Skip to main content
Advanced Search

Filters: partyWithName: Climate Adaptation Science Centers (CASC) Program (X)

315 results (15ms)   

Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Types
Tag Schemes
View Results as: JSON ATOM CSV
thumbnail
Ecosystems respond to disturbances (such as wildfire) and changing climate in a variety of ways, including persistence, recovery, and reorganization into new combinations. Some species respond by migrating across the landscape over time, which allows them to keep up with changing climate. Many forests recover after wildfire by regenerating from seeds, and public land managers often assist these processes to help ecosystems recover. However, the success of all of these strategies depends on young plants (seedlings and saplings) surviving, often when exposed to harsh conditions following fires, including prolonged droughts, heat waves, and rising temperatures. In this project, researchers will study how well young...
thumbnail
Sagebrush steppe is one of the most widely distributed ecosystems in North America. Found in eleven western states, this important yet fragile ecosystem is dominated by sagebrush, but also contains a diversity of native shrubs, grasses, and flowering plants. It provides critical habitat for wildlife like pronghorn and threatened species such as the greater sage-grouse, and is grazed by livestock on public and private lands. However, this landscape is increasingly threatened by shifts in wildfire patterns, the spread of invasive grasses, and changing climate conditions. While sagebrush is slow to recover after fires, non-native grasses such as cheatgrass thrive in post-fire conditions and the spread of these species...
thumbnail
The Colorado River is a crucial water source for millions of people in the Southwest. Warming temperatures, clearly documented in climate records for the Colorado River basin, are having an impact on the amount of annual streamflow yielded from rain and snow. Recent work has revealed that warming temperatures have played an increasingly important role over the past decades, both exacerbating droughts and dampening the effects of wet winters on high stream flows. Understanding and anticipating how warming temperatures will influence future water supply in the Colorado River basin is increasingly important for resource management, particularly in light of recent drought conditions. The overarching goals of this...
thumbnail
Climate Change is making our environment unpredictable. Increased persistence of drought is causing deaths of plants and animals across our landscapes. However, drought amongst the western United States is not a new thing. Native American populations have been living with drought since time immemorial and practiced culturally prescribed fire practices to foster the landscape for an environment that provides resources for tribal livelihoods and traditional practices (Marks-Block et al. 2019). The United States Geologic Survey and the Yurok Tribe are partnering to study the effects of prescribed burns actively occurring in Yurok Ancestral Territory. Prescribed burns promote a healthy ecosystem through positively...
thumbnail
Water in the western United States is disappearing, and several states are facing severe water shortages as drought conditions worsen. Many streams are drying up, and there is growing concern that this trend will only continue as climate change produces warmer and drier conditions. The loss of stream ecosystems has far reaching ecological, social, and economic implications. Species that depend on these ecosystems for habitat will be at greater risk of extinction and humans will lose vital sources of water relied upon for agriculture, drinking water, and recreation. This project aimed to identify how water availability is changing in the West, focusing specifically on when and where streams go dry. Researchers...
thumbnail
As elevation increases, both temperature and moisture availability decrease. In many parts of the world, this decrease in temperature is a limiting factor for vegetation—at certain elevations, the temperature becomes too cold for plants to survive. However in the tropics, moisture availability may play a more important role than temperature in determining the altitude at which forests can grow. For example on Haleakalā, a volcano on the Hawaiian Island of Mauʻi, the forest line is not found at the same elevation everywhere, as you would expect if it were controlled by temperature. Rather, the forest line is highest in the wetter eastern-most end and lower on the drier, western end of the volcano. Research also...
thumbnail
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 become stranded in small pools are at increased risk to overheat, starve, or be consumed by predators. Healthy salmon populations can cope with fragmentation and recover from a bad drought-year. However, many salmon populations are endangered and face long-term drought. Land and resource managers are increasingly finding...
thumbnail
Aspen forests are considered keystone ecosystems, meaning that loss of aspen habitat would result in negative impacts to numerous plant and animal species. Aspen also provide important economic and social benefits, including drawing tourists, serving as potential fire breaks, improving local economies, and providing forage for wildlife and livestock. Ecologically-valuable aspen forests are considered at risk in many areas of the western U.S., but especially in lower-elevation areas. Risks to aspen include climate-change and past land use. The effects of drought and browsing animals (that eat young aspen) are often more severe for lower-elevation aspen and can threaten aspen forest health and long-term persistence....
thumbnail
In the Northern Rockies, the annual area burned by wildfires has risen sharply in recent decades and is expected to continue growing. As a result, burned forests increasingly comprise a significant portion of the land base. However, burned areas represent a difficult paradox for land managers, especially in the context of other climate-linked disturbances (e.g., droughts, bark beetle outbreaks) that are also on the rise and may compound initial fire-induced stressors. While, burned areas have experienced major recent changes that may decrease their resilience to subsequent, compounding stressors, fire-induced changes can also lead to longer-term increases in resilience. The evolving landscape conditions triggered...
thumbnail
Freshwater mussels are an important component of freshwater ecosystems. They can filter a large amount of water, affecting both water clarity and water chemistry. Their shells provide physical habitat for other organisms, they re-direct necessary nutrients to the bottom of the water column, and their excreted material can enhance the growth of algae and macroinvertebrates. However, dramatic declines of freshwater mussels have occurred due to habitat loss, destruction and modification, pollution, and invasive species. One mussel species in Texas (Texas Hornshell) has been listed as endangered under the Endangered Species Act and several other species are candidates for listing. Changes in precipitation patterns...
thumbnail
The Rio Grande is naturally a water-scarce basin in which droughts have been classified as severe (with almost no rain during some years) and extended (lasting more than 10, or even 15 years). Severe and persistent droughts in the Rio Grande basin reduce water availability, which triggers economic, environmental, and social impacts, and affects compliance with interstate compacts and international treaty commitments. In contrast, the Rio Grande basin is also affected by flood events that cause major losses to lives, properties, and economies. Understanding each of these periods of water scarcity and water abundance can help water managers to design adaptation strategies that cope with these two extremes while still...
thumbnail
Healthy forests in the western United States provide multiple benefits to society, including harvestable timber, soil stabilization, and habitat for wildlife. On the Navajo Nation, over 5 million acres of forest provide wood that heats 50% of homes, building materials, summer forage for livestock, and drinking water. However, warming temperatures and changes in precipitation patterns can increase forests’ vulnerability to insect outbreaks and catastrophic wildfire. Forest managers, particularly those associated with tribal communities that depend on forests to maintain a subsistence lifestyle, need knowledge-based tools in order to reduce the impacts of climate change on forests. This project aims to study approximately...
thumbnail
The goal of this project was to: (a) archive the relevant AR5 model output data for the southwest region; (b) downscale daily temperature and precipitation to 12 X 12 km cell spatial resolution over the Southwest; (c) assess the precision (degree of agreement) of the simulated models; (d) assess the direction and magnitude of change in projections between AR4 and AR5, as well as assess projections of key extreme climatic events (i.e., extreme drought, extreme seasonal precipitation, extreme high and low temperature events); and (e) assess critical ecosystem impacts (i.e., climate water deficit and fire; hydrological condition of major river systems; impacts on highly valued species).
thumbnail
The northwestern United States (Oregon, Washington, Idaho, and western Montana) are experiencing increasing air temperatures, declines in snowpack, altered hydrology, and more frequent and severe wildfire, drought, and insect and disease outbreaks as a result of climate change. These factors, alone and in combination with existing non-climate stressors, present a significant challenge to the natural and cultural resources of the region as well as to the managers tasked with their protection. While adaptation strategies and actions offer a path forward in the face of climate change, resource management decision-making is complicated by the multitude of adaptation options that have already been identified for the...
thumbnail
The Colorado River is the dominant water source for the southwestern United States, crossing through seven states before reaching Mexico. The river supplies water to approximately 36 million people, irrigates nearly six million acres of farmland within and beyond the basin, and contributes an estimated 26 billion dollars each year to the region’s recreational economy. Yet the Colorado River’s water supply is already fully allocated, meaning that the economic and environmental health of the region is closely tied to the river’s streamflow. Climate projections for the Southwest show a future marked by chronic drought and substantial reductions in streamflow. The region has already been impacted by climate change,...
thumbnail
Dry stream sections are characteristic of most prairie streams. Native fish are highly adapted to variable environments, using refuge habitats (e.g., remaining wet stream fragments) to recolonize areas after seasonal drying. However, dams and other barriers can prevent recolonization of seasonally-dry stream sections habitats known to be critical spawning and rearing areas for many species. This phenomenon will likely become more common as climate change causes increasingly severe droughts, and larger sections of streams become seasonally dry. This could lead to local loss of native prairie fishes, an already at-risk group. Fisheries managers in Wyoming and Montana have limited data on climate impacts to prairie...
thumbnail
Changing climate in the “Ridge-to-Reef" (R2R) and “Icefield-to-Ocean" (I2O) ecosystems of Hawai‘i and Southeast Alaska is expected to influence freshwater resources, extreme precipitation events, intensity of storms, and drought. Changes in these regions will not be uniform, rather they will depend on elevation and watershed location due to their steep-gradient terrains. A better understanding of expected future climate conditions in these regions is essential for natural resource managers to make informed climate adaptation decisions amid a changing environment. The Pacific Islands and Alaska Climate Adaptation Science Centers (PI and AK CASCs) are uniquely positioned to address these issues as they have previously...
thumbnail
The South Central U.S. is home to diverse climates and ecosystems, strong agricultural and energy sectors, and fast-growing urban areas. All share a critical need for water, which is becoming an increasingly scarce resource across the region as aquifers are overdrawn and populations grow. Understanding what brings rain to this region, and how the timing and amount of precipitation may be affected by climate change, is essential for effective water planning and management, yet community planners and managers have indicated that currently available precipitation forecasts for the South Central are insufficient, due largely to the high levels of uncertainty associated with precipitation projections for the region....
thumbnail
The role of soil temperature in agricultural health is largely understudied, but recent research suggests that it can affect soil health in important ways. Researchers at Texas Tech University found that lower daily temperature ranges of soil in the Southern High Plains were associated with higher levels of soil microbes (which help make critical nutrients available for plants) and decreased nitrogen availability. These results suggest that climate variability may have implications for soil health and microbial content. In the South Central U.S., a more developed understanding of how management practices, climate variability, and soil health interact is essential for sound agricultural decision-making. This project...
thumbnail
Across the Navajo Nation, the negative effects of climate change are impacting soil and vegetation management practices to the detriment of ecosystem function, human health, cultural resiliency, and economic well-being. Conducting ecosystem restoration and shifting land management practices are critical elements of climate adaptation and dust mitigation strategies for the Navajo Nation. However, barriers to restoration exist. Restoration in drylands is incredibly difficult and nuanced, requiring the use of appropriate technologies, integration of multiple types of knowledge, appropriate high-quality locally-adapted native plant materials, and environmental professionals skilled in the techniques of dryland restoration...
map background search result map search result map Assessment of Available Climate Models and Projections for the Southwest Region Projecting Future Streamflow in the Colorado River Basin Measurement of El Niño Southern Oscillation (ENSO)-related Climate Conditions and Ecosystem Responses in Hawaiʻi River’s End: Mapping Patterns of Stream Drying in the Western United States Quantifying Future Precipitation in the South Central U.S. for Water Resources Planning Evaluating the Effectiveness of Assisted Migration and Fish Rescue Programs Identifying Best Agricultural Management Practices for Maintaining Soil Health and Sustainability Under Changing Climate Conditions Anticipating Future Impacts of Temperature on Streamflow in the Colorado River Basin Improving the Success of Post-Fire Adaptive Management Strategies in Sagebrush Steppe Assessing Climate Variability and Adaptation Strategies for the Rio Grande Basin Assessing the Impacts of Rapid Rainfall Shifts (“Whiplashes” and “Boomerangs”) on Freshwater Mussels in Central Texas Forest Monitoring and Tree Ring Data to Inform Forest Management on the Navajo Nation Tracking Forest and Hydrological Resilience to Compound Stressors in Burned Forests Under a Changing Climate Vulnerability of Lower-Elevation Aspen Forests to Altered Fire and Climate Dynamics: Assessing Risks and Developing Actionable Science "Adaptation Snapshots" to Inform Managers and Help Prioritize Adaptation Actions Translating Existing Model Results to Aid in Resource Management Planning for Future Precipitation Extremes in Hawai‘i and Southeast Alaska The Implications of Stream Fragmentation for Climate Change Resilience of Northern Prairie Fishes Improving Water Resilience and Availability Through Culturally Prescribed Fires as a Management Tool on Yurok Tribal Lands Uniting Western Restoration Strategies and Traditional Knowledge to Build Community Capacity and Climate Resilience on the Navajo Nation How Do Critical Life History Stages Limit Plant Adaptation to Changing Climate? The Role of Seedling and Sapling Survivorship in Ecosystem Resilience River’s End: Mapping Patterns of Stream Drying in the Western United States Identifying Best Agricultural Management Practices for Maintaining Soil Health and Sustainability Under Changing Climate Conditions Uniting Western Restoration Strategies and Traditional Knowledge to Build Community Capacity and Climate Resilience on the Navajo Nation Measurement of El Niño Southern Oscillation (ENSO)-related Climate Conditions and Ecosystem Responses in Hawaiʻi Improving Water Resilience and Availability Through Culturally Prescribed Fires as a Management Tool on Yurok Tribal Lands Forest Monitoring and Tree Ring Data to Inform Forest Management on the Navajo Nation Assessing Climate Variability and Adaptation Strategies for the Rio Grande Basin Evaluating the Effectiveness of Assisted Migration and Fish Rescue Programs Anticipating Future Impacts of Temperature on Streamflow in the Colorado River Basin How Do Critical Life History Stages Limit Plant Adaptation to Changing Climate? The Role of Seedling and Sapling Survivorship in Ecosystem Resilience Tracking Forest and Hydrological Resilience to Compound Stressors in Burned Forests Under a Changing Climate The Implications of Stream Fragmentation for Climate Change Resilience of Northern Prairie Fishes "Adaptation Snapshots" to Inform Managers and Help Prioritize Adaptation Actions Improving the Success of Post-Fire Adaptive Management Strategies in Sagebrush Steppe Projecting Future Streamflow in the Colorado River Basin Assessing the Impacts of Rapid Rainfall Shifts (“Whiplashes” and “Boomerangs”) on Freshwater Mussels in Central Texas Assessment of Available Climate Models and Projections for the Southwest Region Quantifying Future Precipitation in the South Central U.S. for Water Resources Planning Vulnerability of Lower-Elevation Aspen Forests to Altered Fire and Climate Dynamics: Assessing Risks and Developing Actionable Science Translating Existing Model Results to Aid in Resource Management Planning for Future Precipitation Extremes in Hawai‘i and Southeast Alaska