Wildlife and Plants
Wildlife and Plants
Wildlife and plants face many threats from climate change, including increased competition from invasive species, loss of access to freshwater, and shifting air and water temperatures. At the CASCs, researchers study how fish and wildlife are responding to climate change and how resource managers can promote species' adaptation and resilience in the face of shifting conditions. Browse our projects
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Webinar: A Framework for Evaluating the Vulnerability of Multiple Wildlife Species to Climate Change at Regional Scales
View this webinar to learn how scientists are examining the vulnerability of fish, amphibians, and reptiles in Oregon to climate change.
Webinar: Visualizing the Impact of Future Climate on Pine Forests
View this webinar to learn how scientists are exploring the potential future impacts of climate change on pine forests.
Assessing the Impact of Future Climate on Hawai‘i’s Aquatic Ecosystems
The stream systems of Hawai‘i are unique and home to many rare species, including five native fish and five native shellfish. These native species have amphidromous life cycles, meaning that they spend part of their lives in the ocean and part in freshwater streams. Stream flow serves as a vital natural pathway, connecting saltwater and freshwater habitats so that these animals can migrate between
Assessing the Use of Biochar for Drought Resilience and Crop Productivity
Climate change impacts on water resources in the Pacific Northwest are predicted to have transformational effects on agriculture. Loss of winter snow pack, reduced summer stream flows, and increased summer temperatures are all phenomena that have already been observed, and are expected to worsen over this century. Research is ongoing in the Northwest to understand agriculture practices that might
Can Evolution Help Wildlife Adapt to Climate Change? Exploring Evolutionary Adaptive Capacity (EVAC) and Bridging the Gap between Science and Management
Assessing the vulnerability of wildlife species to a changing climate is critical for understanding what adaptation actions need to be taken to minimize negative impacts. The ability of species to adapt to the impacts of climate change (i.e., their adaptive capacity) is an important factor to consider when assessing vulnerability. For example, organisms can possess traits that allow them to move t
Changes in Water Flow through Hawaiian Forests due to Invasive Species and Changing Rainfall Patterns
Precipitation in Hawaiʻi’s higher elevation upland areas provides needed water to both people and ecosystems. Once it reaches the ground, rain can either run off and contribute to water flow in streams, or it can infiltrate into the ground and provide water for plants and recharge aquifers and groundwater. The exact route that water takes is controlled by many factors, including the duration and i
Climate Change Impacts to Migratory Birds: Development of a Climate-informed Integrated Population Model
Migratory birds play a crucial role in many ecosystems (e.g. as pollinators and insect regulators) and are also valued by many bird watchers throughout the country and world. Effective conservation of migratory birds depends on a clear understanding of how environmental factors affect key demographic rates (e.g., survival and reproduction). This informational need is especially pressing in the con
Enhancing the Capacity of Coastal Wetlands to Adapt to Sea-Level Rise and Coastal Development
Coastal wetlands provide a suite of valuable benefits to people and wildlife, including important habitat, improved water quality, reduced flooding impacts, and protected coastlines. However, in the 21st century accelerated sea-level rise and coastal development are expected to greatly alter coastal landscapes across the globe. The future of coastal wetlands is uncertain, challenging coastal envir
Evaluating Future Effects of Climate and Land Use on Fisheries Production in Inland Lakes
Inland fisheries are critical for global food security and human well-being. However, fish production may be threatened by changes in climate and land use. Understanding this threat is crucial to effectively manage inland fisheries in the future. To address this need, this project will identify which types of lakes across the globe are most vulnerable to the impacts of climate and land use changes
Evaluating the Effectiveness of Assisted Migration and Fish Rescue Programs
Climate change, drought, habitat alterations, and increasing water demands are leaving less water available for streams of the Pacific Northwest and for fish like salmon. As water levels drop, some small streams become fragmented, transforming from a ribbon of continuous habitat into a series of isolated pools. Fragmented streams may pose a serious threat to salmon. For example, juveniles that bec
Examining the Responses of Species to Climate Change: Will Wildlife Face Biological Thresholds?
Historical and projected climate data point toward significant changes in the future for the Northeastern and Midwestern U.S. These changes will include impacts to many species (like birds, fish, and mammals), ecosystems (like forests), and natural resources (like water) that humans appreciate and rely on. In order to prepare for these changes, land and resource managers need to be able to predic
Global Analysis of Trends in Projected and Documented Effects of Climate Change on Inland Fish
Inland fish populations are a crucial resource to humans and communities around the world. Recreational fishing throughout the United States, for example, provides important revenue to local and state economies; globally, inland fisheries are a vital food source for billions of people. Warming temperatures and changing precipitation patterns, however, are already causing significant changes to fi