NPS Photo
Along with changes to wind, waves, and currents, sea level rise is changing the physical structure of important coastal landforms and habitats. Sea level rise threatens mainland beaches and rocky shorelines along coasts, where increasing water levels can flood or isolate habitats. Increased flooding of coastal areas can threaten or destroy breeding grounds, nesting areas, and habitats for many marine animals. These animals include sea birds, sea turtles, and even sea lions, which haul-out and pup on low-lying beaches. At Biscayne National Park (Florida) and Buck Island Reef National Monument (Virgin Islands), park scientists are collaborating with non-profit organizations and university researchers to monitor and asses the populations of threatened beach-nesting animals.
In addition to damaging beach habitats and barrier islands, rising seas are allowing saltwater to move into freshwater ecosystems, a process known as “saltwater intrusion,” which can threaten communities of freshwater plants. In Everglades National Park in Florida, freshwater marshes host a diverse array of species that are not adapted to the salty conditions of ocean water, thoughsome of the Everglades’ species actually benefit from the intrusion of saltwater, like the mangrove, which grows in the area where saltwater and freshwater meet. Sea level rise and the increase of salt water that it brings with it allow the mangroves to expand their ranges northward, but this expansion reduces the overall area of freshwater marshes, endangering the survival of these unique freshwater plant communities.
Another problem with sea level rise is that it threatens valuable cultural resources. As sea levels rise, archaeologists and anthropologists must work to preserve coastal cultural history that is in danger of being lost to the encroaching ocean waters. Among the many national parks whose cultural, historical, and archaeological resources are threatened by rising seas is the remote Alaskan Cape Krusenstern National Monument. To learn more about the threatened archaeological resources at Cape Krusenstern, follow the link below.
Due to the variety of ways in which sea level rise can affect coastal parks along the shores of the Atlantic, Pacific, Arctic, and Gulf of America, the National Park Service is researching and monitoring the possible impacts across the nation, using the collected data to improve future planning and decision-making. The parks participating in this research include national seashores such as Assateague Island, Fire Island, and Cape Cod, urban parks such as Golden Gate and Gateway National Recreational Areas, and more remote Pacific parks such as Kaloko-Honokōhau and Kenai Fjords. You can help protect these parks by learning more about the science of sea level rise, educating others, and even participating in local parks’ citizen science efforts.
For more information on sea level rise, explore the links below.
For Further Reading
Changing Landscapes in Assateague Island National SeashoreSea Level Rise in the Everglades
Sea Level Rise and Cape Krusenstern National Monument
Learn More
- Cuyahoga Valley National Park
Cuyahoga’s Floodplain Panel
- Golden Gate National Recreation Area
Mori Point and Climate Change
- Type: Article
- Locations: Arches National Park, Aztec Ruins National Monument, Bandelier National Monument, Bent's Old Fort National Historic Site, Big Bend National Park, more »
- Offices: Chihuahuan Desert Inventory & Monitoring Network, Climate Change, Climate Change Response Program, Inventory and Monitoring Division, Mediterranean Coast Inventory & Monitoring Network, more »
When the climate changes enough, the vegetation communities growing in any given place will also change. Under an expanded bimodal climate zone, some plant communities in western national parks are more likely to change than others. National Park Service ecologists and partners investigated the future conditions that may force some of this change. Having this information can help park managers decide whether to resist, direct, or accept the change.
- Cuyahoga Valley National Park
Climate Impacts in Cuyahoga Valley
- Type: Article
- Locations: Cuyahoga Valley National Park
Northeast Ohio gets seven more inches of annual precipitation than it did in 1960, according to the US Army Corps of Engineers. This often falls as rain during storms that have become more frequent and more intense. Temperatures are warming too. Climate change affects all aspects of life in the valley, across America, and globally. Learn more about how Cuyahoga Valley and other national parks are responding with a Resist-Accept-Direct (RAD) approach.
- Cape Cod National Seashore
Study of Macroinvertebrates Finds Emerging Resilience After Massive Coastal Breach
- Acadia National Park
After the Storm: Mapping Changes in Bass Harbor Marsh
- Type: Article
- Locations: Acadia National Park
Multiple coastal storms in January and March 2024 damaged natural and cultural resources across Acadia National Park, including Bass Harbor Marsh. The NOAA Effects of Sea Level Rise (ESLR) Program provided funding to the National Park Service and Nearview LLC to collect, via aerial drone or Uncrewed Aerial System (UAS), data on marsh surface elevation (lidar), and color and multispectral imagery for Bass Harbor Marsh and the adjacent treeline.
- Mammoth Cave National Park
Green River Ferry navigational cable system damaged during flooding at Mammoth Cave National Park
- Type: News
- Locations: Mammoth Cave National Park
- Date Released: 2025-04-16
Historical and Future Climate Patterns at Rocky Mountain National Park: Some Biological Implications
- Type: Article
- Locations: Rocky Mountain National Park
- Offices: Inventory and Monitoring Division, Natural Resource Stewardship and Science Directorate, Rocky Mountain Inventory & Monitoring Network
Climate change has the potential to profoundly alter national parks, affecting plants, animals, and cultural resources. During this time of unusually rapid change, proactive management—planning ahead—has a better chance of success than reacting to crises after they arise. This article compares historical climate patterns at Rocky Mountain National Park with future projected conditions to help park managers proactively plan for climate change.
- Type: Article
- Offices: Arctic Inventory & Monitoring Network, Central Alaska Inventory & Monitoring Network
Read the abstract and get the link to an article published in Environmental Research Letters that connects vegetation shift to warming Arctic and Boreal soils under vegetation. Kropp, H., M. M. Loranty, S. M. Natali, A. L. Kholodov, A. V. Rocha, … J. A. O’Donnell … et al. 2020. Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems. Environmental Research Letters.
Last updated: February 25, 2025