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Climate change is expected to worsen the harmful effects of invasive species on native wildlife. This presents a growing conservation challenge for invasive species managers in the southeastern United States where thousands of invasive species exist. While many of these invasive species currently have relatively small ranges in the southeastern U.S., climate change may allow them to expand into new regions. To effectively plan and respond to the redistribution of invasive species, it is crucial to coordinate existing information and identify future information needs across regional boundaries. The ultimate goal of this project is to improve invasive species management in the face of climate change by establishing...
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Mountain meadows in the western United States provide key habitats for many plant and wildlife species, many of which rely exclusively on these areas. Mountain meadows are also treasured by the public and provide beautiful areas to view wildflowers and wildlife on public lands such as national parks. However, mountain ecosystems are expected to be disproportionately affected by climate change. There is a limited understanding of how mountain meadows are changing, how temperature and precipitation may be driving those changes, and how this will impact sensitive species that inhabit these landscapes. Natural resource managers have an immediate need to understand these relationships to conserve or restore habitats...
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Climate change is already affecting species in many ways. Because individual species respond to climate change differently, some will be adversely affected by climate change whereas others may benefit. Successfully managing species in a changing climate will require an understanding of which species will be most and least impacted by climate change. Although several approaches have been proposed for assessing the vulnerability of species to climate change, it is unclear whether these approaches are likely to produce similar results. In this study, we compared the relative vulnerabilities to climate change of 76 species of birds, mammals, amphibians, and trees based on three different approaches to assessing vulnerability....
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Climate change is causing species to shift their phenology, or the timing of recurring life events such as migration and spawning, in variable and complex ways. This can potentially result in mismatches or asynchronies in food and habitat resources that negatively impact individual fitness, population dynamics, and ecosystem function. Numerous studies have evaluated phenological shifts in terrestrial species, particularly birds and plants, yet far fewer evaluations have been conducted for marine animals. This project sought to improve our understanding of shifts in the timing of seasonal migration, spawning or breeding, and biological development (i.e. life stages present, dominant) of coastal fishes and migratory...
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Negative human-bear interactions are a common problem and management priority for many wildlife agencies in North America. Bears are adaptable to anthropogenic activity and food sources which creates opportunities for conflict with humans, including property damage, livestock depredation, and in severe cases, human injury. Acute climate events and long-term directional climate change can exacerbate the frequency and severity of human-bear interactions by changing resource availability, increasing overlap between humans and wildlife, and driving competition. Despite the pervasive threat that climate change poses, studies evaluating climate, human-wildlife interactions, and adaptive management strategies are limited....
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Moose are an economically and culturally important species in Minnesota. Like many species, however, moose are experiencing reductions in distribution and abundance across the Midwest as a result of climate change and habitat loss. Moose populations have declined by 60% since 2006, in part because of thermal heat stress in warming summers and increased frequency of contact with white-tailed deer that transmit fatal parasites. Forest managers are looking for actionable strategies to improve moose habitat in the near-term while also planning for future forest conditions in a warming climate. To address this need, this project brings together researchers and managers to examine how climate adaptive forest management...
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Surface-water availability has been identified as one of the biggest issues facing society in the 21st century. Where and when water is on the landscape can have profound impacts on the economy, wildlife behavior, recreational use, industrial practices, energy development, and many other aspects of life, society, and the environment. Projections indicate that surface-water availability will be generally reduced in the future because of multiple factors including climate change, increased drought frequency and severity, and altered water and land use. Thus, it is important resource managers understand which areas are most vulnerable to reduced water availability impacts, and to what extent current conditions may...
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Many animal species have unique characteristics that allow them to survive during winter. For example, the snowshoe hare changes its fur color from brown to white to camouflage better in winter months, and the ruffed grouse roosts under the snow to stay warm and hidden in winter. These winter-adapted species, however, are facing new challenges as climate change is resulting in shorter winters and rapid declines in snowpack. Shorter winters pose a significant threat to winter-adapted species that are used to living in, under, or on top of a protective blanket of snow. Wildlife managers are tasked with conserving these species, yet studies understanding how specific management actions can enhance species' ability...
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A large portion of the U.S. population lives in coastal areas along the Atlantic and Gulf coasts and the Caribbean; however, our coasts are also home to many fish, wildlife, and plant species that are important for recreation, tourism, local economies, biodiversity, and healthy coastal ecosystems. Coastal habitats also provide protective ecosystem services to human communities, which are increasingly at risk to storms and sea level rise under future climate change. Understanding how climate change will impact natural and human communities is a crucial part of decision making and management related to the protection of our coasts. In a collaborative project between the North Atlantic Landscape Conservation Cooperative...
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Natural resource managers are confronted with the pressing challenge to develop conservation plans that address complex ecological and societal needs against the backdrop of a rapidly changing climate. Climate change vulnerability assessments (CCVAs) provide valuable information that helps guide management and conservation actions in this regard. An essential component to CCVAs is understanding adaptive capacity, or the ability of a species to cope with or adjust to climate change. However, adaptive capacity is the least understood and evaluated component of CCVAs. This is largely due to a fundamental need for guidance on how to assess adaptive capacity and incorporate this information into conservation planning...
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Invasive species have increasingly severe consequences for ecosystems and human communities alike. The ecological impacts of invasive species are often irreversible, and include the loss of native species and the spread of disease. Implications for human communities include damaged water transportation systems, reduced crop yields, reduced forage quality for livestock, and widespread tree death - which can lead to increases in wildfire and loss of biodiversity. Changing climate conditions may facilitate the spread of invasive species, making this a key management and conservation concern across the United States. This project will synthesize what we know about how climate change impacts the spread of invasive...
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The desert grasslands of the southwestern United States support many wildlife species of management concern and economic value. The American pronghorn, for example, is a game species that contributes to local and state economies. Climate extremes, including severe droughts, heat waves, and atmospheric river events, are expected to occur more frequently in the Southwest. These extremes can affect the availability of food and water needed by wildlife. Wildlife management agencies and conservation organizations need information on resource availability for wildlife under future climate scenarios to design effective management strategies to sustain wildlife populations. Project scientists are working with the Arizona...
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There have been increasing concerns regarding the decline in moose numbers along the southern range of their North American distribution. This has prompted varied research efforts to determine the factors contributing to the reduced local populations. Although heat stress from increasing temperatures could be a potential factor for declining populations in Minnesota, temperature increases have also occurred in New York, Massachusetts, and Connecticut where populations have been expanding in recent years. Alternatively, indirect climate effects from warmer temperatures may be playing a role, such as increased prevalence of parasites (e.g., brainworm, winter tick) to levels lethal to moose. Additionally, factors such...
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Species that inhabit the arid Southwest are adapted to living in hot, dry environments. Yet the increasing frequency and severity of drought in the region may create conditions that even these hardy species can’t survive. This project examined the impacts of drought in the southwestern U.S. on four of the region’s iconic species: desert bighorn sheep, American pronghorn, scaled quail, and Rio Grande cutthroat trout. Grasping the impacts of drought on fish and wildlife is critical for management planning in the Southwest, as climate models project warmer, drier conditions for the region in the future. Species are known to respond to environmental changes such as drought in different ways. Often, before changes...
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As the climate continues to change, vulnerable wildlife species will need management strategies to help them adapt to these changes. One specific management strategy is based on the idea that in certain locations, climate conditions will remain suitable for species to continue to inhabit into the future. These locations are known as climate “refugia”. In contrast, other locations may become too hot, dry, or wet for species to continue to inhabit. When wildlife managers are considering protecting land for vulnerable species, it can be helpful for them to understand where these climate refugia are located, so that they can be prioritized for conservation. However, most tools used by resource managers to manage these...
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In the Southeast, where rapid human development is increasingly dividing natural areas, habitat fragmentation and loss threaten the health and even genetic viability of wildlife populations, and interrupt migration routes. Climate change is projected to exacerbate fragmentation by further disrupting landscapes. To make matters worse, it is also expected to shift the range of many species, forcing animals capable of adapting by moving to expand into new areas to find more suitable temperatures and adequate food supplies – a challenge made difficult, if not impossible, by disconnected landscapes. Maintaining connectivity between habitats is a key strategy for conserving wildlife populations into the future, and sound...
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Ungulates, or hoofed mammals such as elk, deer, and moose, occupy a diversity of habitats across North America, from Canada’s high arctic to the deserts of Mexico. Ungulates play an important ecological role, helping to regulate processes such as nutrient cycling in forests and grasslands, through their grazing activities. They are also economically and culturally important, providing recreational and subsistence hunting opportunities and non-consumptive, aesthetic values. Yet throughout their range, ungulates face numerous anthropogenic and environmental threats that have the potential to impact populations and their ability to move across the landscape. Of these threats, an improved understanding of the effects...
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Our study addresses the general question of the degree to which wildlife species can adapt to, or possibly even modify, effects from climate change. We focused on five species of mammals in the alpine zone of the Sierra Nevada mountain range, including the federally endangered Sierra Nevada bighorn sheep and the American pika, a species recently proposed for listing due to the loss of populations from altered climatic conditions. It was expected that there will be an upward expansion of trees and shrubs from lower elevations and that many or even most alpine meadows will be converted to woody dominated communities. Meadows provide critical habitat for many alpine mammal species, and their conversion could represent...
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State wildlife agencies and their partners use State Wildlife Action Plans to coordinate and guide management activities aimed at protecting species. To do so, they must identify factors putting species and their habitats at risk. Current and future climate change is one such factor. To succeed, management actions need to account for impacts of climate change on species today and in the future as climate change accelerates in coming decades. Researchers use modeling approaches to simulate and understand how future climate change will impact species. In contrast, natural resource managers involved in wildlife action plans tend to favor index-based scoring approaches to understand the risks to and vulnerability...
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The National Park Service (NPS) is responsible for managing livestock grazing in 94 units, and several park grazing management planning efforts are currently underway. However, there is a recognized need to update grazing management practices to address potential future effects of management practices and climate change. The goal of this project is to outline the steps required for developing NPS grazing management plans, to identify information needs and availability for these planning processes, and to initiate a scenario-based pilot project for meeting these needs at a given park unit. This will serve as an important step toward developing a transferable process to help parks ensure that grazing management practices...
map background search result map search result map How will Mammals in the Alpine Zone of the Sierra Nevada Mountains Respond to Future Climate? Understanding Climate Change Vulnerability in the Pacific Northwest: A Comparison of Three Approaches Understanding Habitat Connectivity to Inform Conservation Decisions The Impacts of Drought on Fish and Wildlife in the Southwestern U.S. Implications of Future Shifts in Migration, Spawning, and Other Life Events of Coastal Fish and Wildlife Species Identifying Critical Thresholds and Tipping Points for Priority Coastal Species in a Changing Future Forecasting Resource Availability for Wildlife Populations in Desert Grasslands under Future Climate Extremes Climate Change Impacts on Invasive Species in the Northwest: A Synthesis and Path Forward Moose Health in a Changing Environment Integrating Climate Considerations into Grazing Management Programs in National Parks Refugia are Important but are they Connected? Mapping Well-Connected Climate Refugia for Species of Conservation Concern in the Northeastern U.S. Managing and Promoting the Resiliency of Winter-Adapted Species to Climate Change Evaluating Species’ Adaptive Capacity in a Changing Climate: Applications to Natural-Resource Management in the Northwestern U.S. Understanding the Effects of Climate Variability and Change on Ungulates in North America Can Climate Change Mitigation Through Forest Management Save the Moose in Minnesota? Accounting for Ecological Impacts of Climate Change in State Wildlife Action Plans: A comparison of Model-Based and Index-Based Vulnerability Assessments Development of a Surface Water Index of Permanence (SWIPe) Database to Assess Surface Water Availability for Ecohydrological Refugia From Water to Wildlife: Linking Water Timing and Availability to Meadows and Wildlife in a Changing Climate The Effects of Climate Variability and Change on Human-Bear Interactions in North America Southeast Regional Invasive Species and Climate Change Management Network (SE RISCC) Integrating Climate Considerations into Grazing Management Programs in National Parks How will Mammals in the Alpine Zone of the Sierra Nevada Mountains Respond to Future Climate? Can Climate Change Mitigation Through Forest Management Save the Moose in Minnesota? Implications of Future Shifts in Migration, Spawning, and Other Life Events of Coastal Fish and Wildlife Species Evaluating Species’ Adaptive Capacity in a Changing Climate: Applications to Natural-Resource Management in the Northwestern U.S. Climate Change Impacts on Invasive Species in the Northwest: A Synthesis and Path Forward From Water to Wildlife: Linking Water Timing and Availability to Meadows and Wildlife in a Changing Climate Development of a Surface Water Index of Permanence (SWIPe) Database to Assess Surface Water Availability for Ecohydrological Refugia Managing and Promoting the Resiliency of Winter-Adapted Species to Climate Change Accounting for Ecological Impacts of Climate Change in State Wildlife Action Plans: A comparison of Model-Based and Index-Based Vulnerability Assessments Forecasting Resource Availability for Wildlife Populations in Desert Grasslands under Future Climate Extremes Refugia are Important but are they Connected? Mapping Well-Connected Climate Refugia for Species of Conservation Concern in the Northeastern U.S. Southeast Regional Invasive Species and Climate Change Management Network (SE RISCC) The Impacts of Drought on Fish and Wildlife in the Southwestern U.S. Understanding Habitat Connectivity to Inform Conservation Decisions Moose Health in a Changing Environment Understanding Climate Change Vulnerability in the Pacific Northwest: A Comparison of Three Approaches Identifying Critical Thresholds and Tipping Points for Priority Coastal Species in a Changing Future The Effects of Climate Variability and Change on Human-Bear Interactions in North America Understanding the Effects of Climate Variability and Change on Ungulates in North America