KAUST alumnus Thomas DeCarlo studies coral reefs using sclerochronology and other techniques like carbonate geochemistry and Raman spectroscopy. He analyzes coral cores to understand their growth and response to ocean warming and acidification. DeCarlo emphasizes the importance of coral reefs for marine biodiversity and coastal protection. Why it matters: This research highlights KAUST's contribution to marine science and the critical need to understand and protect coral reefs in the face of climate change, especially in regions like the Red Sea.
KAUST researchers have recreated a 1917 coral reef survey in American Samoa to analyze a century of reef change. Marine biologist Alfred Mayor's original survey documented the reefs surrounding Pago Pago Harbor. The resurveyed data reveals patterns useful for reef management and protection amid declining coral reefs worldwide. Why it matters: This long-term study provides critical insights into coral reef resilience and the impact of climate change, informing conservation efforts in the Red Sea and beyond.
KAUST Discovery Professor Aranda's team has been researching coral adaptation to temperature and ocean acidification. The research is focused on the transgenerational aspect of this adaptation using controlled environments. The research has been ongoing for the past two years. Why it matters: Understanding the epigenetic mechanisms of climate resilience in corals is crucial for conservation efforts in the Red Sea and beyond.
KAUST Ph.D. student Matt Tietbohl attended the 11th International Conference on the Applications of Stable Isotope Techniques to Ecological Studies (IsoEcol) in Chile. Over 250 scientists from 34 countries participated in talks and workshops focused on stable isotope analysis in ecology. Researchers presented findings on diverse applications, from human nutrition to the origins of bodies at Stonehenge. Why it matters: Although not directly AI-related, KAUST's participation in international scientific conferences highlights its multidisciplinary research environment and global engagement.
A KAUST-led team used acoustic technology and net sampling to explore ocean depths in 146 locations worldwide. They found that the biomass of pelagic organisms in the deep sea is much larger than previously thought, especially below productive waters. Deep-sea fauna migrates to shallower areas to feed, transporting carbon to the deep sea. Why it matters: This suggests the ocean's carbon pump is more effective than previously understood, with implications for climate change mitigation strategies.
KAUST hosted a coral training workshop led by Dr. Francesca Benzoni for marine scientists and professionals. Participants from NEOM and The Red Sea Development Company learned to identify Red Sea coral species. The workshop aimed to bridge a knowledge gap about endemic Red Sea corals, which are easily confused with corals from other regions. Why it matters: The training supports Saudi Arabia's 2030 vision to balance tourism, economic growth, and the protection of the Red Sea's unique marine resources.