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Ecosystems
Located in Impacts
File Email Announcement from SDM Course Leader
2014-01-08 email from Christy Coghlan on upcoming SDM workshop - Call for Proposals.
Located in Workspace / Additional Partner HD Activities and Resources / Documents
Endangered Species Recovery: Partners of the Upper Colorado River Endangered Fish Recovery Program
Partners of the Upper Colorado River Endangered Fish Recovery Program are recovering four species of endangered fish in the Colorado River and its tributaries in Colorado, Utah, and Wyoming while water use and development continues to meet human needs in compliance with interstate compacts and applicable federal and state laws.
Located in Impacts / Ecosystems / Aquatic: Water Resources
Energy Opportunities and Challenges
Located in Cooperative / Our Plan / Section 1: Biodiversity and Conservation Challenges Across the Appalachian Region
File Environmental flows in the context of unconventional natural gas development in the Marcellus Shale
This study clarifies how additional water demands in the region may adversely affect freshwater biological integrity. The results make clear that policies to limit or prevent water withdrawals from smaller streams can reduce the risk of ecosystem impairment. 2016 Scientific Reports associated with the AppLCC-funded research to Cornell.
Located in Research / / Stream Impacts from Water Withdrawals in the Marcellus Shale Region / Scientific Research Publication
EPA Research Centers
Located in Cooperative / Our Plan / Section 2: Science Capacity within the Appalachian Community Federal Departments/Agencies
EPA: Public Service Video
Located in Resources / Climate Links
File Executive Summary - Present and Future Possibilities of Landscape Scale Conservation
The Landscape Conservation Cooperative (LCC) program was created under a secretarial order to develop regional conservation partnerships – under the Department of the Interior – that aimed to coordinate regional conservation planning in response to climate change impacts. Because they were partner-driven efforts, each of the 22 LCCs followed a distinct trajectory and implemented diverse projects, meaning that there is value in exploring how specific LCCs, such as the AppLCC, approached regional conservation. This study assesses the successes, limitations, and impacts of the AppLCC, with the aim of providing insights for future regional conservation partnership.
Located in Research / / Integrating Cultural Resource Preservation at a Landscape Level / Cultural Resources Fellowship
File Troff document Fall and Early Winter Movement and Habitat Use of Wild Brook Trout
Abstract Brook Trout Salvelinus fontinalis populations face a myriad of threats throughout the species’ native range in the eastern United States. Understanding wild Brook Trout movement patterns and habitat requirements is essential for conserving existing populations and for restoring habitats that no longer support self-sustaining populations. To address uncertainties related to wild Brook Trout movements and habitat use, we radio-tracked 36 fish in a headwater stream system in central Pennsylvania during the fall and early winter of 2010–2011. We used generalized additive mixed models and discrete choice models with random effects to evaluate seasonal movement and habitat use, respectively. There was variability among fish in movement patterns; however, most of the movement was associated with the onset of the spawning season and was positively correlated with fish size and stream flow. There was heterogeneity among fish in selection of intermediate (0.26–0.44 m deep) and deep (0.44–1.06 m deep) residual pools, while all Brook Trout showed similar selection for shallow (0.10–0.26 m) residual pools. There was selection for shallow residual pools during the spawning season, followed by selection for deep residual pools as winter approached. Brook Trout demonstrated a threshold effect for habitat selection with respect to pool length, and selection for pools increased as average pool length increased up to approximately 30 m, and then use declined rapidly for pool habitats greater than 30 m in length. The heterogeneity and nonlinear dynamics of movement and habitat use of wild Brook Trout observed in this study underscores two important points: (1) linear models may not always provide an accurate description of movement and habitat use, which can have implications for management, and (2) maintaining stream connectivity and habitat heterogeneity is important when managing self-sustaining Brook Trout populations.
Located in News & Events / / Brook Trout and Stream Temperature Workshop Information / Resource Materials: Reprints
Federal Conservation Agencies & Climate Change
Located in Cooperative / Our Plan / Section 1: Biodiversity and Conservation Challenges Across the Appalachian Region