All Projects

Showing 1 - 22 of 22 | Export projects
Recipient
Minnesota Department of Agriclture and MN.IT Services
2015 Fiscal Year Funding Amount
$82,400
Fund Source

The Application Risk Advisory System is web‑based and provides alerts when conditions are favorable for nutrient loss to water, based on soil conditions and National Weather Service forecast models. This system enables farmers and commercial applicators to avoid applications of fertilizer and manure during conditions when the potential for loss to surface water is high.

Recipient
LimnoTech
2015 Fiscal Year Funding Amount
$154,020
2016 Fiscal Year Funding Amount
$6,915
Fund Source

The goal of this project is to apply the Hydrological Simulation Program FORTRAN (HSPF) model to evaluate scenarios to support potential management actions and implementation in the watershed, construct Total Maximum Daily Load (TMDL) studies, and to develop a conceptual site model of the lakes for understanding phosphorus release.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$125,000
Fund Source

The goal of this project is to construct, calibrate, and validate a Hydrological Simulation Program FORTRAN (HSPF) model for Minnesota portions of the Des Moines River watershed.

2014 Fiscal Year Funding Amount
$1,808,000
Fund Source

Minnesota’s use of groundwater has increased over the last two decades. An increasing reliance on groundwater may not be a sustainable path for continued economic growth and development. The DNR is establishing three pilot groundwater management areas (GWMA) to help improve groundwater appropriation decisions and help groundwater users better understand and plan for future groundwater needs associated with economic development.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$115,000
Fund Source
The goal of this project is to construct, calibrate, and validate two Hydrologic Simulation Program FORTRAN (HSPF) watershed models: Lake Superior North and Lake Superior -South. The contractor will produce HSPF models that can readily be used to provide information to support conventional parameter Total Maximum Daily Loads (TMDLs). The contractor will clearly demonstrate that these models generate predicted output timeseries for hydrology, sediment, nutrients, and dissolved oxygen which are consistent with available sets of observed data.
Recipient
Houston Engineering
2015 Fiscal Year Funding Amount
$156,937
Fund Source

The goal of this project is to construct, calibrate, and validate two (2) watershed models using Hydrologic Simulation Program FORTRAN (HSPF).

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$110,000
Fund Source

Construct, calibrate and validate 3 Hydrologic Simulation Program FORTRAN (HSPF) watershed models for the St Louis, Cloquet, and Nemadji River Watersheds.

Recipient
AQUA TERRA Consultants
2015 Fiscal Year Funding Amount
$199,999
Fund Source
Construct, calibrate, and validate three Hydrologic Simulation Program FORTRAN (HSPF) watershed models that can readily be used to provide information to support conventional parameter Total Maximum Daily Loads (TMDLs).
Recipient
AQUA TERRA Consultants
2015 Fiscal Year Funding Amount
$5,140
Fund Source

This project will finalize the guidance document to ensture consistency and validity of future Hydrological Simulation Program FORTRAN (HSPF) model applications within the State of MN. This improved guidance will help to ensure consistency and validity of future HSPF model applications within the State as part of the One Water Program.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$155,000
Fund Source

The goal of this project is to continue and finalize Hydrological Simulation Program FORTRAN (HSPF) watershed model construction and complete the calibration/validation process for the Minnesota River–Headwaters and Lac qui Parle watersheds that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDL) reports.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$100,000
Fund Source

The goal of this project is to continue and finalize Hydrological Simulation Program FORTRAN (HSPF) watershed model construction and complete the calibration/validation process. The consultants will produce HSPF watershed model applications for the Lake Superior North and Lake Superior South watersheds that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDL) projects.

Recipient
RESPEC
2015 Fiscal Year Funding Amount
$132,210
Fund Source

The goal of this work is to enhance the Scenario Analysis Manager (SAM) tool. These enhancements will enable point source and stressor identification staff within the state to quickly access data, facilitate their research, and develop scenarios. This work will focus on the development of SAM by creating a user friendly interface, expanding the BMP database, and improving the BMP simulation methodology including optimization functionality. Additionally, this work includes development of a HSPF validation tool, testing and QAQC, and provides documentation and training to expected users.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$100,000
Fund Source

The Minnesota River Basin Hydrological Simulation Program FORTRAN (HSPF) models, which simulate flow and pollutant transport, need to be refined to be consistent with the most recent external sources of land use, hydrologic response, and surface flow attributions. The primary goal of this work is to refine the hydrologic calibration in the Minnesota River basin.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$99,998
Fund Source

The Minnesota River Basin Hydrological Simulation Program FORTRAN (HSPF) models simulate sediment erosion and transport, however these models periodically need to be adjusted to be consistent with the most recent sources of information regarding sediment distribution and loading rates. The goal of this project is to refine the sediment source partitioning and simulation in the Minnesota River basin using all relevant available sources of information.

Recipient
Wenck Associates, Inc.
2015 Fiscal Year Funding Amount
$21,434
Fund Source

The overall goal is to develop a Watershed Restoration and Protection Strategy (WRAPS) report and Total Maximum Daily Load (TMDL) study that will address water quality stream impairments and maintain or improve water quality of streams throughout the Pioneer Sarah Creek watershed, which is part of the North and South Fork Crow major watersheds. The study will identify sources of pollutants to the streams and develop restoration and protection strategies for the streams in the Pioneer-Sarah Creek watershed.

Recipient
Pioneer-Sarah Watershed Management Commission
2015 Fiscal Year Funding Amount
$59,720
Fund Source

The overall goal is to develop a Watershed Restoration and Protection Strategies (WRAPS) report and Total Maximum Daily Load (TMDL) study that will address water quality lake impairments and maintain or improve water quality of lakes throughout the Pioneer Sarah Creek watershed, which is part of the North and South Fork Crow major watersheds. The study will identify sources of pollutants to the lakes and develop restoration and protection strategies for the lakes in the Pioneer-Sarah Creek watershed.

Recipient
Metropolitan Council/Barr Engineering Company
2015 Fiscal Year Funding Amount
$47,487
2016 Fiscal Year Funding Amount
$1,905
Fund Source

As the Metropolitan Council updated the Twin Cities Metropolitan Area Master Water Supply Plan, stakeholders asked the Council to consider the sustainable limits of the region’s water sources. The Council’s most important analytical tool is a regional groundwater flow model (Metro Model 3), which can be used to quantify the long-term regional impacts caused by hundreds of independent groundwater appropriations.

Recipient
RESPEC
2015 Fiscal Year Funding Amount
$99,999
Fund Source

The goal of this project is to construct, calibrate and validate a watershed model using Hydologic Simulation Program FORTRAN (HSPF) for the Roseau River Watershed.

Recipient
RESPEC
2015 Fiscal Year Funding Amount
$9,996
Fund Source

The goal of this project is to leverage the existing Hydrological Simulation Program FORTRAN (HSPF) model application that has been calibrated and validated for the Shell Rock River Watershed to assist with wastewater permitting. The contractor will deliver all modeling files and a final technical memorandum outlining the scenarios developed, how the scenarios are represented in the model, and the impact these scenarios have on water quality at specified locations for parameters of concern as described below.

Recipient
RESPEC
2015 Fiscal Year Funding Amount
$100,000
Fund Source
Continue and finalize watershed models using Hydrologic Simulation Program FORTRAN (HSPF) for the Grand Marais Creek and Snake River Watersheds and complete the calibration/validation process.
Recipient
Metropolitan Council/Barr Engineering Company
2012 Fiscal Year Funding Amount
$20,789
2013 Fiscal Year Funding Amount
$135,416
2014 Fiscal Year Funding Amount
$66,495
2015 Fiscal Year Funding Amount
$5,662
Fund Source

State law charges the Metropolitan Council (Council) with developing and maintaining a base of technical information needed for sound water supply decisions (Minnesota Statutes 473.1565). The Council’s primary tool to provide this information is the Metro Model 2, a regional groundwater model capable of predicting the impacts of planned water demand on aquifers and connected lakes and streams. The Metro Model 2 is a modern and comprehensive groundwater model of the Twin Cities area, but it is currently out-of-date.

Recipient
Tetra Tech
2015 Fiscal Year Funding Amount
$31,750
Fund Source

The goal of this project is to construct two executable Hydrologic Simulation Program FORTRAN (HSPF) watershed models for the Minnesota River Headwaters and Lac qui Parle watersheds. The contractor will use the Minnesota River HSPF model application already developed by Tetra Tech as a starting point and will refine the model construction based on the details in this work plan. The contractor will produce HSPF models that, after calibration and validation, will readily be used to provide information to support conventional parameter Total Maximum Daily Loads (TMDLs).