Simple ocean model predicts El Niño 15 months in advance
Researchers can now skillfully predict El Niño and La Niña 15 months ahead of time using observations of the ocean surface temperature and height.
American Samoa sea-level rise viewer available for public
The tool will be an essential component in future planning to assess the short and long-term impacts of rising seas and to minimize the risks to coastal communities.
$6.36M supports Pacific climate change resilience
Researchers will address pressing regional and community-specific climate challenges in Hawaiʻi and the U.S.-Affiliated Pacific Islands.
How the moon’s ‘wobble’ worsens coastal flooding
This editorial by University of Hawaiʻi at 惭ā苍辞补 Assistant Professor Philip R. Thompson was posted in The Hill on July 20, 2021.
Increased high-tide flooding projected for majority of U.S. coastlines
Sea-level rise and natural fluctuations in tidal range are anticipated to cause tipping points in the frequency of high-tide flooding.
New tool projects high-tide flooding in U.S. coastal locations
东精影业 Sea Level Center Director Phil Thompson developed a tool to assess how sea-level rise will affect the frequency of high-tide flooding in U.S. coastal locations.
Sea-level variability to increase with ocean warming
Sea level variability alters tidal cycles and enhances the risks of coastal flooding and erosion beyond changes associated with sea level rise.
Multiple flooding sources threaten Honolulu’s infrastructure
SOEST researchers found in the next few decades, sea-level rise will likely cause an increase in flooding in Honolulu’s urban core.
East-West Center awarded $477K to study climate, health and migration in Pacific Islands
The project will expand the knowledge about vulnerability to climate change in the Marshall Islands, particularly where climate stressors lead to health impacts.
Study says low-lying islands uninhabitable by mid-century
Researchers from the International Pacific Research Center say the combination of rising sea levels and wave-driven flooding will cause tremendous damage.