Paleoenvironmental Changes at ODP Site 702 (South Atlantic): Anatomy of the Middle Eocene Climatic Optimum
Abstract
The Middle Eocene Climatic Optimum (MECO) was an unusual global warming event that interrupted the long‑term Eocene cooling trend ca. 40 Ma. Here we present new high‑resolution bulk and benthic isotope records from South Atlantic ODP Site 702 to characterize the MECO at a high latitude setting. The MECO event, including early and peak warming as well as recovery to background levels, had an estimated ~300 Kyr duration (~40.51 to ~40.21 Ma). Cross‑plots (δ18O vs. δ13C) suggest that the mechanisms driving coupled changes in O and C isotope values across the MECO were weaker or absent before the event. The paleoecological response has been evaluated by quantitative analysis of calcareous nannofossils and benthic foraminifera assemblages. We document a shift in the biogeographical distribution of warm and temperate calcareous nannoplankton taxa, which migrated toward higher latitudes due to increased temperatures during the MECO. Conversely, changes in the organic matter flux to the seafloor appear to have controlled benthic foraminifera dynamics at Site 702. Benthic phytodetritus exploiting taxa increased in abundance coinciding with a positive δ13C excursion, ~150 Kyr before the start of the δ18O negative excursion that marks the start of MECO warming. Our data suggest that paleoecological disturbance in the deep sea predates MECO δ18O excursion and that it was driven by changes in the type and/or amount of organic matter reaching the seafloor rather than by increased temperature.Key Points High‑resolution C and O isotope and XRF data allowed detailed identification of the MECO at Site 702, and suggest a duration of ~300 kyr Benthic phytodetritus taxa proliferation and a positive C isotopic excursion predate the start of MECO, suggesting changes in food supply Increasing warm‑water calcareous nannoplankton taxa during the MECO indicates migration toward higher latitudes due to rising temperature
- Publication:
-
Paleoceanography and Paleoclimatology
- Pub Date:
- December 2019
- DOI:
- 10.1029/2019PA003806
- Bibcode:
- 2019PaPa...34.2047R