-Create and execute internship program for four Ojibwe students per academic year
-Strengthen and enhance Ojibwe curriculum for college levels 4 and 5
-Increase the number of near-fluent speakers of Ojibwe language
Wastewater treatment plants discharge effluent that contains contaminants of emerging concern, such as estrogens. Estrogens have been shown to cause ecological effects such as fish feminization and fish population collapses. Presently the treatment and discharge of estrogens into the environment via wastewater treatment is not regulated. However, it has been found that the extent of estrogen discharge from wastewater treatment correlates with how and how well nitrogen, which currently is regulated and will likely be more so in the future, is removed during the treatment process.
Innovative AIS control and education programs have been widely acknowledged as far removed from the traditional stable of conservation easement and high priority land acquisition programs that the LSOHC generally espouses. However, these projects, though not permanent in nature, address the significant impacts to land and water resources that AIS pose. Left untreated, AIS severely impacts the habitat and outdoor recreational opportunities that LSOHC is committed to preserving.
Minnesota Pollution Control Agency (MPCA) Watershed Pollutant Load Monitoring Network (WPLMN) requests assistance from local partners to collect samples and field data at designated stream monitoring sites for the purpose of assessing water quality and calculating annual pollutant loads.
The average Minnesotan and even most natural resource managers are not skilled in plant identification, yet the ability to positively identify plants is crucial to a number of conservation activities, including identifying areas that need protection, recognizing new or existing invasive species, monitoring restoration projects, and delineating wetlands. The Minnesota Wildflowers project attempts to fill this need with a free web-based field guide ultimately aimed at providing profiles for each of the over 2,100 vascular plant species in Minnesota.
New and innovatively designed greenhouse facilities have the potential to provide sustainable food, fuel, and other products year round by utilizing ecological processes and other practices to integrate production of fish, plants, and algae in a low input, self-sustainable system. The City of Silver Bay and researchers at the University of Minnesota – Duluth are using this appropriation to expand and enhance a demonstration greenhouse facility. Refined techniques developed at the facility have the potential to be transferred and replicated at similar facilities throughout the state.
