CCWMO FY25-27 WBIF Grants
This grant request combines four projects that cover multiple areas around Carver County. Below are recaps for each project.
Two ravine systems will have projects around Big Woods Lake in the City of Chaska. The first is a project to remove a pipe and naturalize a stream. This is in conjunction of the Lyman Bridge Project over a large ravine system in the City of Chaska, a 130-foot section of a stream that currently is piped would be daylighted and a more natural stream section would be constructed to help stabilize the ravine around the new bridge. The second project around Big Woods Lake is a ravine stabilization project on the east side of the lake. A feasibility study was completed last year on the design to stabilize this ravine. This project would hard armor the head cut into the ravine, reshape the channel bottom with three grade checks and slope grading.
The third project is located in Dahlgren Township along a section of Carver Creek adjacent to County Road 43 to help reduce shear stress at the toe of a 60-foot eroding bank that failed in 2012. A feasibility study was completed last year on options to stabilize this large bank failure. From this study, a project was identified that would move Carver Creek channel 50 feet south of its current location, building a floodplain at the base of the failed bank bluff to reduce the stress of flowing water at the basin of the bluff. Additional tile lines will be added to intercept ground water flow from further destabilizing the bank.
The final project is a feasibility study centered on Eagle Lake north of Norwood Young America. Eagle Lake has had high in-lake TP concentrations that are above the state standard with a large wetland complex on the south that may be contributing a large portion of soluble phosphorous. This study will be two pronged, one will study the potential for a n Alum treatment to control internal phosphorus release and the effects of managing curly leaf on internal TP loading. The second area of study will be identifying the amount of soluble phosphorus draining from the south wetland complex into the lake with potential solutions to limit the contribution to the lake.
Annie Felix-Gerth
(a) $39,500,000 the first year and $39,500,000 the second year are for grants to implement state-approved watershed-based plans. The grants may be used to implement projects or programs that protect, enhance, and restore surface PreviouswaterNext quality in lakes, rivers, and streams; protect groundwater from degradation; and protect drinking PreviouswaterNext sources. Projects must be identified in a comprehensive watershed plan developed under the One Watershed, One Plan program and seven-county metropolitan groundwater or surface PreviouswaterNext management frameworks as provided for in Minnesota Statutes, chapters 103B, 103C, 103D, and 114D. Grant recipients must identify a nonstate match and may use other legacy funds to supplement projects funded under this paragraph. This appropriation may be used for: (1) implementing state-approved plans, including within the following watershed planning areas (see Chapter 40 Article 2 Section 6(a) (2) for the list of watershed planning areas: seven-county metropolitan groundwater or surface PreviouswaterNext management frameworks; and(3) other comprehensive watershed management plan planning areas that have a board-approved and local-government-adopted plan as authorized in Minnesota Statutes, section 103B.801. The board must establish eligibility criteria and determine whether a planning area is ready to proceed and has the nonstate match committed.
Eagle Lake: One completed feasibility study
Lyman Bridge: Based upon Gordon et al (2020), estimated phosphorous reduction for this site is 1 pounds per year and 2 pounds of nitrogen.
Big Woods East Ravine: MWI estimated reduction is 8 pounds per year of TP and 19 tons of sediment per year.
Carver Creek: Conservative estimates based upon EOR historical review will be 59 pounds of phosphorous per year and 69 tons of sediment per year.
LOCAL LEVERAGED FUNDS