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Low-latitude sea-surface temperatures for the mid-Cretaceous and the evolution of planktonic foraminifera: Comment and reply

Low-latitude sea-surface temperatures for the mid-Cretaceous and the evolution of planktonic foraminifera: Comment and reply
Low-latitude sea-surface temperatures for the mid-Cretaceous and the evolution of planktonic foraminifera: Comment and reply
Isotopic data from exceptionally well preserved foraminifera show that the subtropical North Atlantic had sea surface temperatures (SSTs) between 30 and 31 °C during the late Albian and early Cenomanian. These temperatures were warmer than average modern temperatures in the tropical western Atlantic and support previous inferences based on diagenetically suspect material of Albian tropical SSTs of ∼30 °C. This finding is consistent with basic theories of oceanic thermal response in the tropics to the high atmospheric carbon dioxide levels during the middle-Cretaceous greenhouse. However, our data do not support the concept of a super-Tethyan region of hypersaline waters in the western North Atlantic during late Albian and early Cenomanian time, because seawater salinities substantially higher than modern ones would require significantly higher SSTs than those reported here. Isotopic analysis of mid-Cretaceous planktic foraminifera shows that Planomalina, Ticinella, and Biticinella grew in surface waters and provide isotopic proxies for SST, whereas deeper growing species include Hedbergella, Rotalipora, and Praeglobotruncana. None of these taxa display isotopic indications of photosymbiosis, suggesting that this ecology did not evolve in planktic foraminifera before the Late Cretaceous. Contrary to previous hypotheses, none of these species increased their depth habitat during their life cycles, unlike many extant planktic foraminifera. The rotaliporids may have been preferentially susceptible to extinction during oceanic anoxic events because they lived within or below the thermocline for most of their life cycles.
0.1130/0091-7613(1999)027<0857:LLSSTF>2.3.CO;2
0091-7613
857-858
Wilson, Paul
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
Norris, Richard D.
e78f39aa-2939-43e2-b285-37418fc53b32
Wilson, Paul
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
Norris, Richard D.
e78f39aa-2939-43e2-b285-37418fc53b32

Wilson, Paul and Norris, Richard D. (1998) Low-latitude sea-surface temperatures for the mid-Cretaceous and the evolution of planktonic foraminifera: Comment and reply. Geology, 27 (9), 857-858. (0.1130/0091-7613(1999)027<0857:LLSSTF>2.3.CO;2).

Record type: Article

Abstract

Isotopic data from exceptionally well preserved foraminifera show that the subtropical North Atlantic had sea surface temperatures (SSTs) between 30 and 31 °C during the late Albian and early Cenomanian. These temperatures were warmer than average modern temperatures in the tropical western Atlantic and support previous inferences based on diagenetically suspect material of Albian tropical SSTs of ∼30 °C. This finding is consistent with basic theories of oceanic thermal response in the tropics to the high atmospheric carbon dioxide levels during the middle-Cretaceous greenhouse. However, our data do not support the concept of a super-Tethyan region of hypersaline waters in the western North Atlantic during late Albian and early Cenomanian time, because seawater salinities substantially higher than modern ones would require significantly higher SSTs than those reported here. Isotopic analysis of mid-Cretaceous planktic foraminifera shows that Planomalina, Ticinella, and Biticinella grew in surface waters and provide isotopic proxies for SST, whereas deeper growing species include Hedbergella, Rotalipora, and Praeglobotruncana. None of these taxa display isotopic indications of photosymbiosis, suggesting that this ecology did not evolve in planktic foraminifera before the Late Cretaceous. Contrary to previous hypotheses, none of these species increased their depth habitat during their life cycles, unlike many extant planktic foraminifera. The rotaliporids may have been preferentially susceptible to extinction during oceanic anoxic events because they lived within or below the thermocline for most of their life cycles.

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Published date: 1 September 1998

Identifiers

Local EPrints ID: 468832
URI: http://eprints.soton.ac.uk/id/eprint/468832
DOI: 0.1130/0091-7613(1999)027<0857:LLSSTF>2.3.CO;2
ISSN: 0091-7613
PURE UUID: 74914fab-0956-4ce9-9d77-978eeba83594
ORCID for Paul Wilson: ORCID iD orcid.org/0000-0001-6425-8906

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Date deposited: 26 Aug 2022 16:52
Last modified: 17 Mar 2024 02:50

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Author: Paul Wilson ORCID iD
Author: Richard D. Norris

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