Pope County Ditch 6 (CD 6) is an 18 mile channelized watershed and a primary tributary to Ashley Creek. CD6 and Ashley Creek are impaired for bacteria, dissolved oxygen and aquatic organisms. This project will address the storm water runoff concerns identified within this public drainage system in conjunction with repairs scheduled for 2017-2018. Alternative intake structures to manage nutrients and other practices, such as water and sediment control basins, will be installed to retain water on the upland properties and minimize flow rate and velocity.
The project will advance the protection, restoration and enhancement goals for prairie and grassland habitat as described in the 2018 update of the MN Prairie Conservation Plan. It builds upon the highly successful model established in prior Prairie Recovery Phases and seeks to protect approximately 600 acres in fee without PILT obligations to be held by The Nature Conservancy, enhance approximately 10,000 acres of permanently protected grasslands, and restore roughly 200 acres of prairie and wetland habitat.
The project will advance the protection, restoration and enhancement goals for prairie and grassland habitat that are articulated in the 2018 update of the MN Prairie Conservation Plan. It builds upon the highly successful model established in Phases 1 - 9 and seeks to protect 300 acres in fee without PILT obligations to be held by The Nature Conservancy, enhance 14,000 acres of permanently protected grasslands, and restore 50 acres of prairie and wetland habitat.
Phase Four of the MN Prairie Recovery Program resulted in a total of 1,707 acres protected, 37,567 acres enhanced, and 440 acres restored. When combined with Phases 1-3 of the Prairie Recovery Program we have cumulatively protected 5,777 acres, enhanced 95,701 acres and restored 754 acres using Outdoor Heritage Fund dollars. We will continue to implement subsequent Phases toward meeting the conservation goals described in the MN Prairie Conservation Plan.
This program will protect 900 acres of priority prairie grassland, wetland habitat, and native remnant prairie (if available) as state wildlife management areas (WMA). In addition, acquired lands will be restored and/or enhanced to prairie and/or wetland habitat. Once complete, these WMAs will provide quality grassland/wetland habitat complexes that will benefit a myriad of game and non-game species and will provide public recreational opportunities for the citizens of Minnesota.
This project contributed to the goals of the MN Prairie Conservation Plan by protecting 698 acres of native prairie/wetland/savanna; restoring 698 acres prairie/wetland; and enhancing 18,839 acres grassland/savanna. When combined with Phases 1-4 of the Prairie Recovery Program we have cumulatively protected 6,475 acres, enhanced 114,595 acres and restored 1,452 acres using Outdoor Heritage Fund dollars. We will continue to implement subsequent Phases toward meeting the conservation goals described in the MN Prairie Conservation Plan.
The project will advance the protection, restoration and enhancement goals for prairie, grassland and wetland habitats as described in the 2018 MN Prairie Conservation Plan. It builds upon the highly successful model established via prior Prairie Recovery Phases and seeks to protect 400 acres in Fee without PILT obligations to be held by The Nature Conservancy, enhance 18,000 acres of permanently protected grasslands, and restore 100 acres of prairie and wetland habitat.
This project contributed to the goals of the MN Prairie Conservation Plan by protecting 207 acres of native prairie/wetland/savanna; restoring 353 acres of prairie/wetland; and enhancing 16,377 acres of grassland/savanna. When combined with Phases 1-8 of the Prairie Recovery Program we have cumulatively protected 7,941 acres, enhanced 171,191 acres and restored 2,389 acres using Outdoor Heritage Fund dollars. We will continue to implement subsequent Phases toward meeting the conservation goals described in the MN Prairie Conservation Plan.
This project will advance the prairie protection, restoration and enhancement goals established in the 2011 MN Prairie Conservation Plan. It builds upon the successful model established in Phases 1 - 6 and seeks to protect 200 acres in fee without PILT obligations to be held by The Nature Conservancy, protect an additional 100 acres with PILT for inclusion in the State's Wildlife Management or Scientific Natural Area systems, enhance 7,500 acres of permanently protected grasslands, and restore 100 acres of prairie habitat.
This project contributed to the goals of the MN Prairie Conservation Plan by protecting 539 acres of prairie/wetland/savanna habitat; restoring 151 acres prairie/grassland; and enhancing 24,604 acres grassland/savanna. We will continue to implement subsequent Phases toward meeting the conservation goals described in the MN Prairie Conservation Plan.
This project contributed to the goals of the MN Prairie Conservation Plan by protecting 284 acres of native prairie/wetland/savanna; restoring 102 acres prairie/wetland; and enhancing 10,045 acres grassland/savanna. When combined with Phases 1-7 of the Prairie Recovery Program we have cumulatively protected 7,734 acres, enhanced 154,814 acres and restored 2,036 acres using Outdoor Heritage Fund dollars. We will continue to implement subsequent Phases toward meeting the conservation goals described in the MN Prairie Conservation Plan.
The project will advance the protection, restoration and enhancement goals for prairie, grassland and wetland habitats as described in the 2018 MN Prairie Conservation Plan. It builds upon the highly successful model previously established in prior Prairie Recovery Phases and seeks to protect 500 acres in Fee without PILT obligations to be held by The Nature Conservancy, enhance 18,000 acres of permanently protected grasslands, and restore 200 acres of prairie and wetland habitat.
We propose to integrate Minnesota Wildflowers Information, an online tool for plant identification, with the Minnesota Biodiversity Atlas, to preserve and extend this popular ENTRF-supported resource for future use.
This project helps Minnesota entities that directly or indirectly cause PFAS and microplastics contamination stop the flow of the contaminants by developing strategies to manage solid waste streams.
To hire a qualified historical architect and engineer to prepare an assessment of the foundation of Terrace Mill, listed in the National Register of Historic Places
Collaboration between African and Asian American artists to jointly create/present a new dance drama - Resonance.
Project Resonance orchestrates new creations of music and dances to serve as a communication bridge across cultural/racial lines, to mitigate racial tensions between African and Asian communities, to illustrate the cross-cultural experience, and eventually promote Intercultural Harmony.
Resonance inspires inner/outer connections to create sustainable impacts.
Protect and restore 590 acres of significant wildlife habitat through conservation easements and restoration projects on private lands within Important Bird Areas with an emphasis on those located in within priority areas identified in the Minnesota Prairie Conservation Plan.
Lake Minnewaska, a highly used recreational lake, is the largest body of water in Pope County. While scientific studies show that the transparency in Lake Minnewaska has been increasing over the last 30 years, there are numerous ravines on the south shore of Lake Minnewaska that could threaten this trend. The erosion in these ravines is causing large amounts of sediment and phosphorus to be dumped directly into Lake Minnewaska. After a storm in 2011, many trees vegetating the ravines were blown down, ripping out the roots and further exposing the soil along these ravines.
We will characterize environmental drivers contributing to the decline of wild rice using lake sediment cores to reconstruct historical wild rice abundance in relation to lake and watershed stressors.
The purpose of this project is to improve understanding of primary productivity in the Red River and the diversity and population structure of the algal communities occurring along the river system. This will be accomplished through taxonomic identification of periphyton and phytoplankton assemblages necessary for characterizing responses to nutrient gradients along the Red River of the North.
