EBTJV

Relocation of an Unnamed Sea-Run Brook Trout Stream, Maine: This project seeks to reconnect the freshwater-estuarine interface on a historic sea-run brook trout stream. At some point in the past, the stream channel was diverted from its natural channel to its present location. The presence of a low-head dam and two marginally passable culverts have blocked connectivity to the marine environment for several decades. A partially degraded stream channel will be relocated back to its original position and rehabilitated to its historic function to allow brook trout to access both freshwater and marine environments. Once complete, the project will provide access to approximately 1 mile of stream habitat and an undetermined amount of marine habitat.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
Habitat Enhancement Project for Brook Trout in the Asaph Run Watershed, Pennsylvania: The Asaph Run watershed has a high recreational use potential and is a popular stream with wild trout anglers. The project is located entirely on state forest land, open to free, year-round public use. The watershed has excellent public access via a state forest road that parallels much of the stream. However, the close proximity of the road to the stream has also resulted in problems including stream bank erosion and habitat degradation. Degraded brook trout habitat will be rehabilitated throughout a 3 mile stream reach. The project will be a significant long-term benefit to the watershed through enhancement of adult brook trout habitat and stabilization of the stream banks.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
Brook Trout Restoration on the Chattahoochee National Forest, Tennessee: Located in Projects / 2006 - 2018 Projects / 2008 Projects
Brook Trout Habitat Improvements to McIntosh Brook, Allegany State Park, New York: Allegheny State Park contains the most intact and widespread distribution of wild brook trout streams in western New York. Brook trout growth and abundance in McIntosh Creek are limited by a lack of large woody debris and deep water pools during summer low flow conditions. This project will add large woody debris to enhance habitat structure and deep water pools to increase wild brook trout growth and abundance, and improve the recreational fishery. Pre- and post-enhancement monitoring will be conducted and used to demonstrate this simple and low cost approach to improve brook trout habitat.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
South Fork Little Conemaugh River Brook Trout Renewal, Pennsylvania: Deep mining activities along the stream have resulted in chronic AMD into the stream. AMD along with acid deposition have depressed the brook trout and aquatic life in this 4 mile stretch due to low pH, high aluminum, and low alkalinity. The objective of this project is to mitigate the sources of the AMD with limestone beds and mitigate the acid deposition with limestone sand dosing. Restoring the pH and alkalinity regime will allow for a renewed brook trout population and overall aquatic life restoration along 4 miles of stream.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
Deep Brook Restoration and Monitoring Program, Connecticut: Deep Brook is a Class 1 Wild Trout Management Area, rare in Connecticut. It had been neglected and developed problems, including a declining population of native brook trout. For three years, TU and its broad partnership have worked to restore the in-stream, riparian and buffer habitat. Funding from this project will be used to implement a comprehensive water monitoring system, a critical component of the multi-year restoration effort in Deep Brook.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
Catawissa Creek AMD Restoration, Pennsylvania: An historic mine water discharge tunnel draining a deep mine is contributing 80 percent of the pollution load of acid and aluminum impairing Catawissa Creek. The objective of this project is to complete a limestone mitigation project that will treat the source of AMD and restore the pH regime of the stream. The project will enable the return of extirpated brook trout to 36 miles of the main stem of the Catawissa Creek. It will also reconnect the entire watershed including more than two dozen tributaries, many of which are not impaired and have healthy brook trout populations.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
Smethport Reservoir Dam Removal and Habitat Restoration, Pennsylvania: This project seeks to remove the Smethport Reservoir Dam to restore passage and free flowing stream habitat for brook trout on Blacksmith Run and eliminate a significant liability and safety concern and reduce localized flooding. Approximately 1.9 miles of stream will be reopened to fish passage, 770 linear feet of in-stream habitat restored, and 1540 feet of riparian habitat restored. Additional benefits anticipated from the project include improvements in water quality, enhanced transport of nutrients and woody debris, and re-established connectivity between the stream, riparian area and groundwater interface.
Located in Projects / 2006 - 2018 Projects / 2008 Projects
Restoring Brook Trout to Aaron Run, Maryland: Project will remediate chronic habitat and water quality problems resulting from historic acid mine drainage (AMD) sources and agricultural practices in four miles of Aaron Run, allowing for the reestablishment of an extirpated native brook trout population. Remediation will also benefit brook trout habitat in the lower Savage River and the upper North Branch Potomac River, and reestablish historic population connections.
Located in Projects / 2006 - 2018 Projects / 2007 Projects
Lynn Camp Prong, Tennessee: One of the top stressors to thriving brook trout populations is their inability to successfully compete for food and space with other, non-native (exotic) trout species such as brown and rainbow trout and warm water species such as small mouth bass. Balancing the needs of multiple fish user groups presents a unique set of challenges in developing strategies to address declines in brook trout populations due to competition from these species. Steve Moore, Fishery Biologist for the National Park Service is leading a partnership to eliminate non-native trout species from Lynn Camp Prong in the Great Smoky Mountains State Park. This effort focuses on the use of chemical means to eliminate rainbow trout from the stream. A natural barrier at the lower end of Lynn Camp Prong will exclude rainbow trout from stream. Approximately 8 miles of stream will be restored allowing brook trout to re-inhabit the stream without the challenge of competing trout species.
Located in Projects / 2006 - 2018 Projects / 2007 Projects

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