South Atlantic deep-sea temperature evolution across the Pliocene-Pleistocene from clumped isotope thermometry
Autor: | Elena Domínguez Valdés, Ilja Kocken, Tobias Agterhuis, Inigo Müller, Noa Bode, Dirk Kroon, Lucas Lourens, Martin Ziegler |
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Rok vydání: | 2022 |
DOI: | 10.5194/egusphere-gc10-pliocene-56 |
Popis: | The deep ocean comprises a large and relatively stable heat reservoir in the climate system. Hence deep sea temperature (DST) records constitute an important pillar of knowledge in the study of past climate states. Furthermore, a promising link exists between DSTs and global mean surface temperatures (GMSTs) [1]. DST reconstructions are nevertheless hampered by idealistic assumptions surrounding the interpretation of widely-used proxies like the ratio of oxygen isotopes on benthic foraminifera (δ18Ob). One such uncertain variable key in the analysis of δ18Ob is the isotopic composition of paleo-seawater (δ18Osw). Deconvolving this signal into temperature and ice-volume components across the last 5 Ma is non-trivial. Attempts to resolve it have often relied on independent temperature constraints from foraminiferal Mg/Ca ratios that also involve added uncertainties regarding variations in ocean chemistry through time, as well as the need for species-specific calibrations. Carbonate clumped isotope thermometry (Δ47) can aid in overcoming these limitations since it is based on thermodynamic principles that govern the abundance of 13C-18O bonds within the crystal lattice, therefore granting it independence from estimations surrounding the composition of the precipitating fluid [2]. Recent clumped isotope DST records of the Eocene [3] and the Miocene [4] reveal significantly warmer ocean temperatures than traditionally accepted [5], suggesting a re-evaluation of the interpretation of δ18Ob records in the geological past. Here we present Δ47-based DST constraints of the last 5 Ma obtained from benthic foraminifera of ODP Site 1264 in the South Atlantic Ocean. Reconstructions covering the Pliocene-Pleistocene transition shed light on the global climatic change that followed the mid-Pliocene warm period and culminated in full glaciation of the Northern Hemisphere. In particular, our Pliocene DST data lies in closer agreement with recent GMSTs estimations [6] than δ18Ob-based DST would imply. [1] Valdes, P. J., et al. (2021). Climate of the Past, 17(4), 1483-1506. [2] Eiler, J.M. (2007), Earth Planet. Sci. Lett. 262, 309-327. [3] Agterhuis, T., et al. (2022), Commun Earth Environ 3, 39 [4] Modestou, S. E., et al. (2020) Paleoceanography and Paleoclimatology 35, e2020PA003927. [5] Westerhold, T., et al. (2020), Science, 369, 1383–1387 [6] McClymont, E. L., et al. (2020) Climate of the Past, 16(4), 1599-1615. |
Databáze: | OpenAIRE |
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