This project will support the monitoring of two sites on the Cannon River throughout the field seasons of 2013 and 2014 during storm events and baseflow conditions to capture 25 samples per year at each site according to the WPLMN objectives. The information gathered from these samples and site visits will be compiled for reporting purposes and for use in calculating pollutant loading using the FLUX32 model.
This project will obtain spatial and long-term pollutant load information from the Root River watershed in Southeast Minnesota. To accomplish this, the Fillmore Soil and Water Conservation District (SWCD) will assist the MPCA with water quality monitoring and annual pollutant loading calculations. Approximately 25 grab samples will be collected/site/year at 5 sites within the Root River watershed (totaling 125 grab samples/year). Annual load calculations for each site will be determined using the FLUX32 model.
This project will work with the MPCA to conduct watershed pollutant load monitoring at four sites in the Chippewa River watershed and one site in the neighboring Pomme de Terre River watershed . The Chippewa River Watershed Project (CRWP) team will also aid the MPCA in measuring and comparing regional differences and long-term trends in water quality. The goal is to collect quality data and complete load calculations for the five sites using the MPCA's established protocols.
This project will monitor six sites within the Minnesota River Basin: Hawk Creek near Maynard, Hawk Creek near Granite Falls, Beaver Creek near Beaver Falls, Yellow Medicine River near Granite Falls, Yellow Medicine River near Hanley Falls, and Spring Creek near Hanley Falls. The sites will be monitored according to MPCA’s Major Watershed Load Monitoring Standard Operating Procedure, which is the procedure being followed for sites currently monitored by the Hawk Creek Watershed Project (HCWP).
The MPCA has identified 13 stream sites in the watershed to characterize watershed water quality. This project will supplement and complement the identification of the top 50 sites in the watershed that are contributing to water impairment and also help in identification of priority watersheds in the re-write of the watershed comprehensive plan. Water samples and field measurements will be collected at each monitoring location ranging from baseline events to high flow events.
This project will accelerate production of County Geologic Atlases (part A). An atlas is a set of geologic maps and associated databases for a county that facilitate informed management of natural resources, especially water and minerals.
“Acquiring Land and Creating Opportunities - A Parks and Trails Strategic Objective” is a program area representing DNR’s commitment to one of the four pillars identified in the 25 year Legacy plan. The Legacy plan identifies its purpose to ‘create new and expanded park and trail opportunities to satisfy current customers as well as to reach out to new ones’.The purpose of this program is to call attention to the pillar, but also to centralize and streamline reporting on other related programs within the pillar.
Strategic planning efforts guide the expenditure of Legacy funds towards desired outcomes which are derived from public and stakeholder input, research, analysis and input from a variety of experts and leadership. Parks and Trails planners conduct these efforts. Staffing levels were adjusted to complete this legacy work. Legacy funds have also substantially increased the numbers of projects completed each year. Design and project management levels of work have increased correspondingly. Conservation Corps of Minnesota and Parks and Trails staff conduct these efforts.
An interagency workgroup is developing recommendations for best practices and policies for water reuse in Minnesota. Recommendations will include both regulatory and non-regulatory approaches to successful implementation of water reuse. The workgroup will evaluate current regulations, practices, and barriers, and quantify and determine acceptable health risks associated with water reuse applications. The University of Minnesota is collecting and analyzing field data for use in targeting Minnesota-specific risks.
Partner: Minnesota Indian Affairs Council
American Indian undergraduate students from across Minnesota participated in this unique summer educational experience. The students selected for this intensive 17-day residential program attended onsite presentations throughout Minnesota and experienced hands-on learning about the museum and archaeology fields and other historical and cultural preservation organizations.
This project will be a complete TMDL report for the Biota and Bacteria (E. coli) impairments for the Ann River Watershed. The water bodies associated with these impairments will then be removed from the MPCA’s impaired waters list, and implementation activities to restore the water bodies will begin.
To address the problems caused by invasive species, the 1991 Minnesota Legislature directed the Minnesota Department of Natural Resources (DNR) to establish the Invasive Species Program. The program is designed to implement actions to prevent the spread of invasive species and manage invasive aquatic plants and wild animals (Minnesota Statutes 84D).
The three primary goals of the DNR Invasive Species Program are to:
1. Prevent the introduction of new invasive species into Minnesota.
2. Prevent the spread of invasive species within Minnesota.
The DNR is working with local communities and an interagency team to define, prioritize, and establish groundwater management areas in Minnesota. Groundwater management areas will have increased data collection and monitoring that allow the state and local communities to understand water supplies, uses, limitations, and threats to natural resources that depend on groundwater. This information will support detailed aquifer protection plans that ensure equitable and sustainable groundwater and drinking water use for the future.
This project is studying the response of certain aquifers to groundwater pumping. Research involves an aquifer test, which is an experiment where a well is pumped at a known, constant, pumping rate; changes in groundwater levels and stream flows in the areas around the aquifer test site are observed while the well is being pumped. These tests help us understand how groundwater flows between aquifers, which are underground rock and sand layers that hold water.Understanding the interactions between shallow and deep aquifers and surface water is important for managing groundwater supplies.
This project will provide condition monitoring and problem investigation monitoring at the following sites.
Mississippi River: Tributaries include Bassett Creek, Cannon River, Crow River, and Minnehaha Creek.
Minnesota River: Tributaries include Eagle Creek,Riley Creek, and Valley Creek tributary to the St. Croix River
This project is a continuation of Statewide Lake study that revealed the obiquitous presence of endrocrine active compounds (EACs) in many MN Lakes. The initial project findings suggested two potential knowledge gaps in our understanding of EACs and their effects in lake environments. First, the sources of EACs and their entrance points into lakes need to be better defined than was possible in our previous statewide lake study.
This project will promulgate a nitrate water quality standard to address aquatic life toxicity, and gather information needed to support the development of total nitrogen (N) loading reduction strategies for Minnesota’s waters and also address Minnesota’s contribution to marine water hypoxia. Project will also develop a framework for a watershed nitrogen planning aid that can be used to optimize selection of Best Management Practice (BMP) systems for reducing nitrogen.
This project will complete a Total Maximum Daily Load Implementation Plan for the watersheds of Big Sandy and Minnewawa Lakes. This restoration plan will provide pollution reduction and watershed management strategies that are developed with input from stakeholders in the watersheds.
This project will utilize a systematic approach to identify principal sources, or “hot-spots”, of sediment contributions and work with individual landowners, county drainage officials, and municipalities to coordinate and implement critical Best Management Practices (BMP’s), establish demonstration sites, and provide education and outreach efforts. This project will also establish baseline watershed data with the addition of site specific information, and determine high priority watersheds. Appropriate practices will be identified and mapped utilizing GPS and GIS equipment and software.
This project will develop a Final TMDL report and Implementation Plan for the Bluff Creek Watershed. The main outcomes of this project are the development of a Final TMDL Report approved by MPCA and EPA and a Final Implementation Plan approved by MPCA.
This project will continue to develop, and calibrate/validate the hydrology of an Hydrological Simulation Program FORTRAN (HSPF) watershed model for the Buffalo River watershed. The consultant will add representation of point source discharges to the model. The consultant will compile flow data for the purposes of calibration and validation. An initial hydrologic calibration will be performed and submitted for approval.
Governor Mark Dayton's landmark buffer initiative was signed into law in 2015. The law establishes new perennial vegetation buffers of up to 50 feet along rivers, streams, and ditches that will help filter out phosphorus, nitrogen, and sediment. The new law provides flexibility and financial support for landowners to install and maintain buffers.The DNR's role in Minnesota's new buffer law is to produce a statewide map of public waters and public ditches that require permanent vegetation buffers. The DNR is scheduled to produce these maps by July 2016.
The goal of this project is to develop and complete the Watershed Restoration and Protection (WRAP) process and report, while also enlarging and sustaining a public participation process that encourages local ownership of water quality problems and solutions (civic engagement).
Continued TMDL project to support next phases associated with completion of TMDL's for ten lakes in the Carnelian Marine Saint Croix Watershed District (CMSCWD). Ten lakes are; East Boot, Fish, Goose, Hay, Jellum’s, Long, Loon, Louise, Mud and South Twin.
There are two main goals of this Cedar Basin HSPF project,
A. Overall development of the HSPF model in the Cedar Basin of Minnesota; and
B. Shell Rock River nutrient, DO , impairment modeling and TMDL completion.
This project will place the Cedar River watershed on a sustainable and clearly understood implementation process for comprehensive water management. All people living in the watershed and all groups operating and managing land in the watershed, are responsible stakeholders in the effort. Objectives for this phase of the project include:
1. Develop a comprehensive watershed restoration and protection strategy.
2. Continue development of a more coordinated and comprehensive citizen participation process.
This project will complete a comprehensive and sustainable Major Watershed Restoration and Protection Strategies report for the Chippewa River, its tributary streams, and the many lakes in the Chippewa River watershed that is understandable and adoptable by local units of government and residents.
“Connecting People to the Outdoors- A Parks and Trails Strategic Objective” is a program area representing DNR’s commitment to one of the four pillars identified in the 25 year Legacy plan. The Legacy plan identifies its purpose to ‘better develop Minnesota’s stewards of tomorrow through efforts to increase life-long participation in parks and trails.’The purpose of this program is to call attention to the pillar, but also to centralize and streamline reporting on other related programs within the pillar.
The Division of Parks and Trails (as directed by Chapter 172, Art. 3, Sec. 2, Subd. 3(c)) utilizes Conservation Corps of Minnesota services for restoration, maintenance, and other activities that supplement the ability to reach Legacy Fund goals. Budget associated with this program area capture an accounting of dollars that support CCM Summer Youth, Individual Placements, and special projects for park and trail renewal and development. Other dollars not accounted for in this program area are part of other PAT program areas and included as part of those budgets.
This project will provide notification of the potential for coal tar contamination, establish a storm water pond inventory schedule, and develop best management practices for treating and cleaning up contaminated sediments. The sampling design includes 15 stormwater ponds, 5 each from residential, commercial, and industrial land use areas. Municipalities in the metro area with MS4 permits of stormwater ponds will be contacted to nominate candidate sites for this study. GPS coordinates will be taken at all sampling sites.
Common carp, introduced from eastern Europe over a century ago, are an invasive species in Minnesota that adversely affect water quality and aquatic communities, particularly in shallow lakes and wetlands. While solutions for suppressing common carp reproduction and abundance are emerging, controlling the movement of common carp, and therefore preventing reinfestation, has so far proved difficult.
Deep, cold-water lakes have different physical properties and support different wildlife than their more numerous shallow counterparts. The Minnesota Department of Natural Resources (DNR) is using this appropriation to conduct a study that will help identify, monitor, and predict the consequences of climate change and land use changes on water quality, habitat dynamics, and fish populations in deep, cold-water lakes.
On behalf of the Metropolitan Council, Environmental Financial Group Inc. generated a matrix of water conservation programs with detailed information about the costs and benefits of the programs. Tools were also developed to allow users to calculate potential water savings, estimate program implementation costs, and test the effects of various water conservation programs and rate structures.