Minnesota's Legacy

All Projects

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2019 Fiscal Year Funding Amount
$1,375,000
2018 Fiscal Year Funding Amount
$1,375,000
2017 Fiscal Year Funding Amount
$1,375,000
2016 Fiscal Year Funding Amount
$1,375,000
2015 Fiscal Year Funding Amount
$1,375,000
2014 Fiscal Year Funding Amount
$1,375,000
2013 Fiscal Year Funding Amount
$1,500,000
2012 Fiscal Year Funding Amount
$1,500,000
2011 Fiscal Year Funding Amount
$525,000
2010 Fiscal Year Funding Amount
$600,000
Fund Source

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.

Statewide
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$62,485
Fund Source

This project involves the extension and update of the Hydrological Simulation Program FORTRAN (HSPF) model for the Bois de Sioux and Mustinka watersheds.

Big Stone
Grant
Otter Tail
Stevens
Traverse
Wilkin
Recipient
Tetra Tech
2019 Fiscal Year Funding Amount
$49,491
Fund Source

This is the second phase of building the Hydrologic Simulation Program FORTRAN (HSPF) model for the Buffalo River watershed. This work will include completion of the model including final calibration and validation.

Becker
Clay
Otter Tail
Wilkin
Recipient
Tetra Tech
2018 Fiscal Year Funding Amount
$49,925
Fund Source
Becker
Clay
Otter Tail
Wilkin
Recipient
Tetra Tech
2019 Fiscal Year Funding Amount
$49,491
Fund Source

This is the second phase of building the Hydrologic Simulation Program FORTRAN (HSPF) model for the Buffalo River watershed. The project will result in a completed model including necessary calibration and validation phases.

Becker
Clay
Otter Tail
Wilkin
Recipient
Tetra Tech
2017 Fiscal Year Funding Amount
$80,038
Fund Source

This project will conduct a 2017 revision of the South Fork Crow River, North Fork Crow River and Sauk River Watershed Hydrological Simulation Program FORTRAN (HSPF) models and review of the Pine River Watershed HSPF model.

Aitkin
Carver
Cass
Crow Wing
Douglas
Hennepin
Hubbard
Kandiyohi
McLeod
Meeker
Pope
Renville
Sibley
Stearns
Todd
Wright
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$49,981
Fund Source

The contractor will add more functionality to HSPEXP+ Hydrological Simulation Program FORTRAN (HSPF) tool and conduct 2016 HSPF Modeling Contractors Meeting

Statewide
Recipient
RESPEC
2019 Fiscal Year Funding Amount
$99,980
Fund Source

The primary goal of this project is to enhance the current version of the Expert System for Calibration of HSPF (HSPEXP+) so that it can be more efficiently used for QA/QC of hydrology and water quality models developed using Hydrological Simulation Program FORTRAN (HSPF) and develop input files for two receiving waterbody models.

Statewide
Recipient
RESPEC
2013 Fiscal Year Funding Amount
$174,954
Fund Source

This project will construct, calibrate, and validate three HSPF watershed models. The consultant will produce HSPF models that can readily be used to provide information to support conventional parameter TMDLs. The consultant will clearly demonstrate that these models generate predicted output time series for hydrology, sediment, nutrients, and dissolved oxygen which are consistent with available sets of observed data.

Becker
Hubbard
Crow Wing
Aitkin
Clearwater
Cass
Itasca
Beltrami
Recipient
Tetra Tech
2017 Fiscal Year Funding Amount
$3,969
Fund Source

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.

Cottonwood
Jackson
Lyon
Martin
Murray
Pipestone
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$34,955
Fund Source

The goal of this project is to develop the guidance needed for water quality parameter evaluation and calibration for Hydrological Simulation Program – FORTRAN (HSPF) applications that utilize the general water quality constituent routines on the land surface to generate loadings of nutrients and organic material for input to water bodies to support dissolved oxygen (DO), nutrient, and algal simulation.

Statewide
Recipient
Houston Engineering Inc
2017 Fiscal Year Funding Amount
$173,118
Fund Source

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.

Big Stone
Chippewa
Lac qui Parle
Lincoln
Stevens
Traverse
Yellow Medicine
Recipient
Science Museum of Minnesota - St. Paul
2014 Fiscal Year Funding Amount
$150,026
Fund Source
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.
Lake of the Woods
Recipient
Lake of the Woods SWCD
2015 Fiscal Year Funding Amount
$305,620
2016 Fiscal Year Funding Amount
$66,412
2017 Fiscal Year Funding Amount
$47,202
Fund Source

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.

Lake of the Woods
Recipient
LimnoTech
2018 Fiscal Year Funding Amount
$75,630
Fund Source

The consultant LimnoTech will support response to Total Maximum Daily Load (TMDL) comments the peer review process, United States Environmental Protection Agency and public notice. They will then revise the TMDL document as needed and attend internal and external project meetings.

Anoka
Carver
Dakota
Dodge
Goodhue
Hennepin
Le Sueur
McLeod
Mower
Nicollet
Olmsted
Ramsey
Renville
Rice
Scott
Sherburne
Sibley
Steele
Wabasha
Washington
Wright
Recipient
LimnoTech
2013 Fiscal Year Funding Amount
$59,116
Fund Source

The MPCA has selected the Soil and Water Assessment Tool (SWAT) watershed model to simulate watershed hydrology and water quality to assess various restoration scenarios in the Little Cannon River watershed. The SWAT model is an important tool in developing an understanding of existing conditions and simulating conditions under various management scenarios to inform the development of implementation strategies and plans to restore and protect streams and lakes.

Blue Earth
Dakota
Dodge
Freeborn
Goodhue
Le Sueur
Rice
Scott
Steele
Waseca
Recipient
Barr Engineering-Minneapolis
2016 Fiscal Year Funding Amount
$53,994
Fund Source

The goal of this project is to develop draft Total Maximum Daily Load (TMDL) computations for six impaired lakes and two impaired streams, and to provide TMDL development documentation for selected draft TMDL report sections.

Carver
Hennepin
Recipient
Tetra Tech Inc
2019 Fiscal Year Funding Amount
$89,477
Fund Source

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.

Big Stone
Blue Earth
Brown
Chippewa
Cottonwood
Douglas
Faribault
Freeborn
Grant
Kandiyohi
Lac qui Parle
Le Sueur
Lincoln
Lyon
Martin
Murray
Otter Tail
Pipestone
Pope
Redwood
Renville
Stevens
Swift
Traverse
Waseca
Watonwan
Yellow Medicine
Recipient
Tetra Tech Inc
2019 Fiscal Year Funding Amount
$149,903
Fund Source

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.

Olmsted
Wabasha
Recipient
Tetra Tech Inc
2017 Fiscal Year Funding Amount
$90,980
Fund Source

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.

Goodhue
Wabasha
Recipient
Dr. David Mulla, University of Minnesota, Dept. of Soil, Water and Climate
2015 Fiscal Year Funding Amount
$300,000
Fund Source

The Nitrogen Fertilizer Management Plan (NFMP) recognizes that existing best management practices (BMPs) may not adequately protect the groundwater from nitrate contamination in some geologic sensitive areas. The NFMP introduces the concept of alternative management tools (AMTs), which are advanced practices that may be required to protect groundwater or mitigate groundwater contamination.

Recipient
Tetra Tech Inc
2017 Fiscal Year Funding Amount
$109,928
Fund Source

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.

Big Stone
Blue Earth
Brown
Carver
Chippewa
Cottonwood
Dakota
Douglas
Faribault
Freeborn
Grant
Hennepin
Kandiyohi
Lac qui Parle
Le Sueur
Lincoln
Lyon
Martin
McLeod
Murray
Nicollet
Otter Tail
Pipestone
Pope
Redwood
Renville
Rice
Scott
Sibley
Stevens
Swift
Traverse
Waseca
Watonwan
Yellow Medicine
Recipient
Tetra Tech Inc
2017 Fiscal Year Funding Amount
$75,000
Fund Source

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.

Becker
Clay
Clearwater
Mahnomen
Otter Tail
Wilkin
Recipient
United States Geological Survey (USGS)
2015 Fiscal Year Funding Amount
$18,375
Fund Source

The study will assess existing phosphorus data records and create a model to explain phosphorus loading into the Red River of the North. Studies have found that the majority of nutrient loading in the stream located in agricultural areas occurs with sediment loading since nutrients are typically bound to sediment particles.

Becker
Beltrami
Big Stone
Clay
Clearwater
Grant
Kittson
Mahnomen
Marshall
Norman
Otter Tail
Pennington
Polk
Red Lake
Roseau
Stevens
Traverse
Wilkin
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$19,996
Fund Source

The goal of this project is to extend through 2016, calibrate, and validate the existing watershed model using Hydrological Simulation Program FORTRAN (HSPF) for the Pomme de Terre 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.

Big Stone
Douglas
Grant
Otter Tail
Stevens
Swift
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$49,999
Fund Source

The goal of this project is to extend, calibrate, and validate the existing Hydrological Simulation Program – FORTRAN (HSPF) watershed models in the Red Lake River, Thief River, Clearwater River and Red Lake watersheds.

Beltrami
Clearwater
Mahnomen
Marshall
Pennington
Polk
Red Lake
Recipient
MN DNR
2012 Fiscal Year Funding Amount
$100,000
2013 Fiscal Year Funding Amount
$100,000

PROJECT OVERVIEW

Lake of the Woods
Recipient
Tetra Tech Inc
2017 Fiscal Year Funding Amount
$86,582
Fund Source

The goal of this project is to complete the construction, calibration, and validation of an Hydrological Simulation Program FORTRAN (HSPF) watershed model for the Minnesota portions of three watersheds: Root River, Upper Iowa, and Mississippi River-Reno.

Fillmore
Houston
Mower
Olmsted
Winona
Recipient
Mille Lacs Soil & Water Conservation District
2013 Fiscal Year Funding Amount
$111,111
Fund Source

The purpose of the project is to collect data to represent the ambient condition of the lakes and streams of the Rum River Watershed within Mille Lacs, Isanti and Sherburne Counties that is needed to determine if thresholds set to protect designeated uses, such as aquatic recreation and aquatic life, are being met .

Aitkin
Anoka
Benton
Chisago
Crow Wing
Isanti
Kanabec
Mille Lacs
Morrison
Sherburne
Recipient
RESPEC
2018 Fiscal Year Funding Amount
$146,901
Fund Source

The goal of this work order is to make additions and enhancements to the Scenario Analysis Manager (SAM) tool best management practice (BMP) database and the methodologies used for the application of the BMPs.

Statewide
Recipient
RESPEC
2019 Fiscal Year Funding Amount
$99,990
Fund Source

This work will involve enhancing the capability of the Scenario Analysis Manager (SAM) tool to run more complex point source alternative scenarios, produce results and output in line with the recently developed Watershed Restoration and Protection Strategies (WRAPS) report standards, and general enhancements requested by users.

Statewide
Recipient
RESPEC
2019 Fiscal Year Funding Amount
$49,998
Fund Source

This work order will address the need for technical support and updates to the Scenario Analysis Manager (SAM) tool and PATH software based on training feedback. The trainings will include exercises focusing on improved and added functionality as well as the enhanced best management practice (BMP) database.

Statewide
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$44,982
Fund Source

The contractor will provide 3 Scenario Analysis Manager (SAM) training sessions in the fall of 2016 for use with Hydrological Simulation Program FORTRAN (HSPF) model applications.

Statewide
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$69,995
Fund Source

The contractor will collect and process the necessary files needed to develop a Processing Application Tool for HSPF (PATH) and Scenario Application Manager (SAM) project for 30 HUC 8 watersheds in Minnesota. SAM provides a graphical interface to the Hydrological Simulation Program FORTRAN (HSPF) model applications and expands the state’s investment in HSPF to a broader audience in support of the development of Total Maximum Daily Load (TMDL) studies and Watershed Restoration and Protection Strategy (WRAPS) reports.

Statewide
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$211,886
Fund Source

The goal of this project is to develop forestry related best management practice (BMP) pollutant reduction/management efficiencies, costs, and management information applicable to Minnesota forests and incorporate these BMPs into the Hydrological Simulation Program FORTRAN (HSPF) model Scenario Application Manager (SAM) tool. By incorporating forestry BMPs into the existing SAM tool, forestry related management scenarios can be evaluated for potential impacts on surface waters and can inform the development of watershed restoration and protection strategies.

Statewide
Recipient
RESPEC
2018 Fiscal Year Funding Amount
$99,998
Fund Source

The goal of this work order is to enhance the Scenario Analysis Manager (SAM) support tool in order to represent best management practices in a more physically based manner, improve point scenario representation and analysis, and support MPCA with training in the application of the enhanced functionality.

Statewide
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$27,136
Fund Source

The goal of this work order is to collect and process the watershed specific files needed to create the Scenario Application Manager (SAM) project files to apply the SAM software in selected major watersheds in Minnesota where an Hydrological Simulation Program – FORTRAN (HSPF) model has been developed. This work order will also involve technical support for the SAM users who are applying the SAM projects.

Statewide
Recipient
RESPEC
2018 Fiscal Year Funding Amount
$119,995
Fund Source

RESPEC will use the Processing Application Tool for HSPF (PATH) to construct the remaining 22 Scenario Application Manager (SAM) projects. SAM assists in understanding watershed conditions, and identifying priority areas and BMPs that will provide the greatest water-quality benefits for each dollar invested. The value of the tool is in its simplification of complex hydrologic and water quality model applications into transparent estimates of the significant pollutant sources in watershed.

Statewide
Recipient
RESPEC
2018 Fiscal Year Funding Amount
$99,999
Fund Source
The goal of this project is to provide three training sessions for the Scenario Analysis Manager (SAM) software and one training session for the Processing Application Tool for the Hydrologic Simulation Program FORTRAN (HSPF) model.
Statewide
Recipient
RESPEC
2017 Fiscal Year Funding Amount
$24,984
Fund Source

The goal of this project is to extend, calibrate, and validate the existing Hydrological Simulation Program FORTRAN (HSPF) model for the Snake River Watershed in the Red River Basin. 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.

Marshall
Pennington
Polk