This project is located in an area in the City of Isanti that developed before modern-day stormwater treatment requirements. It will result in the installation of a new stormwater pond in a historic core neighborhood. The urbanized drainage area presently has no other stormwater treatment, except for street sweeping. The new stormwater pond will reduce discharges from a 55 acre site draining to the State Scenic and Recreational Rum River by 12 pounds/yr for phosphorus and approximately 3 tons/yr of sediment.
Capitol Region Watershed District will partner with local organizations and private landowners to implement a variety of cost-effective Best Management Practices in the East Kittsondale subwatershed. The urbanized condition of the 1,860 acre subwatershed results in an estimated 1,500 pounds of phosphorus, over 470,000 pounds of sediment, and significant concentrations of bacteria associated with that sediment being sent untreated to the Mississippi River each year. Those pollutants have contributed to several impairments within the river.
In partnership with Metro Blooms, the Mississippi Watershed Management Organization (MWMO) will implement stormwater Best Management Practices (BMPs) at a minimum of six properties along commercial nodes targeted for re-investment by the City of Minneapolis' Business District Support program.
This project will result in updates to existing information and incorporation of new information into the Minnesota Stormwater Manual. The information is used by stormwater practitioners to implement the most effective and cost-efficient practices for managing stormwater runoff volume and pollutants, in addition to meeting regulatory requirement associated with stormwater permits.
This project will result in updates to existing information and incorporation of new information on active construction site erosion prevention and sediment control into the Minnesota Stormwater Manual. The information is used by stormwater practitioners to implement the most effective and cost-efficient practices for managing stormwater runoff volume and pollutants, and to meet regulatory requirements associated with stormwater permits.
This project will result in updates to existing information and incorporate new information into the Minnesota Stormwater Manual. The information is used by stormwater practitioners to implement the most effective and cost-efficient practices for managing stormwater runoff volume and pollutants, and to meet regulatory requirement associated with stormwater permits.
The Minnesota Department of Natural Resources (DNR) and Minnesota Pollution Control Agency (MPCA) each collect similar information on streams in Minnesota such as water quality, fish species presence, or the quality of fish habitat. For example, the DNR might sample stream fish to assess whether the agency’s management activities such as fishing regulations or stocking are creating good angling opportunities for the public, while MPCA might sample fish to assess whether a stream meets regulatory standards for a healthy fish community.
This project will generate water quality data for 10 stream locations MPCA designated for their 2012 and 2013 open-water sampling seasons (8 by NRRI-UMD and 2 via subcontract to the North St. Louis SWCD). The overall project goal is to collect event-based physical and chemical data sets for 10 agency-prioritized stream sampling sites in NE Minnesota for calculating pollutant loads and for incorporation into the overall State database for MPCA assessment purposes.
Stream flow information is essential for understanding the state of Minnesota's waters. Clean water funding has allowed the DNR to expand a network of stream gages that support planning and implementation for clean water protection and restoration. These gages are also used as part of the interagency Flood Forecasting/Warning System. This expanded stream gaging network has also significantly increased the real time data available to recreational water enthusiasts via the internet.
Erosion from streambanks and fields along the Clearwater River add sediment, nutrients and organic material to this important tributary of the Red River of the North. Turbidity impairments caused by those sediments contribute to several environmental and economic problems including interfering with spawning habitat critical to Lake Sturgeon recovery in the Red River Watershed and increasing drinking water treatment costs for the city of East Grand Forks.
This project will provide information and tools for a method to credit street sweeping that can be implemented by Municipal Separate Storm Sewer (MS4) permittees to help meet permit requirements for phosphorus and total suspended solids (TSS). The contractor will develop and submit a communication-outreach plan for the credit method.
Stubbs Bay on Lake Minnetonka is impaired for excess nutrients due to phosphorus loading. This impairment results in nuisance algae blooms that limit the recreational use of this water body. As a part of its surface water management planning process, the City of Orono has identified projects to help improve the water quality of Stubbs Bay and Lake Minnetonka. The Stubbs Bay Ravine Stabilization project is one of the projects scheduled for completion in 2011.
Grants to counties to implement SSTS programs including inventories, enforcement, development of databases, and systems to insure SSTS maintenance and of reporting program results to BWSR and MPCA and base grants.
Pell Creek is a tributary to the Cottonwood River, one of the thirteen major watersheds in the Minnesota River Basin and the largest watershed in Redwood County. The dominant land use is agricultural, chiefly row-crops with some livestock production. The vast majority of the wetlands have been drained through a highly intricate and efficient system of tiling and ditching.
The Ramsey Conservation District is partnering with the Vadnais Lake Area Water Management Organization, St. Paul Regional Water Service, and Ramsey County Parks and Recreation to restore and stabilize approximately 550 linear feet of streambank along the Sucker Lake Channel in northeastern Ramsey County with a cost effective critical area planting, replacing the existing mix of turf grass and asphalt streambank with a native vegetation planting.
The project will work with county and Waseca Soil and Water Conservation District staff to increase knowledge and participation in the Watershed Approach efforts and provide input to the Watershed Restoration and Protection Strategies (WRAPS) document.
The Le Sueur Watershed Technician will provide highly focused targeting of conservation programs and practices in this key watershed. The technician will enhance current staff capabilities in the Le Sueur watershed by collecting landowner contact information, producing landowner mailings about funding opportunities, and meeting one-on-one with landowners to discuss conservation concerns they may have. This has been a highly successful method for targeting projects, project identification, landowner contact, and project follow through.
The Le Sueur Soil and Water Conservation District (SWCD), who acts as County Ditch Inspectors, will partner with the Le Sueur County GIS Coordinator to accomplish the inventory and inspection of drainage ditches. A database will be established for all 250 miles of Le Sueur County Drainage Authority ditches. The inventory will be conducted using Lidar, 2010 and 2013 Pictometry and onsite technical review. Sites that have potential water quality issues will be identified from worst to most stable for side inlets, buffers and retention storage.
This project will complete a Acetochlor Impairment Response Report. This report will combine and coordinate information relating to actions being done in direct response to the acetochlor water quality impairments with those being done and support MDA’s on-going responsibility to assure pesticides are used in a manner that does not cause unreasonable adverse effects on the environment.
This project will provide additional monitoring data to be utilized in the watershed assessment process for the Le Sueur River Watershed Project. Monitoring will take place for an additional year at two sites along the Maple River.
This project will identify priority management zones (PMZ), for the purposes of water quality restoration and protection, within the LeSueur River major watershed. This project is only one component of a larger effort in the LeSueur watershed to complete Total Maximum Daily Load (TMDL) studies while engaging citizens and landowners in land management planning.
The Lower Minnesota River Watershed is on schedule for monitoring in 2014 and 2015. The requested sample sites that are listed in the RFP for Le Sueur County are Le Sueur Creek, Forest Prairie, a joint drainage tributary in the NW part of the county and Lake Sanborn. The project goal is to obtain useful water quality data in the Lower Minnesota River Watershed. Project objectives are: 1. Complete project planning by April 15 2014. 2.
The Le Sueur Soil and Water Conservation District is sampling lakes and streams in the Middle Minnesota (Mankato) River Watershed. This sampling will track changes from 2013 results, fill in gaps, delist or monitor for new impairments, and gather data for permitting. The sites that will be sampled were selected by the Minnesota Pollution Control Agency (MPCA) and local staff. Lakes will be sampled for chemistry and streams will be sampled for chemistry and bacteria.
The Sunrise Watershed is a high priority subwatershed of the St. Croix River. Chisago County, the United States Army Corps of Engineers (ACOE), the MPCA and several additional cooperators will complete a study of the Sunrise River Watershed. The goal of the study is to develop a watershed-based plan and strategies for water quality and aquatic ecosystem management, restoration and protection. Once completed, the study will provide input to the development of the TMDL and Watershed Restoration and Protection Plan for the Sunrise Watershed.
This project will achieve pollutant reductions within a chain of lakes with a hard-won trend of improving water quality. We will install shoreline stabilization projects with near-shore native plant buffers and in-lake aquatic plantings. We will stabilize at least 300 linear feet of shoreline resulting in at least 4 lbs/yr of phosphorus and 2.4 tons/yr of sediment reduction. This project is small budget and modest scale, but a critical finish-line kick to reach goals after many other larger projects that have nearly achieved goals.
This project will apply the Sunrise River watershed computer model generated under previous projects to selected scenarios of land-cover and land-management changes. The watershed model calibrated to conditions in the late 1990s will form the initial baseline against which all other model runs will be contrasted. Scenarios to be run will include changes in future land cover, agricultural practices, urban practices, and natural resource management.
This project will provide complementary (same year) physical and chemical data sets for three MPCA prioritized lakes in NE Minnesota to incorporate into the overall State database for MPCA assessment purposes as well as research purposes.
This project will develop a surficial geology shapefile (map) for part of the State of Minnesota, by modifying and joining smaller existing, but separate, surficial geology maps. The resulting internally consistent geographic information system (GIS) layer will be used to support the hydrologic parameterization of Minnesota Pollution Control Agency (MPCA) watershed models.
The Upper Minnesota River Water Quality Assessment Project will complete water chemistry assessments of the upper reaches of the Minnesota River Headwaters, which includes the main stem of the river, five main tributaries (Meadowbrook Creek, Salmonsen Creek, Fish Creek, Hoss Creek, Little Minnesota River and Stoney Run Creek), and one flowage lake (Long Tom).
This project will complete the dataset required for assessment of Aquatic Recreation Use at 8 stream sites and 11 lake sites in the Sand Hill Watershed.
The Pine County SWCD project will collect complete sets of water quality data for the Kettle River and some of its tributaries and also collect complete sets of water quality data for six area lakes (Oak, Dago, Rhine, Elbow, Rock, and Lake Eleven).
