The goal of this project is to perform water quality monitoring and load calculation duties to accomplish MPCA's Watershed Pollutant Load Monitoring Network monitoring efforts at seven sites for the Redwood and Cottonwood River watersheds as well as the Minnesota River site near Morton.
This project will establish a framework with County, Soil and Water Conservation District and watershed staff that will outline their involvement throughout the development of the Watershed Restoration and Protection Strategy (WRAPS) for the Cottonwood River and Redwood River watersheds.
This project will develop a watershed wide Total Maximum Daily Load (TMDL) study and River Eutrophication Standard (RES) TMDL report for water quality impairments in the Des Moines River basin, which includes the Des Moines River Headwaters, Lower Des Moines River, and East Fork Des Moines River watersheds.
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 the Minnesota Pollution Control Agency (MPCA) Watershed Pollutant Load Monitoring Network (WPLMN) Standard Operating Procedure, which is the procedure being followed for sites currently monitored by the Hawk Creek Watershed Project.
The goal of this project is to construct, calibrate, and validate a watershed model using HSPF. RESPEC will produce a HSPF model that can readily be used to provide information to support conventional parameter TMDLs.
The goal of this project is to extend the existing HSPF models through 2012 in the Chippewa Watershed (07020005) and Hawk-Yellow Medicine Watershed (07020004) to incorporate recent monitoring data to support current MPCA business needs and sediment source investigations.
This project is for constructing, calibrating, and validating a Hydrologic Simulation Program FORTRAN (HSPF) watershed models for the Minnesota portions of the Des Moines Headwaters, Lower Des Moines, and East Fork Des Moines watersheds. The model can be used to provide information to support conventional parameter Total Maximum Daily Load (TMDL) reports. This model generates predicted output timeseries data for hydrology, sediment, nutrients, and dissolved oxygen that are consistent with observed data.
The goal of this project is to establish load reduction requirements for impaired waters and to develop restoration strategies to improve water quality for impaired waters and protection strategies to maintain the quality of water for water bodies meeting standards.
The goal of this project is to determine: 1) temperature and seasonal variations in sediment chemical-textural characteristics (upper 10-cm sediment layer) and rates of P release from sediments; and 2) vertical variations in mobile P concentrations in the sediment column of Big Traverse Bay in order to better understand the role of internal P loading to the P economy of LOW and for the development of the LOW TMDL.
This project is to conduct water chemistry monitoring at two subwatershed sites and two major watershed sites based on flow conditions, targeting runoff events using protocols defined in the Watershed Pollutant Load Monitoring Network (WPLMN) Standard Operating Procedures and Guidance. The data collected will be submitted to Minnesota Pollution Control Agency (MPCA) and used for calculating pollutant loads. This loading information, in turn, will be used at both the state and local level to guide policy and strategies for the restoration and protection of Minnesota’s waters.
The Rainy River - Rainy Lake, Rainy River - Baudette and Rapid River Watershed Assessments will include the waters of the Baudette River, Black River, Peppermint Creek, Rapid River, Rat Root River and Winter Road River in Koochiching and Lake of the Woods Counties. This assessment focuses on collection of water chemistry and field parameters at the 12 key sites identified and modified by the Minnesota Pollution Control Agency (MPCA). Five of the sites will have extra total phosphorus and chlorophyll analysis completed as identified by the MPCA for collecting river nutrients.
This project will complete the Total Maximum Daily Load (TMDL) study and Watershed Restoration and Protection Strategies (WRAPS) for the Lake Superior North watershed. Two segments of the Flute Reed River are impaired for aquatic life due to elevated turbidity and total suspended solids. The lower Poplar River is also listed as impaired but significant progress has occurred in the last 10 years. A TMDL and implementation plan have been completed for the lower Poplar River impairment. All other waters meet water quality standards and will be considered for protection measures.
The purpose of this project is to gain an understanding of modern and historical nutrient and thermal dynamics in Lake of the Woods using modeling, monitoring, sediment core analysis, and whole basin techniques.
The Lake of the Woods (LOW) Total Maximum Daily Load (TMDL) study will: (1) identify water quality goals for the Minnesota portions of the LOW/Rainy River Watershed; (2) recommend nutrient allocations to achieve TMDLs where waters do not meet standards; and (3) provide opportunities for stakeholders to engage in the process of watershed-management planning to adopt protection and restoration strategies. The project will include existing in-lake and watershed model updates, TMDL component development, restoration plan development, and public participation.
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 goal of this project is to finalize the Lake Pepin Watershed phosphorus total maximum daily load (TMDL) report by using the existing information and documentation prepared under previous contracts to prepare one TMDL report that addresses the impairments on the mainstem of the Mississippi River. Information developed to date for draft TMDLs on the Minnesota River mainstem will be documented for later use by the Minnesota Pollution Control Agency.
This project will address Minnesota Pollution Control Agency (MPCA), United States Environment Protection Agency (EPA), and public comments on draft Total Maximum Daily Load (TMDL) studies and Watershed Restoration and Protection Strategy (WRAPS) reports, preliminary draft TMDL studies, and public noticed TMDL studies and WRAPS reports for the Lower Red River Watershed and the Lake of the Woods Watershed and produce final versions of the TMDL studies and WRAPS reports for each watershed.
This project addresses five reaches of the Minnesota River that have aquatic recreation impairments as identified by high concentrations of E. coli. The project will describe the water quality impairments, complete pollutant source assessments, establish loading capacities and allocations for the impairments, and develop implementation strategies.
The goal of this project is to extend existing Hydrologic Simulation Program FORTRAN (HSPF) models through 2017 for the following major watersheds: Redwood, Cottonwood, Watonwan, Blue Earth, Le Sueur, Pomme de Terre, Minnesota River-Headwaters, and Lac Qui Parle watersheds.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, fieldwork, data management, and interpretation expenses associated with monitoring and assessment activities.The ambient groundwater monitoring network describes the current condition and trends in Minnesota's groundwater quality.
The goal of this project is to analyze and document database architecture, platform, table structures, systems and data fields at six Minnesota agencies (Board of Soil and Water Resources, Department of Natural Resources, MN Department of Agriculture, MN Department of Health, Metropolitan Council, and MN Pollution Control Agency) for 30+ databases related to water.
The goal of this project is to refine the nutrient and algae simulation in the Minnesota River basin using all relevant available sources of information. The outcome of this work order is a revised Hydrological Simulation Program – FORTRAN (HSPF) watershed model application for the Minnesota River basin that correctly represents nutrient sources and algae.
This project will provide an important framework for civic and citizen engagement and communication in the International Rainy River-Lake of the Woods Watershed, which will contribute to long-term public participation in surface water protection and restoration activities.
The Rapid River Watershed Restoration and Protection Strategy (WRAPS) project will result in the development of the restoration and protection strategies for the watershed and engage the local stakeholders in the practices of watershed management. This project will also develop Total Maximum Daily Loads (TMDLs) for impaired waters.
The overall goal of this project is to perform water quality monitoring and load calculation duties to accomplish Minnesota Pollution Control Agency (MPCA) Watershed Pollutant Load Monitoring Network (WPLMN) monitoring efforts at the seven sites within the Redwood and Cottonwood River watersheds as well as the Minnesota River site near Morton. To accomplish this goal the requested funds will provide for technician’s time, mileage, lab costs, supplies, as well as equipment calibration and upkeep.
In 2017 and 2018, Redwood-Cottonwood Rivers Control Area (RCRCA) will collect water chemistry samples from the 10 lakes and 24 stream sites identified in the Redwood and Cottonwood River watersheds. Six samples will be collected at 10 lakes from May through September in 2017; five samples will be collected at 5 lakes in 2018 from May through September. Eleven samples will be collected at each of the 24 stream sites following the Basic Regime in 2017. Sixteen samples at each stream site will be collected in 2017 and 2018 following the E.coli monitoring regime.
The goal of this project is to provide drilling services for the Sentinel Lakes Groundwater/Surface Water Interaction Network. The three new wells will be used for monitoring the interaction between groundwater and surface water in Lakes Shaokatan and Bear Head. Groundwater/lake water interactions are not well understood, and in order to produce accurate and useful Total Maximum Daily Load watershed investigations and impairment remediations, the MPCA must understand how groundwater affects lake water quality.