Periodic Reporting for period 4 - C4T (Climate change across Cenozoic cooling steps reconstructed with clumped isotope thermometry)
Okres sprawozdawczy: 2020-02-01 do 2021-01-31
In this project, we focused a new kind of temperature proxy, the carbonate ‘clumped isotope’ thermometer, that can overcome these obstacles, because it is largely independent of assumptions.
We used the method on the carbonate minerals making up the minute shells preserved in ocean sediments, to derive robust reconstructions of past temperatures in the surface and deep ocean, as well as global ice volume, far back in time. However, the technique has in the past required very large amounts of sample, limiting widespread application to reconstruct past temperatures in the ocean.
In this project, we first focused on improving the method for reconstructions of ocean temperature. We were able to significantly decrease required sample amounts, and could show that clumped isotope thermometry in microfossil shells reliably records ocean temperature, and that the signal is preserved while the shells are stored in ocean sediments over many million of years. We have then applied the method and derived new deep and surface ocean temperature records covering three periods of major climate change, including the establishment of ice sheets in the southern and northern hemispheres. Our data show that during these periods, the deep ocean functioned differently from today, as we often found unexpectedly warm and variable temperatures. These results already fill some important knowledge gaps and will pave the way for future applications of this proxy to more locations and time periods, to derive a more complete picture of past climate changes that allows us to better understand the climate system and predict its behavior in the future.
In the second half of the project we have been applying the method to reconstruct changes in ocean temperature across the most pronounced climate events of the last 50 million years. During all three intervals we studied (35 million years ago, 14 million years ago, and 3 million years ago), large reorganizations happened in the climate system, including the establishment of major ice sheets, but the exact nature of the climate changes are not well understood. Our results in some cases confirmed previous interpretations, which adds confidence to those. We have also seen some surprises, for example with deep ocean temperatures varying more than previously appreciated. Several of these latest findings are still being prepared for publication, and they might change our view on the role of the ocean in these global climate events. Overall, this project has greatly helped establishing clumped isotope thermometry as a reliable tool for reconstructing ocean temperatures. Reconstructions from this project and future work improve our understanding of the climate system under conditions different than those experienced by humans so far.