Rock River Watershed Targeting Tools
The Rock River Watershed encompasses runoff from the four counties of Rock, Pipestone, Murray and Nobles. The Rock River Watershed, along with the adjacent Elm Creek are listed as impaired by turbidity and fecal coliform. With limited funds available for restoration projects, targeting tools to pinpoint locations where projects stand to have the highest effectiveness are increasingly important.
This project utilizes LiDAR topographic data to determine areas of high importance for project implementation within the 570 square-mile watershed. Using sophisticated Geographic Information System analysis techniques on LiDAR data, along with available soils and land-use data, the project will assess the susceptibility of erosion and determine ideal locations to store runoff on the landscape. By assessing the ability to store water along with the erosive potential of the landscape, project implementation locations can be determined that have multiple benefits for both water quality and water quantity. This will be Phase I of a focused approach to address the areas of the watershed .
Please reference following link: http://www.bwsr.state.mn.us/aboutbwsr/boarddirectory.pdf
Wayne Zellmer -BWSR Grants Coordinator; Matt Drewitz -BWSR South Region Clean Water Specialist; Jeff Hrubes -BWSR North Region Clean Water Specialist; Marcey Westrick -BWSR Metro Clean Water Specialist; Art Persons -MDH Planning Supervisor Drinking Water Protection; Terry Bovee -MDH Principal Planner Drinking Water Protection; Julie Westerlund -DNR Clean Water Coordinator; Dave Friedl -DNR Northern Region Clean Water Specialist; Joshua Stamper -MDA Research Scientist, Pesticide & Fertilizer Management; Dwight Wilcox -MDA Ag BMP Program Planner; Anna Kerr -MPCA -Stormwater / TMDL Coordinator;-DNR Central Region Clean Water Legacy Specialist; Karen Evens - MPCA -Watershed Projects Manager;
Nicole Clapp
Laws of Minnesota 2011, 1st Special Session, Chapter 6, Section 7, and Laws of Minnesota 2012, Chapter 264, Section 7
1. Create a LiDAR dataset that can be used to develop accurate hydrologic characteristics of the watershed. 2. Determine Non-Contributing areas 3. Assess existing watershed conditions and identify critical source areas using Stream Power Index, the Compound Topographic Index, and RUSLE2 4. Incorporate results into the each county's current web-based map viewers.
The source of additional funds varies from project to project, but generally consists of federal, local and non-public sources.