KAUST and the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) are collaborating to research the Red Sea's shallow reef and deep-water environments. The partnership utilizes Japanese specialty equipment and the KAUST-owned research vessel RV Thuwal, with funding from the Japanese Ministry of Economy, Trade and Industry (METI) and KAUST. The initiative will address critical data gaps about the Red Sea and provide information for government regulations. Why it matters: This collaboration will advance understanding of the Red Sea's unique environment, relevant to Saudi Arabia's giga-projects and environmental protection efforts.
KAUST's Ibn Sina Distinguished Professor Carlos Duarte has been awarded the prestigious Japan Prize for his pioneering research on blue carbon and marine ecosystems. Duarte's work demonstrated the significance of marine ecosystems like seagrasses, mangroves, and salt marshes in sequestering and storing carbon dioxide. He coined the term 'blue carbon' and has advised Vision2030 initiatives. Why it matters: This award recognizes the importance of KAUST's research in marine conservation and highlights Saudi Arabia's growing role in ocean-based climate change solutions.
KAUST Professor of Electrical Engineering Kazuhiro Ohkawa has been elected as a Fellow of the Japan Society of Applied Physics (JSAP). JSAP recognized Ohkawa for his contributions to the development of wide bandgap semiconductor epitaxial growth and optical devices. Ohkawa's research at KAUST focuses on energy-conversion phenomena for sustainability, including doping technologies, MOCVD for nitride semiconductors, and nitride photocatalysts. Why it matters: Recognition of KAUST faculty in international societies raises the university's profile and highlights its contributions to applied physics and sustainable energy research.
KAUST and Japan's NHK have signed an agreement for NHK to film the Red Sea in 8K high-definition as part of the "Deep Ocean" documentary series. The filming will be coordinated with researchers from KAUST's Red Sea Research Center, covering a range of subjects from coral reefs to deep-sea brine pools. The collaboration, initiated in 2019, was delayed due to the COVID-19 pandemic. Why it matters: This partnership will showcase the Red Sea's unique biodiversity and KAUST's marine research capabilities to a global audience, highlighting Saudi Arabia's focus on environmental research and its Red Sea giga-projects.
KAUST Ph.D. student Raid AlRowais won the best paper award at the 11th International Meeting on Advances in ThermoFluids in Japan. The conference took place at Kyushu University. AlRowais received the award from Professor Takahiko Miyazaki. Why it matters: This award recognizes promising research and talent at KAUST in thermal and fluid sciences.
KAUST's Professor Carlos M. Duarte has been awarded the Japan Prize for his research on blue carbon ecosystems and their role in climate solutions. Duarte's work has demonstrated that these ecosystems, though small, store a large percentage of carbon in marine sediments. He has also advised Saudi Arabia on marine conservation and influenced global ocean policy. Why it matters: This award highlights the importance of KAUST's contributions to sustainability research and marine conservation, aligning with Saudi Arabia's Vision 2030 and the Saudi Green Initiative.
KAUST Professor Carlos Duarte reflects on his ten years in Saudi Arabia after receiving the Japan Prize for his work on blue carbon. Duarte's research focuses on the role of oceans in combating climate change, particularly through the conservation of coastal ecosystems. Since joining KAUST in 2015, he has advised the Saudi government on environmentally friendly development, advocating for blue carbon strategies. Why it matters: Duarte's work is helping to shift perspectives on the ocean economy in the region, encouraging investment in marine ecosystem conservation and sustainability.
KAUST, Tufts, and JIHS researchers created pangenome graphs using Saudi and Japanese samples, named JaSaPaGe. These graphs address the underrepresentation of these populations in existing pangenome databases, which are used as references for understanding individual DNA. The population-specific pangenomes are expected to improve variant calling and diagnostic accuracy for genetic disorders in these groups. Why it matters: This work promotes precision medicine and reduces diagnostic gaps for underrepresented populations by providing more relevant genetic baselines.