegetative buffer enhancements and plantings) on 6.5 miles (both sides) of targeted tributaries, ditches, and wetlands within five sub - watershed areas identified in the Snake River Watershed Restoration and Protection Strategy (WRAPS) Report. These plantings will consist of native perennials, trees, and shrubs where practical. In addition to the riparian plantings, this project will include fence exclusions for cattle and heavy use protections at cattle crossings in streams and ditches.
Continue and finalize watershed models using Hydrologic Simulation Program FORTRAN (HSPF) for the Grand Marais Creek and Snake River Watersheds and complete the calibration/validation process.
Pesticides, pharmaceuticals, and agricultural nutrients serve important functions in crop production and the treatment of disease. However, these chemicals become pollutants when discharged into surface waters through wastewater, storm water, and agricultural runoff. There are natural processes, though, that help break down and remove these pollutants from water. One such process is the role that sunlight interacting with dissolved organic matter naturally present in surface water from decaying plant materials and algae has in transforming these contaminants.
Sustainable energy production is a major challenge facing our society. Solar energy is renewable and is a viable and attractive option. However, there are obstacles to widespread use. Current technology is expensive, making it difficult for businesses and homeowners to implement, and solar cells are commonly made using toxic and rare elements or using processes that require large amounts of energy. To become commonplace, solar cells must be inexpensive and robust, and they must be made of abundant, cheap, nontoxic materials.
Over the past several years six environmental learning centers located around the state - Audubon Center of the North Woods, Deep Portage Learning Center, Eagle Bluff Environmental Learning Center, Laurentian Environmental Learning Center, Long Lake Conservation Center and Wolf Ridge Environmental Learning Center – have been implementing demonstrations of energy conservation, energy efficiency, and renewable energy on their campuses for use as educational tools for the thousands of students and visitors that come to the centers each year.
MNHS continued its previous collaboration with Macalester College and the Somali community to add
an additional 10 interviews to those that have already been completed. The new interviews focused on
women's experiences.
Minnesota Department of Health has been collaborating with cities and other community water suppliers since 1993 to develop and implement source water protection plans. Support from the Clean Water Legacy expands and accelerates the number of water suppliers that can be assisted each year in undertaking protection planning and implementation activities.
