Marsh Lake Phase II

Marsh Lake is an impoundment of the Minnesota River in west-central Minnesota near Appleton. Marsh Lake was created in the late 1930s by construction of a dam which resulted in a shallow lake that measured approximately 5,000 acres. The lower Pomme de Terre River was rerouted into the reservoir at that time to facilitate construction of a two mile long earthen dike that was required to impound the lake. The Marsh Lake Dam is owned and maintained by the U.S. Army Corps of Engineers as part of the Lac qui Parle Flood Risk Management project. Marsh Lake lies within the State of Minnesota Department of Natural Resources Lac qui Parle Wildlife Management Area.Marsh Lake is the border between Big Stone and Lac qui Parle Counties, while most of the outlet area of Marsh Lake is located in Swift County. The original construction of the Marsh Lake Dam was intended to serve as a flood damage reduction measure and to provide a recreational feature to the region by creating a static pool on the river. The intended flood damage reduction benefits provided by the Marsh Lake Dam were minor due to effectiveness of the downstream Lac qui Parle Dam. Since the time of impoundment, Marsh Lake has undergone significant degradation of aquatic habitat due to stressors including high sediment and nutrient loading, a fixed crest dam that prevents low seasonal water levels, high turbidity from wind-driven sediment resuspension, and abundant common carp that increase turbidity and consume submersed aquatic vegetation and macroinvertebrates. Degradation of the Marsh Lake aquatic ecosystem limited habitat suitability for many species of fish and wildlife. The overall habitat conditions were poor with turbid water conditions.

Concerns by stakeholders over the habitat conditions eventually resulted in the Marsh Lake Ecosystem Restoration Project with a primary goal of improving fish and wildlife habitat by returning the Marsh Lake to a less degraded and more natural condition with snatural functions and processes. 
Major project features include construction of a drawdown water control structure, restoring the Pomme de Terre River to its original channel, modifying the existing low-head dam into a notched weir/rock arch rapids fishway, and construction of one mile of new roadway/earthen dike. The project also restores 1.3 miles of natural stream habitat and provides complete fish passage from the Minnesota River into Marsh Lake. 
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The goal of the components listed above is to partially or fully reestablish the attributes of a naturally functioning and self-regulating system. The expected outcomes of the Marsh Lake project are to: (1) reduce sediment loading to Marsh Lake; (2) restore natural fluctuations to the hydrologic regime of Marsh Lake; (3) restore geomorphic and floodplain processes to the Pomme de Terre River; (4) reduce sediment resuspension within Marsh Lake; (5) increase extent, diversity, and abundance of emergent and submersed aquatic plant growth in Marsh Lake; (6) increase the availability of waterfowl and native fish habitat; (7) restore aquatic habitat connectivity between Marsh Lake, the Pomme de Terre River, and Lac qui Parle Lake; (8) reduce the abundance of aquatic invasive fish species in Marsh Lake; and (9) increase diversity and abundance of native fishes within Marsh Lake and the Pomme de Terre River. This project is designed to restore a more natural and variable hydrologic regime which is important to restoring freshwater aquatic ecosystems within Marsh Lake. On a river floodplain lake like Marsh Lake, a more natural hydrologic regime includes lower lake levels in some years to provide conditions conducive for aquatic vegetation to establish. In the event the goals in the Marsh Lake Ecosystem Restoration Plan are not achieved through the passive water control structure (i.e., fishway), a water level drawdown structure has been incorporated into the project where water levels could be drawn down according to recommendations and implementation by the adaptive management team. Annual and intra-annual variations in water levels are extremely important to maintain ecosystem functions in these shallow water systems. In other areas, (e.g., the pools in the Upper Mississippi River), variability in water levels has resulted in increased extent, diversity, and abundance of aquatic vegetation, increased food for waterfowl, and improved water quality conditions. The DNR Section of Wildlife has completed other projects to enhance habitat and water quality conditions within shallow lake systems through active water level drawdowns. A clear water system with more aquatic plants would favor native fishes over the non-native Common carp, as well as favor many other native plant and wildlife species. The proposed project will provide habitat improvement and improve water quality conditions in Marsh Lake. This restoration of ecosystem functions would improve fish and wildlife habitat, water quality, and provide more public use opportunities. Specific beneficiaries include sport anglers, waterfowl hunters, wildlife viewers, and downstream users who benefit from increased water quality downstream through the Minnesota River. 

Water quality benefits will result from the completed work and from the future management that is now possible. Rerouting of the Pomme de Terre into a meandering channel with adjacent floodplain habitat can provide some limited ability for sediment reduction as it flows into the Minnesota River. Significant water quality benefits will result from the current ongoing drawdown of Marsh Lake, along with any future drawdowns. Past experience with drawdowns of shallow lakes shows that the bottom-sediment consolidation and increased submergent vegetation provide significant water quality benefits both in the shallow lake and in downstream waters. . 

Note that the "Performance Monitoring and Adaptive Management Plan" is attached to this Final Report and details the extensive monitoring that will be conducted on this project to determine progress towards goals.

The Minnesota Department of Natural Resources will be responsible for all active water level management, with consultation provided by an Adaptive Management Team that will include members from the Minnesota DNR, US Army Corps of Engineers, US Fish and Wildlife Service and Upper Minnesota River Watershed District. A Citizen Advisory Committee has also been formed to help guide future operations and to provide better communication.