Rush Creek SWA Implementation
Hennepin County will implement prioritized projects from the Rush Creek Subwatershed Assessment, including closing about 200 open tile intakes on the farms of 11 landowners, establishing 6 grassed waterways, two exclusion fence systems, and two contour farming conversions. These projects will significantly reduce bacteria loads upstream of Elm Creek Park Reserve where the creek serves as a learning laboratory for more the 2,500 students each year. In addion, these projects will reduce sediment by 616 tons per year and phosphorus by 478 pounds per year.
Hennepin County will implement prioritized projects from the Rush Creek Subwatershed Assessment, including closing (or replacing with alternatives) about 200 open tile intakes on the farms of 11 landowners, establishing 6 grassed waterways, two exclusion fence systems, and two contour farming conversions. These projects will significantly reduce bacteria loads upstream of Elm Creek Park Reserve where the creek serves as a learning laboratory for more the 2,500 students each year. These projects will reduce TSS by 616 tons/yr and Phosphorus by 478 lbs/yr. All landowners have already expressed a willingness to cooperate on the proposed projects if this project is funded.
Annie Felix-Gerth
(b) $6,882,000 the first year and $12,618,000 the second year are for grants to protect and restore surface water and drinking water; to keep water on the land; to protect, enhance, and restore water quality in lakes, rivers, and streams; and to protect groundwater and drinking water, including feedlot water quality and subsurface sewage treatment system projects and stream bank, stream channel, shoreline restoration, and ravine stabilization projects. The projects must use practices demonstrated to be effective, be of long-lasting public benefit, include a match, and be consistent with total maximum daily load (TMDL) implementation plans, watershed restoration and protection strategies (WRAPS), or local water management plans or their equivalents. A portion of these funds may be used to seek administrative efficiencies through shared resources by multiple local governmental units.
These projects will reduce TSS and TP an estimated 616 tons/yr and 478 lbs/yr respectively. These projects will also reduce bacteria loads and improve dissolved oxygen. Stream monitoring of these outcomes post-project will be reported.
The project included the installation of 6 waterways as well as 200 alternative tile intakes.
LOCAL LEVERAGED FUNDS