2011 Projects
Marshall Brook Culvert Replacement, Hancock County, Maine
This project will replace two existing undersized, improperly set round culvert inhibiting fish passage at the road / stream crossing of Marshall Brook with the Seal Cove Road in Southwest Harbor, Maine with an open bottom culvert. This will provide 4 miles of passage and reconnect a historic sea run brook trout stream with the estuary at Bass Harbor.
Restoring Habitat Connectivity in Machias and Saint Croix River Tributary Streams, Maine
This project will restore habitat connectivity on three brook trout habitat streams and eliminate ongoing risks of sedimentation during culvert failure, in watersheds identified as brook trout habitat priorities. Removal of four fish passage barriers will reopen 3 miles of passage for brook trout.
Upper Shavers Fork Aquatic Passage Project, West Virginia
This project seeks to restore habitat linkages between two spawning tributaries and the mainstem of Upper Shaver's Fork between Cheat Bridge and Spruce, West Virginia. Poor tributary-mainstem connections continue to threaten the sustainability and expansion of brook trout populations in genetically isolated tributaries as well as those in the mainstem of Upper Shaver's Fork. To address these problems, two blocking railroad culverts will be replaced with passage-friendly culverts to provide over 8 miles of passage for brook trout.
Carloe Brook Fish Passage Restoration Project, Washington County, Maine
This project will replace an undersized and failing stream crossing on Carloe Brook, a major tributary to Clifford Lake, a wild brook trout water. This stream crossing currently limits passage for trout and other aquatic organisms. The crossing will be replaced with a bottomless arch culvert designed to allow flows at all levels. This will open approximately 3 miles of passage for brook trout and other aquatic organisms.
Thunder Brook Dam Removal, Chesire, Massachusetts
This project seeks to restore natural riverine functions and values to Thunder Brook, a tributary to the South Branch of the Hoosic River. In its current condition, an aging dam and failing culvert fragment this valuable coldwater stream and prevent fish passage between the Hoosic and the high quality headwaters of Thunder Brook on Mount Greylock. This project will remove 2 fish passage barriers and open 2.4 miles of stream for brook trout passage. The project will also re-establish the river's natural flow regime, improve sediment dynamics and water quality, and restore natural clean gravel and cobble necessary for brook trout and other species of interest.
Enhancing Connectivity in the Ash-Black Rock Subbasin of the WB Narraguagus River, Maine
This project will replace two poorly functioning culverts with open bottom arch culverts to allow unhindered fish passage and restore overall ecological stream connectivity. Once complete, the project will open 4.3 miles of habitat from Ash Bog Stream to Black Rock Brook which flows to the West Branch of the Narraguagus River.
Brook Trout Restoration in the Chattahoochee National Forest, Georgia
This project will restore fragmented poor quality habitat and brook trout populations on the Chattahoochee National Forest in Georgia by removing and replacing a culvert on Bryant Creek that is perched and acts as a barrier to fish movement. Additionally, nine miles of habitat will be improved by placing 54 structures in nine streams: Bryant Creek, Chester Creek, Lovinggood Creek, Long Creek, Underwood Creek, Walnut Fork, An unnamed tributary to Ammons Branch, Smith Branch, and Chastain Branch. Electrofishing will be used to renovate three streams: Stover Creek, Walnut Fork, and Tate Branch.
Removal of Illegally Introduced and Missed Rainbow Trout from Lynn Camp Prong, Great Smoky Mountain National Park, Tennessee
This project will remove the illegally introduced and missed rainbow trout from the Lynn Camp Prong Watershed in Great Smoky Mountain National Park. Once complete, the project will reconnect brook trout populations in three tributary streams thus eliminating fragmentation in this watershed. This reconnection of stream segments will result in the largest contiguous brook trout population in the Great Smoky Mountain National Park.
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