Establish a statewide network to collect, analyze, and archive salvaged dead wildlife and build a foundation of biodiversity resources to track ecosystem-wide changes, monitor environmental health, and promote public education.
The objective of this sampling plan is to quantify the inputs and outputs of methyl-mercury in the St. Louis River. Mercury can be bound to organic carbon or suspended solids; therefore, it is necessary to determine loadings of them as well. To get loadings, this sampling plan includes event and base flow monitoring at key tributaries to the St. Louis River and at stations within the St. Louis River.
Continued implementation of the Lower Landing Master Plan with a focus on construction of a pump track. Project may include design, community engagement, engineering, construction administration, excavation, grading, paving, stormwater management, erosion control, site amenities, and landscaping.
Pre-design, design, and engineering for the reconstruction of Segments 1 and 4 of the regional trail. Project may include community engagement, assessing feasibility, and engineering and testing.
The Sand Hill watershed is a priority area because of soil loss associated with steep slopes common in the area. Portions of the Sand Hill River have been listed as impaired due to turbidity. Water quality is also a concern for fish habitat in the lower reaches of the Sand Hill River. This project is a continuation of 2011 Clean Water Fund project to implement erosion control/sediment reduction practices in the Upper Sand Hill River Watershed.
This goal of this project is improving water quality and expanding critical wildlife habitat by permanently restoring and enhancing wetlands in the Sand Creek and Prior/Spring Lake Watersheds. By making sign-up payments available through this grant, this project will restore or enhance 400 to 500 acres of wetlands moderating flows and improving water quality. The NRCS has committed $2.5 million through the Wetland Reserve Enhancement Program (WREP), the Scott WMO $314,000, the PLSLWD $145,000, Rice SWCD $40,000, Le Sueur SWCD $40,000, and the Scott SWCD $75,000.
The Sand Hill River Watershed District along with the West Polk Soil and Water Conservation District (SWCD) will install 18 rock riffles and 2 rock arch rapids to control the grade and stabilize the channelized reach of the Sand Hill River, which contributes thousands of tons of sediment downstream. The entire Sand Hill River is currently impaired for turbidity. The total project length is five miles of channel located between the cities of Fertile and Beltrami in western Polk County.
The East Polk Soil and Water Conservation District (SWCD) identified the Sand Hill Watershed as a priority area because of soil loss associated with steep slopes common in the area. The SWCD is working cooperatively with the Sand Hill Watershed District to keep soil from eroding, and to capture it where it does erode. The SWCD provides technical design services and receives funding from the Sand Hill Watershed District to install conservation practice such as sediment basins.
This project restored fish passage from the Red River to 50 miles of quality upstream Lake Sturgeon and Walleye habitats in the Sand Hill River by modifying four structures and modifying the Sand Hill Lake Dam which currently block access. It also enhanced in stream habitat on the SH River.
Phase 2 of this project will complete fish passage restoration from the Red River to 47 miles of quality upstream habitat in the Sand Hill River watershed and enhance stream habitat in a degraded segment of the Sand Hill River.
Sandhill cranes have expanded their range in Minnesota and elsewhere and as populations have expanded several states, including Minnesota, have initiated sandhill crane hunting seasons and other states are considering doing the same. Partially this is in response to increasing complaints of crop degradation by sandhill cranes.
To hire qualified professionals to complete plans and prep for the Sandstone Public School Building, listed in the National Register of Historic Places.
The Somali community in Rochester, MN, is one of the most connected cultural groups in the region.
Our project hopes to untangle the rich culture that is often hidden from the public sphere in Rochester,
Unity begins with knowing your neighbors. MN. Through the Humanities Center's Cultural Grant, we will
implement a program to inform and teach our fellow neighbors about the Somali culture. Our platform will be based on speakers, multimedia, tv
programming, and print.
This project will extend and update the lake water clarity database of Landsat-estimated lake clarity. Outcomes include enhance capability, ease of use and effectiveness of the Lake Browser and database and add to the Lake Browser.
The project goal is to conduct water chemistry monitoring at one subwatershed site, one basin site, and one major watershed site in 2016 and 2017 based on flow conditions, targeting runoff events using protocols defined in the Watershed Pollutant Load Monitoring Network (WPLMN) Standard Operating Procedures and Guidance. The data collected will be submitted to the Minnesota Pollution Control Agency (MPCA) and used in the FLUX32 model for calculating pollutant loads.
This project will focus on monitoring & assessment, stressor ID assistance, problem investigation, watershed prioritization and targeting, Total Maximum Daily Load (TMDL) report development, Watershed Restoration and Protection Strategy (WRAPS) report updates and continuing civic engagement for the Sauk River Watershed.
The goal of this project is to compile the observed flow and water quality data and update the Sauk River Watershed HSPF model calibration through 2019. The Sauk River Watershed HSPF model simulates hydrology, sediment (sand, silt, and clay), temperature, phosphorus, nitrogen, dissolved oxygen, biochemical oxygen demand, and chlorophyll a.
This program will permanently protect, restore and enhance critical habitat within the Sauk River Watershed, which has experienced considerable habitat loss and is at high risk for more land conversion. Using conservation easements and fee land acquisition, we will protect approximately 660 acres of priority habitat in Minnesota's Prairie and Forest-Prairie Transition Area. We will restore/enhance approximately 224 acres of wetlands and accompanying uplands to create habitat for waterfowl and populations of Species in Greatest Conservation Need (SGCN).
The Sauk River and its seven reservoir lakes are impaired for turbidity, e.coli and excessive nutrients. Local studies conducted on Sauk Lake, the Sauk River Chain of Lakes and the lower reach of the Sauk River identified urban stormwater runoff as a source of sediment and nutrient loading. This project will address stormwater runoff concerns within the communities of Sauk Centre, Cold Spring and St. Cloud by providing treatment through bioretention and infiltration.
There are fifty-seven impaired water bodies in the Sauk River watershed. The goal of this project is to provide the necessary tools for the Sauk River Watershed District (SRWD) and local agencies to work together to target priority areas, install the necessary water quality restoration projects, and track what has been completed to achieve reduction goals for each impaired waterbody. First, technology will be utilized to determine where high priority runoff areas are within the Sauk River watershed. Advanced sub-watershed modeling will be refined to a smaller scale.
The Sauk River's CWMP identifies altered hydrology and excessive sediment & nutrients as the top priority resource concerns to be addressed. Goals for each priority resource concern are found on pages 4-6 and 4-21 of the CWMP. To achieve these goals, The CWMP contains multiple prioritization schemes, on both a watershed-wide and watershed management unit basis, to achieve these goals - refer to pages 4-8 through 4-11 and 4-22 through 4-31 of the CWMP.
This project will permanently protect, restore and enhance critical habitat within the Sauk River Watershed, which has experienced considerable habitat loss and is at high risk for more land use conversion. Using conservation easements and fee land acquisition, we will protect 750 acres of high priority habitat in Minnesota's Prairie and Forest-Prairie Transition Area and will restore/enhance approximately 66 acres of wetlands and accompanying uplands to create vital habitat for important waterfowl and Species of Greatest Conservation Need (SGCN) populations.
The Sauk River Watershed District (SRWD) shall conduct water quality sampling for the Sauk River and tributary sites, as well as several lakes, for Cycle 2 of the Intensive Watershed Monitoring (IWM) during 2018 and 2019. Field monitoring will be completed at 14 stream locations and 9 lakes designated by the Minnesota Pollution Control Agency.
Data management will also be completed by the SRWD, including entering and submitting all data to Canvas and compiling all photos, calibration logs and other documents as requested.
This project consists of habitat restoration, water quality and fish passage improvements through the removal of the existing fixed elevation dam, construction of rock arch rapids and in-stream habitat restoration.
This work order will extend all of the timeseries in the Sauk River Watershed Hydrological Simulation Program FORTRAN (HSPF) model through 2019. The Sauk River Watershed HSPF model simulates hydrology, sediment (sand, silt, and clay), temperature, phosphorus, nitrogen, dissolved oxygen, biochemical oxygen demand, and chlorophyll a.
This project will complete an assessment of watershed lakes and streams. The assessment will include biological and stressor id analysis, which will support a summary report on lake conditions and protection strategies for lakes included in this watershed study.
The Sauk River Stormwater Runoff Reduction and Riparian Restoration Project is a watershed-wide effort to reduce the amount of nutrients delivered by stormwater and bank erosion to area surface waters. Funds will be used to assist local schools and municipalities with their restoration project design, installation, and financing.
Acquire approximately 44 acres along the Sauk River for a regional park to provide nature-based outdoor recreation including nature trails, canoe access, snow shoeing, and cross country skiing.
The Sauk River Chain of Lakes Community Partners Area has many lakes that are not meeting state water quality standards or are in jeopardy of not meeting standards and are in desperate need of runoff reduction strategies. The Stearns County Soil and Water Conservation District is eager to work with willing sponsors within the project area to educate, inform and expand the conservation culture to assist in siting and implementing water quality projects on the landscape.
