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Riparian and wetland tree planting recommendations.
Located in The Story of Wild Brook Trout / Landowner Resources
File Eastern Brook Trout Roadmap to Conservation (2018)
This document summarizes the EBTJV's strategies for conserving wild Brook Trout.
Located in Science and Data / EBTJV Reports
File SIS package Eastern Brook Trout Conservation Portfolio, Range-wide Habitat Integrity and Future Security Assessment, and Focal Area Risk and Opportunity Analysis
Trout Unlimited has developed three conservation planning products to help identify strategic conservation opportunities and evaluate potential projects within the eastern range of brook trout (Salvelinus fontinalis or EBT). Each product gathers and interprets spatial data related to the pattern of EBT populations, their habitats, and threats to those habitats. The basic unit of analysis and summary for all three products is the Eastern Brook Trout Joint Venture’s EBT population patch.
Located in Science and Data / Data and Brook Trout Decision Support Tools / TU Eastern Brook Trout Conservation Portfolio, Range-wide Assessment and Focal Area Tools
File ECMAScript program A Map of Maine Wild Brook Trout Patches
The map provides a visual depiction of the distribution of Maine's wild Brook Trout patches.
Located in Science and Data / / EBTJV State Maps and Resources / State Maps of Wild Brook Trout Patch Distribution
File ECMAScript program A Map of New Hampshire Wild Brook Trout Patches
The map provides a visual depiction of the distribution of New Hampshire's wild Brook Trout patches.
Located in Science and Data / / EBTJV State Maps and Resources / State Maps of Wild Brook Trout Patch Distribution
File ECMAScript program A Map of Massachusetts Wild Brook Trout Patches
The map provides a visual depiction of the distribution of Massachusetts's wild Brook Trout patches.
Located in Science and Data / / EBTJV State Maps and Resources / State Maps of Wild Brook Trout Patch Distribution
File An Economic Analysis of Improved Road‐Stream Crossings
Road‐stream crossings, which include culverts and bridges, are an essential element of our transportation networks, allowing roads to pass over rivers and streams. Our communities and our economies depend on functioning road networks and safe crossings. We also depend on healthy rivers and streams for clean water, recreation, and a host of other benefits, and we are learning more about the relationships between road‐stream crossing designs and their effect on natural areas. Undersized or poorly designed crossings fragment streams and disrupt the natural movement of water, sediment and aquatic organisms, causing erosion and degraded habitat. The most problematic of these crossings prevent aquatic organisms, such as brook trout, from accessing the upstream habitat they need to survive and reproduce. Yet crossings can be designed to avoid these problems. Improved road‐stream crossings deliver social, economic and ecological benefits and are a key element of adapting our infrastructure to a changing climate. Unfortunately, their initial cost can be a significant obstacle for highway departments with limited budgets.
Located in Science and Data / Brook Trout Related Publications
Kazyak, D.C., Lubinski, B.A., Rash, J.M., Johnson, T.C., King, T.L. 2021. After centuries of declines, there is growing interest in conserving extant wild populations of Brook Trout Salvelinus fontinalis and reintroducing Brook Trout populations of native ancestry. A population genetic baseline can enhance conservation outcomes and promote restoration success. Consequently, it is important to document existing patterns of genetic variation across the landscape and translate these data into an approachable format for fisheries managers. We genotyped 9,507 Brook Trout representing 467 wild collections at 12 microsatellite loci to establish a genetic baseline for North Carolina, USA.
Located in Science and Data / Brook Trout Related Publications
We directly measured paired air and water temperatures in watersheds (N = 77) containing reproducing populations of brook trout in Virginia. We found that paired air and water temperature relationships are highly variable among patches but are a useful dataset to classify sensitivity and vulnerability of existing brook trout patches. We developed a classification system using sensitivity and vulnerability metrics that classified sampled brook trout habitats into four categories (High Sensitivity- High Vulnerability (51.9%); High Sensitivity-Low Vulnerability (10.4%); Low Sensitivity-High Vulnerability (7.8%); Low Sensitivity-Low Vulnerability (29.9%). Our direct measurement approach identified potential refugia for brook trout at lower elevations and with higher air temperatures than previous larger scale modeling efforts.
Located in Science and Data / Brook Trout Related Publications
File Brook Trout Outcome Management Strategy 2015–2025, v.1
This document describes the management strategies that will implemented to achieve the Brook Trout Outcome contained within the 2014 Chesapeake Bay Watershed Agreement.
Located in Science and Data / Chesapeake Bay Program
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