Skip to main content
Advanced Search

Filters: partyWithName: Northeast CASC (X)

Folders: ROOT > ScienceBase Catalog > National and Regional Climate Adaptation Science Centers > Northeast CASC > FY 2018 Projects ( Show direct descendants )

13 results (47ms)   

Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Types
Tag Schemes
View Results as: JSON ATOM CSV
Abstract (from ESA Journals): Climate change is a well-documented driver and threat multiplier of infectious disease in wildlife populations. However, wildlife disease management and climate-change adaptation have largely operated in isolation. To improve conservation outcomes, we consider the role of climate adaptation in initiating or exacerbating the transmission and spread of wildlife disease and the deleterious effects thereof, as illustrated through several case studies. We offer insights into best practices for disease-smart adaptation, including a checklist of key factors for assessing disease risks early in the climate adaptation process. By assessing risk, incorporating uncertainty, planning for change,...
Categories: Publication; Types: Citation
Abstract (from CanadianSciencePub): Sustaining the structure, function, and services provided by forest ecosystems in the face of changing climate and disturbance regimes represents a grand challenge for forest managers and policy makers. To address this challenge, a range of adaptation approaches have been proposed centered on conferring ecosystem resilience and adaptive capacity; however, considerable uncertainty exists regarding how to translate these broad and often theoretical adaptation frameworks to on-the-ground practice. Complicating this issue has been movement away, in some cases, from other recent advances in forest management, namely ecological silviculture strategies that often focus on restoration....
Categories: Publication; Types: Citation
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
Abstract (from Conservation Science and Practice): On a warming planet, a key challenge natural resource managers face is protecting wildlife while mitigating climate change—as through forest carbon storage—to the greatest extent possible. But in some ecosystems, habitat restoration for imperiled species may be incompatible with maximizing carbon storage. For example, promoting early successional forest conditions does not maximize stand-level carbon storage, whereas uniformly promoting high stocking or mature forest conditions in the name of carbon storage excludes species that require open or young stands. Here, we briefly review the literature regarding carbon and wildlife trade-offs and then explore four case...
Categories: Publication; Types: Citation
thumbnail
The forests of the Northeastern United States are home to some of the greatest diversity of nesting songbirds in the country. Climate change, shifts in natural disturbance regimes, and invasive species pose threats to forest habitats and bird species in the northeastern United States and represent major challenges to natural resource managers. Although broad adaptation approaches have been suggested for sustaining forested habitats under global change, it is unclear how effective the implementation of these strategies at local and regional scales will be for maintaining habitat conditions for a broad suite of forest-dependent bird species over time. Moreover, given the diversity in forest stakeholders across the...
thumbnail
Every 10 years, state fish and wildlife management agencies must comprehensively review, and if necessary revise, their State Wildlife Action Plans (SWAPs). These are important planning documents that serve as blueprints for conserving fish, wildlife, and their habitat, and for preventing species listings in each state. These plans focus on species that have been identified as being of greatest conservation need, but also address the full array of wildlife and wildlife-related issues in a state. States last reviewed and revised their SWAPs in 2015, and will do so again in 2025. In 2016-2017, the Northeast Association of Fish and Wildlife Agencies (NEAFWA) synthesized the 14 SWAP reports from the Northeast region....
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...
thumbnail
Climate change and the extreme weather associated with it can be a major challenge to landowners and land managers interested in the protection, restoration, recovery, and management of wetlands and wildlife habitats. The Midwest is not only experiencing an increase in average temperatures and precipitation, but also an increase in the frequency of extreme events, such as heat waves and floods. Forecasting the potential impacts of the changes over the next 25 to 50 years will be important for decision makers and landowners seeking to minimize the impacts to infrastructure and to the habitats themselves and prepare for the future. Changes in flood frequency threaten habitat management infrastructure and actions,...
thumbnail
The northeastern U.S. is highly exposed to climate change; in fact, the rate of change is higher than most places on earth (Karmalkar and Bradley 2017). The forests of the Northeast CASC region, and the wildlife that inhabit them, are highly vulnerable to the effects of climate change. In particular, the boreal forests, a biome that reaches from Alaska to the Northeast, and the northern hardwoods, including sugar maple and paper birch, are expected to be intolerant of climate warming. Likewise, many of the birds, mammals, amphibians, fish, and insects that inhabit these forest ecosystems are at their southern range edges here and are considered sensitive to climate change. Furthermore, local species’ adaptive capacity...
Across the Northeast, 14 States’ Wildlife Action Plans have identified climate change as one of the top five threats to fish and wildlife and their habitats. They further indicate that climate change exacerbates the other four priority threat impacts of pollution, disease, invasive species, and development in the region. This project aims to provide the information and tools to state fish and wildlife agencies to help them address this formidable challenge by working with the NE CASC to fill important data gaps and inform development and implementation of effective fish and wildlife adaptation strategies. Recent surveys show that state fish and wildlife agencies across the nation lack the resources (funding and...
Abstract (from Ecological Indicators): Climate change has and is projected to continue to alter historical regimes of temperature, precipitation, and hydrology. To assess the vulnerability of climate change from a land management perspective and spatially identify where the most extreme changes are anticipated to occur, we worked in collaboration with land managers to develop a climate change vulnerability map for the midwestern United States with a focus on riparian systems. The map is intended for use by regional administrators to help them work across various program areas (e.g. fisheries, endangered species) to prioritize locations needing support for adaptation planning. The tool can also be utilized locally...
Categories: Publication; Types: Citation
thumbnail
Changing climate conditions could have significant impacts on wildlife health. Shifts in temperature and precipitation may directly affect the occurrence of disease in fish and wildlife by altering their interactions with pathogens (such as the bacterium that causes Lyme disease), helping vectors like mosquitoes and ticks expand their range, or speeding up the time it takes for a parasite to develop from an egg to an adult. Climate change can also indirectly affect the health of fish and wildlife as their habitats change. For example, reduced food availability could lead to overcrowding and increased disease transmission, or warmer temperatures might increase stress levels, weakening immune systems and making animals...


    map background search result map search result map Vulnerability Assessment and Adaptation Planning for Projected Changes in Water Quality and Quantity for Protected Areas in the Upper Mississippi Watershed Identifying and Evaluating Adaptation Science for Forest Habitats and Bird Communities in the Northeast Synthesizing Climate Change Impacts on Wildlife Health and Identifying Adaptation Strategies Increasing the Resilience and Resistance of Climate-Vulnerable Species and Ecosystems Assessing Climate Change Threats and Adaptation Strategies in Northeast State Wildlife Action Plans Assessing Climate Change Threats and Adaptation Strategies in Northeast State Wildlife Action Plans Vulnerability Assessment and Adaptation Planning for Projected Changes in Water Quality and Quantity for Protected Areas in the Upper Mississippi Watershed Identifying and Evaluating Adaptation Science for Forest Habitats and Bird Communities in the Northeast Increasing the Resilience and Resistance of Climate-Vulnerable Species and Ecosystems Synthesizing Climate Change Impacts on Wildlife Health and Identifying Adaptation Strategies