Lower Prior Lake was the target of a 2011-2013 diagnostic and feasibility study that identified projects and ranked subwatershed by phosphorus loading to the lake. This project is in a high loading subwatershed and includes three elements designed to reduce phosphorus loading and control rates and volumes of stormwater runoff: 1) retrofitting an existing ditch section with in-line iron-sand filters; 2) expanding storage capacity and creating wetland upstream of the ditch; and 3) installing a new control structure in an existing berm.
Arctic Lake, while not listed as an impaired water on the statewide 303(d) list, both regularly exceeds the statewide phosphorus standard for shallow lakes and drains directly to Upper Prior Lake, which is impaired for nutrients Reducing Phosphorus to Arctic Lake will help reverse the current declining water quality while also reducing the loading entering Upper Prior Lake.
To provide professional development for two staff members at the national American Association for State and Local History Conference in St. Paul, September 17-20, 2014.
To provide professional development for two staff members at the national American Association for State and Local History Conference in St. Paul, September 17-20, 2014.
To provide professional development for two staff members at the national American Association for State and Local History Conference in St. Paul, September 17-20, 2014.
To provide professional development for two staff members at the national American Association for State and Local History Conference in St. Paul, September 17-20, 2014.
To provide professional development for two staff members at the national American Association for State and Local History Conference in St. Paul, September 17-20, 2014.
The proposal was to accelerate the protection of 1,220 acres of prairie grassland, wetland, and other wildlife habitat as State Wildlife Management Areas open to public hunting. Over the course of the appropriation, we acquired 11 parcels for a total of 1,484.05 acres which exceeded our total acre goal of 1,220 acres by 264.05 acres. Breaking down acres by ecological section we acquired 876 acres in the metro, 152 acres in the forest/prairie, and 456 acres in the prairie. We have a balance of $52,798 that will be returned to the Fund despite exceeding our acre goals.
The program was to accelerate the protection of 1,230 acres of prairie grassland, wetland, and other wildlife habitat as Waterfowl Production Areas open to public hunting in Minnesota. Over the course of the appropriation, we acquired 14 parcels for a total of 1,240.79 acres which exceeded our total acre goal of 1,230 acres by 10.79 acres. Breaking down acres by ecological section we acquired 160 acres in the forest/prairie and 1,080.79 acres in the prairie. We have a balance that will be returned to the Fund despite exceeding our acre goals.
Many of Minnesota's wetlands have been lost and the remainder degraded. The original proposal planned for 15,000 acres of wetland/shallow lake enhancement to provide critical habitat for each life stage of waterfowl and wetland wildlife. The six projects subsequently completed with this appropriation enhanced 13,800 acres of wetlands and shallow lakes in the Prarie and Forest/Prairie Ecosections of Minnestoa.
Peer Engineering, Inc. (Peer) will evaluate and recommend to MPCA groundwater monitoring staff prospective sites/locations for the installation of groundwater monitoring wells to evaluate contaminant/pollutant concentrations from various sources. Peer will oversee the installation of monitoring wells by retaining a state drilling contractor or preparing bid documents to retain well driller through the Department of Administration. Superfund staff will assist in the project by providing oversight of contractual requirements and provide technical assistance as needed.
The occurrences of contaminants including antibiotics, other pharmaceuticals, and personal care products in the environment have gained increasing attention in recent years because of their potential health and ecological impacts. However, serious gaps remain in our understanding of these contaminants and the significance of the threats they may pose, such as to drinking water. Through this appropriation scientists at the University of St.
