The project goal is to conduct water chemistry monitoring at four subwatershed sites and one basin site in 2016, 2017, 2018 and 2019. Water chemistry monitoring will be conducted at a wide range of flow conditions with emphasis of collecting samples during periods of moderate and high flows after runoff events, as defined in the Watershed Pollutant Load Monitoring Network (WPLMN) Standard Operating Procedures and Guidance. The data collected will be submitted to the Minnesota Pollution Control Agency (MPCA) and used in the FLUX32 model for calculating pollutant loads.
The goal of this project is to simulate up to ten scenarios using the recently completed Hydrologic Simulation Program FORTRAN (HSPF) model for the Mississippi River–Lake Pepin (MRLP) watershed. The mode will be used to investigate a variety of management scenarios to support further planning work and implementation in the watershed. Model scenarios are being developed to inform 1W1P planning activities and future implementation.
This Phase 1 project will support project planning, coordination and civic engagement/outreach components of the Mississippi River (Headwaters) Major Watershed project. Phase 1 of this project will focus towards the development of project teams, identifying stakeholders, developing an initial civic engagement strategic plan and reviewing current and past watershed project data.
This project will build a working watershed SWAT model that can readily be used by the MPCA to provide information to support conventional parameter TMDLs and to identify critical areas for BMP installation/evaluation that can be supported by the efforts of the local Farmer Led Council as well as other land owners within the Mississippi River-Winona watershed.
The goal of this project is complete a dataset necessary for assessment of 6 stream sites and 11 lakes within the Mississippi Headwaters Watershed to determine the overall health of its water resources, to identify impaired waters, and to identify those waters in need of additional protection to prevent future impairments.
This project will investigate the effects of different farming practices on soil health and nitrogen loss in a minimally tilled, corn-soybean farming rotation in Southeast Minnesota. The project area is a roughly 20 acre, pattern tiled field that will be split into two fields of nearly equal sizes. This will be a paired comparison of a control field and a treatment field where cover crops will be employed. Nitrogen loss will be monitored via two tile control structures and routine collection and analysis of tile water.
Whitewater Watershed Project will work in coordination with Winona County, Root River (Houston County) Soil and Water Conservation District (SWCD), and Wabasha County SWCD to collect water quality and chemistry parameters on eight Minnesota Pollution Control Agency (MPCA) approved stream sites and two lake sites within the Mississippi River Winona/La Crescent watershed during the 2020-2021 sampling season. Parameters to be tested include: TSS, TP, Chloride, CaCO3 (hardness), E. Coli, Chl - a corrected for Pheo, hardness, specific conductance, clarity, temperature, pH, DO.
Phase 1 of this project is primarily geared towards project planning and coordination among project partners, developing an initial civic engagement strategic plan, holding a watershed kick-off meeting, and gathering and summarizing available water quality data.
The goal of this project is to complete the construction, calibration, and validation of a Hydrological Simulation Program – FORTRAN (HSPF) watershed model for a portion of the Mississippi River-Lake Pepin watershed.
Phase 2 of the Mississippi River - Brainerd Watershed Restoration and Protection Strategy (WRAPS) project will: develop the WRAPS report and the Total Maximum Daily Load (TMDL) study, which allocates pollutant load reductions for impaired waters; implement a civic engagement plan; and develop watershed modeling scenarios to help understand implementation needs in the watershed.
This project will develop a Watershed Restoration and Protection Strategy (WRAPS) report as well as Total Maximum Daily Load (TMDL) studies where needed. The TMDLs will provide the quantitative pollutant load reduction estimates and a set of pollutant reduction and watershed management strategies to achieve water quality standards for the impairments within the watershed. Strategies for protecting the unimpaired waters within the watershed will also be included.
Several important milestones will be completed during this phase of the Mississippi River (Headwaters) Watershed Restoration and Protection Strategy (WRAPS) project. These milestones will include the completion of the Stressor ID & Watershed Monitoring and Assessment Reports, the completion of the Zonation Modeling watershed priority planning process (through the continuation of the Civic Engagement project component), and the development of the overall WRAPS report.
This project will address Step 2b in the Watershed approach process and computation of TMDLS for those impaired waters determined to be in need of them.
Several important milestones will be completed during this Phase (Phase II) of the Mississippi River (Headwaters) Watershed Restoration and Protection Strategy (WRAPS) project. These milestones will include the completion of the Stressor ID & Watershed Monitoring and Assessment Reports, the completion of the Zonation Modeling watershed priority planning process (through the continuation of the Civic Engagement project component), and the development of the overall WRAPS report.
This project proposes utilizing a precision conservation framework to assess two small impaired agricultural watersheds (HUC12) to determine optimal locations of best management practices and structures on the landscape that will address local water quality issues in a more strategic manner. The watershed assessment process will create GIS-generated maps that will be available to local SWCD staff that will inform decision-making for interested landowners.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities within the described priority watersheds.
Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities.
Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities.
Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities within the described priority watersheds.
Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities within the described priority watersheds. Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support. Biological and Water Chemistry Stream Monitoring: Monitoring to assess the conditions of streams in each watershed.
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.
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.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities within the described priority watersheds. Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support. Biological and Water Chemistry Stream Monitoring: Monitoring to assess the conditions of streams in each watershed.
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.
Minnesota Erosion Control Association (MECA) will offer three one-day training session intended to educate permittees on the requirements of the Municipal Separate Storm Sewer System (MS4) permit. The focus of these workshops will be on conducting inspections and various hot topics.
The State of Minnesota has adopted a ten year cycle for managing water quality for each of the 80 major watersheds in the state. Every ten years, each major watershed will undergo a surface water assessment and a Watershed Restoration and Protection Strategy (WRAPS) project. The North Fork Crow River WRAPS process is entering its second round which will focus both on addressing data gaps identified in the approved NFCRW Comprehensive Watershed Plan and on addressing additional required Total Maximum Daily Load (TMDL) studies required by the United States Environmental Protection Agency.
This project will support the review of all public comments submitted for the North Fork Crow River TMDL and make appropriate edits and changes to the draft TMDL based on MPCA guidance.
The North Fork Crow River Watershed planning workgroup has based its comprehensive watershed management plan on seven planning regions. Each planning region has a list of prioritized resource concerns, measurable goals and implementation actions. Implementation actions are targeted in locations within each planning region, prioritized based on local concerns, programs, etc.
This contract will be to initiate the second cycle of the North Fork Crow River Watershed Restoration and Protection Strategies (WRAPS) development. The project will provide needed information and analysis to make sure that implementation strategies are well thought out and targeted. The result will be a framework for civic and citizen engagement and communication, which will contribute to long-term public participation in surface water protection and restoration activities throughout the watershed.
The goal of this project is to add dual endpoints to the turbidity section of the North Fork Crow TMDL so that it addresses the proposed TSS standards.
Within an 11-county area in southeastern Minnesota, two Nutrient Management Specialists will work directly with producers to reduce nitrogen, phosphorus, and fecal coliform runoff into surface and ground water in the region and the Mississippi River. The specialists will help producers create or revise nutrient management plans, implement Best Management Practices for manure and fertilizer use, and set up on-farm demonstration projects to support farmer-to-farmer learning.
This project will assist farmers across Southeast Minnesota by providing guidance on management of nutrient sources including livestock manure, commercial fertilizers, and legumes. This project is important because excess nutrients and bacteria are causing negative impacts to the quality of waters. Two Nutrient Management Specialists will work one-on-one with farmers to develop 70 plans each year. Over time, it is anticipated that the number of new nutrient management plans will decrease as acres with plans increase.
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.
The goals of project are to: 1) engage stakeholders and the public in watershed management activities; 2) conduct microbial source tracking to determine the source(s) of E.
This project will determine the condition of the water bodies in the Otter Tail River watershed, initiate public participation in the Watershed Restoration and Protection Strategy (WRAPS) development process, begin identification of potential stressors and priority management areas within the watershed, and begin development of initial drafts of the Total Maximum Daily Load (TMDL) study and WRAPS report.
The goal of this project is to complete the construction, calibration, and validation of a Hydrological Simulation Program FORTRAN (HSPF) watershed model for the Otter Tail River watershed. The contractor will produce an HSPF model that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDL) Studies. The model will generate predicted output for hydrology, sediment, nutrients, and dissolved oxygen that is consistent with observed data.
