Landscapes
Landscapes
From boreal forests to coral reefs, the United States is home to a plethora of diverse ecosystems, each of which faces different challenges under climate change. CASC-supported scientists are examining how landscapes throughout the U.S. are being affected by changing temperature and precipitation patterns and how managers can best facilitate climate adaptation. Browse our projects below or use our Project Explorer database to explore our science on this topic.
Filter Total Items: 95
Predicting Sky Island Forest Vulnerability to Climate Change: Fine Scale Climate Variability, Drought Tolerance, and Fire Response
The sky island forests of the southwestern United States are one of the most diverse temperate forest ecosystems in the world, providing key habitat for migrating and residential species alike. Black bear, bighorn sheep, mule deer, and wild turkey are just a few of the species found in these isolated mountain ecosystems that rise out of the desert landscape. However, recent droughts have...
Projecting the Future of Headwater Streams to Inform Management Decisions
There is growing evidence that headwater stream ecosystems are especially vulnerable to changing climate and land use, but managers are challenged by the need to address these threats at a landscape scale, often through coordination with multiple management agencies and landowners. This project sought to provide an example of cooperative landscape decision-making by addressing the...
Science to Support Adaptive Landscape Planning and Decision Making for Gopher Tortoise Conservation
The gopher tortoise (Gopherus polyphemus) is a familiar species across the southeastern Coastal Plain, but its population has declined significantly over the decades. One reason is that much of its primary habitat, sparse stands of mature pine, has been replaced by development or agriculture. Another is that periodic ground fires, which are important for providing needed forage for the...
Tree Eaters: Predicting the Response of Herbivores to the Integrated Effects of Urban and Global Change
Climate in the southeastern U.S. is predicted to be changing at a slower rate than other parts of North America. However, land use change associated with urbanization is having a significant effect on wildlife populations and habitat availability. We sought to understand the effect of global warming on both beneficial and pest insects of trees. We used urban warming as a proxy for global...
Assessing Climate-Sensitive Ecosystems in the Southeastern U.S.
The southeastern U.S. contains a unique diversity of ecosystems that provide important benefits, including habitat for rare wildlife and plants, improved water quality, and recreation opportunities. Understanding how climate change will affect these ecosystems is vital for knowing how best to protect them and the services they supply. The goal of this project was to assess the climate...
Climate, Land Management and Future Wildlife Habitat in the Pacific Northwest
In the Pacific Northwest, land and resource managers strive to make decisions that benefit both natural and human communities, balancing ecological and economic demands including wildlife habitat, forest products, forage for grazing, clean water, and wildfire control. Climate change adds a layer of complexity to the planning process because of its uncertain effects on the environment. In...
Ecological Implications of Mangrove Forest Migration in the Southeastern U.S.
Coastal wetlands purify water, protect coastal communities from storms, sequester (store) carbon, and provide habitat for fish and wildlife. They are also vulnerable to climate change. In particular, changes in winter climate (warmer temperatures and fewer freeze events) may transform coastal wetlands in the northern Gulf of America, as mangrove forests are expected to expand their range...
Evaluating the Use of Models for Projecting Future Water Flow in the Southeast
Assessing the impact of flow alteration on aquatic ecosystems has been identified as a critical area of research nationally and in the Southeast U.S. This project aimed to address the Ecohydrology Priority Science Need of the SE CSC FY2012 Annual Science Work Plan by developing an inventory and evaluation of current efforts and knowledge gaps in hydrological modeling for flow-‐ecology...
Modeling and Predicting Future Changes in Snowfall and Snow Cover in Alaska
Snow is extremely important to a wide range of natural processes in Alaska. Snow cover helps regulate the earth’s temperature and stores water on the landscape. As it melts, snow hydrates the soil and replenishes the freshwater supplies of streams and lakes, providing water for vegetation, wildlife, and human activities such as agriculture and electricity generation. Understanding...
Monitoring Thermokarst on the Landscapes of Northern Alaska
Permafrost – the thick layer of permanently frozen soil found in Arctic regions – has been thawing rapidly over the past century due to climate change. When permafrost thaws unevenly, it produces thermokarst landscapes, irregular surfaces of small hills interspersed with hollows. The processes that produce thermokarst can lead to significant changes within the surrounding ecosystems...
Projecting Future Climate Effects on Cottonwood and Willow Seed Dispersal and Tree Regeneration in Western Riparian Forests
Throughout western North America, warming associated with climate change is leading to both earlier spring peak streamflows and earlier seed dispersal, potentially reducing seedling establishment and in turn reducing the quality of riparian (near-river) forests, which provide critical habitat for diverse birds, mammals, reptiles, amphibians, and insects, and food and shade for fish and...
Projecting the Future Encroachment of Woody Vegetation into Grasslands of the Northern Great Plains by Simulating Climate Conditions and Possible Management Actions
Maintaining the native prairie lands of the Northern Great Plains (NGP), which provide an important habitat for declining grassland species, requires anticipating the effects of increasing atmospheric carbon dioxide (CO2) concentrations and climate change on the region’s vegetation. Specifically, climate change threatens NGP grasslands by increasing the potential encroachment of native...