North Atlantic surface ocean warming and salinization in response to middle Eocene greenhouse warming

van der Ploeg, R.; Cramwinckel, M.J.; Kocken, I.J.; Leutert, T.J.; Bohaty, S.M.; Fokkema, C.D.; Hull, P.M.; Meckler, A.N.; Middelburg, J.; Müller, I.A.; Penman, D.E.; Peterse, F; Reichart, G.-J.; Sexton, P.F.; Vahlenkamp, M.; De Vleeschouwer, D.; Wilson, P.A.; Ziegler, M.; Sluijs, A.

doi:/10.1126/sciadv.abq0110

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North Atlantic surface ocean warming and salinization in response to middle Eocene greenhouse warming

van der Ploeg, R.; Cramwinckel, M.J.; Kocken, I.J.; Leutert, T.J.; Bohaty, S.M.; Fokkema, C.D.; Hull, P.M.; Meckler, A.N.; Middelburg, J.; Müller, I.A.; Penman, D.E.; Peterse, F; Reichart, G.-J.; Sexton, P.F.; Vahlenkamp, M.; De Vleeschouwer, D.; Wilson, P.A.; Ziegler, M.; Sluijs, A. (2023). North Atlantic surface ocean warming and salinization in response to middle Eocene greenhouse warming. Science Advances 9(4): eabq0110. https://dx.doi.org/10.1126/sciadv.abq0110

In: Science Advances. AAAS: New York. e-ISSN 2375-2548, meer

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van der Ploeg, R. Cramwinckel, M.J. Kocken, I.J. Leutert, T.J. Bohaty, S.M. Fokkema, C.D. Hull, P.M.	Meckler, A.N. Middelburg, J., meer Müller, I.A. Penman, D.E. Peterse, F Reichart, G.-J., meer	Sexton, P.F. Vahlenkamp, M. De Vleeschouwer, D., meer Wilson, P.A. Ziegler, M. Sluijs, A.

Abstract

Quantitative reconstructions of hydrological change during ancient greenhouse warming events provide valuable insight into warmer-than-modern hydrological cycles but are limited by paleoclimate proxy uncertainties. We present sea surface temperature (SST) records and seawater oxygen isotope (δ¹⁸O_sw) estimates for the Middle Eocene Climatic Optimum (MECO), using coupled carbonate clumped isotope (Δ₄₇) and oxygen isotope (δ¹⁸O_c) data of well-preserved planktonic foraminifera from the North Atlantic Newfoundland Drifts. These indicate a transient ~3°C warming across the MECO, with absolute temperatures generally in accordance with trace element (Mg/Ca)–based SSTs but lower than biomarker-based SSTs for the same interval. We find a transient ~0.5‰ shift toward higher δ¹⁸O_sw, which implies increased salinity in the North Atlantic subtropical gyre and potentially a poleward expansion of its northern boundary in response to greenhouse warming. These observations provide constraints on dynamic ocean response to warming events, which are consistent with theory and model simulations predicting an enhanced hydrological cycle under global warming.

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