Projects by Region

Declining water levels in the Great Salt Lake are part of a larger trend of decreasing water availability in the Southwestern U.S. that presents significant challenges for people, animals, and ecosystems. One challenge is that as some lakes dry, newly exposed sediment containing heavy metals can become toxic dust that blows into populated areas. Increased air pollution and other effects of drying

Tallgrass prairies in the U.S. Southern Great Plains are threatened by the aggressive invasive plant Lespedeza cuneata, and climate change is expected to affect its spread in complex ways. Researchers supported by this South Central CASC project will use remote sensing, climate science, and ecological modelling to detect the plant, identify climate factors driving its spread, and identify future v

An invasive species is a species that is not native to a location and that rapidly grows and spreads in its new range, often damaging native plants and wildlife. At present, the southeastern USA harbors thousands of invasive plants and animals, which were introduced intentionally through the plant and pet trade or unintentionally through other forms of commercial trade. Many of these invasive spec

Climate change is expected to worsen the spread of invasive vines in the Southeast, where they disrupt ecosystems and damage human-built systems like agriculture and infrastructure. Researchers supported by this Southeast CASC project will combine species distribution models and remote sensing to improve predictions of vine spread by including often-overlooked biotic factors like host plants and c

Project Overview Palmyra Atoll National Wildlife Refuge (NWR) is a critical nesting site for seabirds in the central Pacific Ocean, with ecosystems that are regularly impacted by the El Niño Southern Oscillation (ENSO). Researchers supported by this Pacific Islands CASC project aim to understand how past ENSO-driven climate variability and human activities have affected vegetation and wildlife. T

Project Overview As climate change intensifies, accurately forecasting regional flood, drought, and heat risks is critical for planning, but current global climate models lack the resolution needed for useful local predictions. Researchers supported by this Pacific Islands CASC project will use generative artificial intelligence (AI) to create high-resolution precipitation maps and flood risk est

Project Overview The Rusty Patched Bumble Bee, and other native bees and pollinators, are declining due to climate change, habitat loss, and other stressors like pathogens and pesticide-use. Researchers supported by this Midwest CASC project will study how certain stressors interact to affect the geographic distribution of Rusty Patched Bumble Bees, using mapping techniques and future climate data

Much of the cranberry bog farmland in Massachusetts used to be Atlantic white cedar ecosystems, which provide important habitat, water filtration, and cooling effects on the landscape. Researchers supported by this Northeast CASC project will experiment with modern restoration strategies and integrate Indigenous cultural stewardship practices to build and sustain climate-resilient Atlantic white c

Project Overview The Fort Berthold Indian Reservation faces challenges in maintaining stream health due to recent extreme weather events, oil and gas development, and row crop expansion. Researchers supported by this North Central CASC project will assess how these changes affect stream health while providing career development for undergraduate researchers from Nueta Hidatsa Sahnish College (NHSC

The Southwest Climate Adaptation Science Center supports conservation and management of the Southwest’s natural resources and cultural heritage by building partnerships between scientists and decision-makers, fostering development of research products to inform decisions, and assisting American Indian communities in adapting to climate change in the southwestern United States. Our vision it to

Virtually all species are experiencing the effects of modern climate change. Climate-induced extinction rates are accelerating, and up to one-sixth of species are predicted to go extinct by the end of this century. Given the unprecedented rate of modern climate change, species will be increasingly unable to shift in lockstep with emerging climate spaces, and as a result, phenotypic variation (e.g.

Project Overview Sea-level rise, stronger storms, and coral reef bleaching events occurring with climate change threaten infrastructure, livelihoods, and cultural practices in Hawai'i. Researchers supported by this Pacific Islands CASC project will integrate Indigenous Knowledge and scientific research to co-produce climate adaptation strategies and conservation guidance for the Kealakekua commun