The primary goal of this project is to train the Minnesota Pollution Control Agency staff in Hydrologic Simulation Program FORTRAN (HSPF) model calibration of nutrients, oxygen demand, and algal processes and in MATLAB script development for model output processing and report generation. Additionally, a pilot application process will be developed to link HSPF applications to Water quality Analysis Simulation Program (WASP) to take advantage of the advanced sediment oxygen demand processes.
This project will develop and implement a model stormwater water quality credit trading framework. The purpose is to provide voluntary, cost effective, pollutant reductions on a watershed scale.
Winter sport fishing for trout is a vibrant industry, but can be impacted by changing climate. We seek to understand how to conserve trout habitat, especially focusing on winter management.
This collaborative project creates a college to workforce pathway for under-represented students who are interested in pursuing Natural Resources careers by reducing barriers that inhibit successful educational attainment.
This program will develop a centralized, integrated approach to managing existing data systems and incorporating new information needs into the integrated enterprise information system of data.
Promising new carp deterrent system is tested in the Mississippi River along with an existing deterrent and predators; 99% blockage is suggested and Fish and Wildlife Service is a partner.
This on-going program is for detecting, mapping and controlling invasive plant species and re-establishing native vegetation in their place on lands administered by the Division of Parks and Trails. Control of invasive plant species furthers progress to preserve and restore the quality of native plant communities on Parks and Trails lands as well as helps prevent the spread of invasives to new locations.
The Minnesota Pollution Control Agency (MPCA) has been monitoring for contaminants of emerging concern in Minnesota's surface water since 2007. These contaminants include a wide variety of pharmaceuticals, personal care products, and other chemicals that can harm fish and wildlife and human health. One group of these chemicals, disinfection by-products, are formed when water is treated with chlorine. Some of these chemicals are cancer-causing and highly toxic.
Funding supports an Irrigation Specialist to develop guidance and provide education on irrigation and nitrogenbest management practices (BMPs). In this position, Dr. Vasu Sharma provides direct support to irrigators onissues of irrigation scheduling and soil water monitoring. She is collaborating on the development of new irrigationscheduling tools that help irrigators manage water and nitrogen resources more precisely. These tools help reducenitrogen leaching losses in irrigated cropping systems.
This contract is for Itasca County Soil and Water Conservation District (SWCD) to assist in the public participation activities in Rainy Basin Watersheds of Little Fork and Big Fork.
The project involves installation of a number of stormwater best management practices in the road right-of-way and on adjacent public property during reconstruction of Johnny Cake Ridge Road and installation of the Dakota County North Creek Greenway. Practices implemented will include boulevard raingardens, tree trenches, and underground sediment collection practices.
Otter Tail County will partner with the Buffalo-Red River Watershed District and the West Otter Tail and Wilkin SWCDs to stabilize the outlet of Judicial Ditch No. 2 which has become the most critically eroding gully contributing sediment to the Otter Tail River. When stabilized, sediment to the river will be reduced by 988 tons per year, and total phosphorus will be reduced by 840 pounds per year. The sediment reduction associated with this project is 7 percent of the 6,868 tons per year goal set by the Lower Otter Tail River Total Maximum Daily Load.
In 2010, the Minnesota Pollution Control Agency listed Keller Lake as impaired for excess nutrients. An in-lake alum application was identified as the primary phosphorus load reduction option for controlling internal phosphorus load in Keller Lake. A recently completed in-lake management feasibility study report indicates that the in-lake alum application is the most cost-effective implementation project that remains for Keller Lake.
The purpose of this work is to develop Total Maximum Daily Loads (TMDLs; a federal clean Water Act requirement) for streams and lakes in the Kettle River and Upper St. Croix watersheds. This and other technical information will be used to develop a separate report called a Watershed Restoration and Protection Strategy (WRAPS) report.
Minnesota's twelve regional public library systems, which encompass 350 public libraries in all areas of the state, benefit from a portion of the Legacy Amendment's Arts and Cultural Heritage Fund. Through State Library Services, a division of the Minnesota Department of Education, each regional public library system receives a formula-driven allocation from the annual $2.5 million Minnesota Regional Library Legacy Grant. Kitchigami Regional Library (KRL) is a consolidated regional public library system in north central Minnesota.
We assessed, designed rehabilitation features and permitted 7200 linear feet of river reach in prime spawning areas. We completed construction on over 2200 linear feet of the reach.
SPECIFIC ITEMS:
*Installed approx. 400 feet of toewood bench.
*Graded approx. 500 feet of shoreline to allow river access to floodplain.
Previous research by the St. Croix Watershed Research Station (SCWRS) has identified lake physics (temperature and oxygen) and nutrient recycling (nitrogen and phosphorus) as key drivers of lake algal blooms. SCWRS will conduct monitoring consistent with the prior research efforts by re-deploying three moored buoys to collect data throughout the 2019 ice-free season, including surface water samples. Additionally, SCWRS will deploy an in situ flourometer to measure total algae and cyanobacteria concentrations and will collect and analyze cyanobacterial toxins.
The purpose of this project is for Lake County Soil and Water Conservation District to continue to assist with the Minnesota Pollution Control Agency’s watershed approach and Watershed Restoration and Protection Strategy (WRAPS) process in the Rainy River Headwaters and Cloquet River watersheds. As part of this, Lake County Soil and Water Conservation District will lead efforts to increase levels of civic engagement and community participation in support of the current WRAPS process.
The goal of this project is to reduce peak stormwater flow discharge, sediment and phosphorus from directly entering Lake Pepin by installing two stormwater infiltration basins treating a total of 15.8 acres of developed residential and commercial area in Lake City in conjunction with the Highway 61 road reconstruction project scheduled for 2020 reducing total phosphorus by 13 pounds per year and sediment by 2 tons per year.
A watershed assessment and water quality treatment plan was completed for the impaired Lake George . This project will address the watershed practices portion of the water quality treatment plan. One regional underground stormwater detention/filtration treatment facility treating a 47-acre drainage area will be installed in partnership with the Tech High School Redevelopment Project. The underground facility will target phosphorus reduction reducing an estimated 27 pounds of phosphorus and 7 tons of sediment annually.
This project proposes to address the largest phosphorus loads discharging from 885 acres to Lake St. Croix through the installation of targeted stormwater treatment best management practices ranked in the top 10 of those prioritized in the 2018 Lake St. Croix Direct Discharge South Stormwater Retrofit Analysis. The goal of this project is to reduce pollutant loading from four small communities to Lake St. Croix by at least ten pounds phosphorous.
The project will increase lake and river access e.g. dock and carry-in portage; provide trails and small gathering space on Echo Point; restore and re-naturalize the park with trees, shrubs and native perennials; improve the layout and/or capacity picnic ground and campground; and other master plan approved improvements. The project includes design, engineering, construction and construction administration.
