Skip to main content
Advanced Search

Filters: Categories: Publication (X)

Folders: ROOT > ScienceBase Catalog > National and Regional Climate Adaptation Science Centers > Northeast CASC > FY 2018 Projects > Increasing the Resilience and Resistance of Climate-Vulnerable Species and Ecosystems > Approved Products ( Show all descendants )

4 results (10ms)   

Location

Folder
ROOT
_ScienceBase Catalog
__National and Regional Climate Adaptation Science Centers
___Northeast CASC
____FY 2018 Projects
_____Increasing the Resilience and Resistance of Climate-Vulnerable Species and Ecosystems
______Approved Products
View Results as: JSON ATOM CSV
This Interagency Agreement brings together researchers from the U.S. Forest Service, the U.S. Geological Survey, and their partners to examine the impacts of climate change on fish, wildlife, and habitats in the northeastern U.S., focused especially on northern and montane species. As climate change causes substantial effects in the northeastern U.S. region, species and ecosystems there are responding. Agency staff are seeking to maintain populations and enable climate adaptation, but these actions require predictions of how species will respond both to climate change and management action. This research uses the paradigms of translational ecology and knowledge coproduction to bring together scientists and resource...
Categories: Publication; Types: Citation
Aim Spatiotemporal variation in resource availability is a strong driver of animal distributions. In the northern hardwood and boreal forests of the northeastern United States, tree mast events provide resource pulses that drive the population dynamics of small mammals, including the American red squirrel (Tamiasciurus hudsonicus), a primary songbird nest predator. This study sought to determine whether mast availability ameliorates their abiotic limits, enabling red squirrel elevational distributions to temporarily expand and negatively impact high-elevation songbirds. Location Northeastern United States. Methods We used two independent datasets to evaluate our hypotheses. First, we fit a dynamic occupancy model...
Categories: Publication; Types: Citation
The US Forest Service (USFS) and Northeast Climate (Adaptation) Science Center (NE CASC) came together to focus research and management cooperation on the topic of the impacts of climate change on forested ecosystems. This work had 3 primary components: 1) modeling headwater stream refugia; 2) investigating resilience and resistance strategies for New England forests; and 3) studying the impact of climate change on forest mammal communities. USFS and NE CASC organizations have complimentary expertise to share in order to improve natural resource management in the critical montane and headwater habitats in the region, and worked together to use this expertise in advancing science and science support for natural resource...
Abstract (from British Ecological Society): A central theme of range‐limit theory (RLT) posits that abiotic factors form high‐latitude/altitude limits, whereas biotic interactions create lower limits. This hypothesis, often credited to Charles Darwin, is a pattern widely assumed to occur in nature. However, abiotic factors can impose constraints on both limits and there is scant evidence to support the latter prediction. Deviations from these predictions may arise from correlations between abiotic factors and biotic interactions, as a lack of data to evaluate the hypothesis, or be an artifact of scale. Combining two tenets of ecology—niche theory and predator–prey theory—provides an opportunity to understand how...