Dept. of Geosciences Colloquium: The geologic history of seawater δ18O
Dr. Itay Halevy, Weizmann Institute
Zoom: https://us02web.zoom.us/j/84082397568
Abstract:
The isotopic composition of O in seawater (δ18O) is a fundamental property of Earth’s oceans, which is key to paleoclimate reconstructions and to our understanding of the origin of water on Earth, the water-rock reactions that govern seawater chemistry, and the conditions under which life emerged. Despite more than five decades of research, the coupled long-term geologic history of seawater temperature and δ18O remains a topic of intense debate. The problem exists because the δ18O values measured in marine sedimentary rocks (e.g., carbonates, cherts) reflect both their temperature of formation and the δ18O of the seawater from which they formed. This duality has prevented a unique interpretation of a long-term secular increase in δ18O values recorded in marine sedimentary rocks, which can be used to infer either much warmer (>70°C) early oceans, much more 18O-depleted seawater, or a combination of the two. We addressed this problem with a new record of δ18O in iron oxides formed in shallow marine environments through time. The new record shows that the long-term secular increase observed in the δ18O values of various marine precipitates is due to enrichment of seawater in 18O rather than in a gradual cooling of Earth’s oceans. I will discuss possible drivers of the change in seawater δ18O and implications, including the inference that Earth’s climate has been mostly warm and stable over the past 3.5 billion years, implying the existence of efficient climate stabilization feedbacks. Finally, one of the most extreme climate episodes in Earth history, the Neoproterozoic “Snowball Earth” events, is recorded in some of our iron oxide samples, providing unique observational constraints on the hydrological cycle during these events.
Event Organizers: Dr. Roy Barkan and Dr. Asaf Inbal