Assistant Professor Yusuke Kuwahara of the School of Biological and Environmental Sciences gave a presentation at the international conference Goldschmidt 2025, held in Prague, Czech Republic, from July 6 to 11, 2025. Goldschmidt is the world’s largest annual international conference in geochemistry, gathering researchers and students worldwide to present the latest findings and engage in active discussions. This year’s conference hosted 4,361 participants and featured 14 major themes and 128 sessions.
At this conference, Dr. Kuwahara delivered an oral presentation on the changes in marine biological productivity during rapid warming events known as "Eocene hyperthermals," which occurred repeatedly during the early Eocene, approximately 56 to 53 million years ago. These hyperthermal events are considered to be palaeo-analogues for ongoing global warming and are therefore highlighted as key environmental changes in Earth’s history. Understanding how marine ecosystems responded to past warming events provides critical insights into the potential impacts of current and future climate change on ocean environments and ecosystems.
In his presentation, Dr. Kuwahara focused on a recently developed geochemical proxy of barium (Ba) isotopes. By applying Ba isotope analysis to sedimentary sequences recording Eocene hyperthermal events, his study suggested a possible decline in marine biological productivity associated with global warming. The novelty of this approach and the reported clear isotopic shifts drew significant attention from international researchers, and the presentation was followed by an active Q&A session.
In addition to his own presentation, Dr. Kuwahara attended numerous sessions, listened to keynote lectures by leading scientists, and engaged in fruitful discussions during poster sessions. Notably, he had valuable opportunities to exchange ideas with prominent researchers in the field, which would contribute to the future development of his work involving novel isotopic proxies. Furthermore, the conference allowed him to establish new connections with early career researchers, marking another important outcome of his participation in Goldschmidt 2025.