Global cooling initiated the Middle-Late Mississippian biodiversity crisis

During the Mississippian period, metazoan reefs and other marine faunas gradually recovered from the Late Devonian mass extinctions and reached a peak in the late Visean (~334–332 Ma). Faunal diversity started to decline from the latest Visean (~332–330 Ma) through Serpukhovian (~330–323 Ma), with s...

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Published in:Global and planetary change 2022-08, Vol.215, p.103852, Article 103852
Main Authors: Yao, Le, Jiang, Ganqing, Mii, Horng-sheng, Lin, Yifang, Aretz, Markus, Chen, Jitao, Qi, Yuping, Lin, Wei, Wang, Qiulai, Wang, Xiangdong
Format: Article
Language:English
Subjects:
Brachiopod
Late Paleozoic Ice Age
Late Visean
Metazoan reef
Oxygen isotope
Sciences of the Universe
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container_title Global and planetary change
container_volume 215
creator Yao, Le
Jiang, Ganqing
Mii, Horng-sheng
Lin, Yifang
Aretz, Markus
Chen, Jitao
Qi, Yuping
Lin, Wei
Wang, Qiulai
Wang, Xiangdong
description During the Mississippian period, metazoan reefs and other marine faunas gradually recovered from the Late Devonian mass extinctions and reached a peak in the late Visean (~334–332 Ma). Faunal diversity started to decline from the latest Visean (~332–330 Ma) through Serpukhovian (~330–323 Ma), with significant genera/species losses and ecosystem reconstruction. This Middle-Late Mississippian biodiversity crisis (M-LMBC) was thought to have been caused by global cooling associated with the late Paleozoic Ice Age (LPIA), but existing sedimentological and temperature proxy data suggest that the global cooling event—that marks the onset of the main glaciation phase of LPIA—happened either ~4 Myr before or ~ 1–5 Myr after the initial biodiversity decline at ~332 Ma. Here, we report oxygen isotope data of diagenetically screened, well-preserved brachiopod calcite (δ18Ocalcite) from late Visean-Serpukhovian (or Middle-Late Mississippian; ~334–323 Ma) strata in South China where biodiversity data are well documented. The δ18Ocalcite data reveal a ~ 2.0‰ positive shift from −4.6 ± 0.2‰ to −2.7 ± 0.5‰ with an estimated ~4.7–5.5 °C drop in sea surface temperature (SST) during ~332.5–331.5 Ma in the late Visean. This cooling event coincides with fast decline of metazoan reef abundance, followed by decrease of benthic faunal diversity. The δ18Ocalcite data, in combination with calibrated sedimentological and biodiversity data, demonstrate the coupling between late Visean (~332 Ma) onset of the main glaciation phase of the LPIA and initiation of the M-LMBC. •Brachiopod oxygen isotopes document a cooling event with ~4.7–5.5 °C drop in sea surface temperature during 332.5–331.5 Ma.•This cooling event coincides with fast decline of metazoan reef abundance and benthic faunal diversity.•Late Visean (~332 Ma) onset of the main glaciation phase of the late Paleozoic Ice Age initiated biodiversity crisis.
doi_str_mv 10.1016/j.gloplacha.2022.103852
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Faunal diversity started to decline from the latest Visean (~332–330 Ma) through Serpukhovian (~330–323 Ma), with significant genera/species losses and ecosystem reconstruction. This Middle-Late Mississippian biodiversity crisis (M-LMBC) was thought to have been caused by global cooling associated with the late Paleozoic Ice Age (LPIA), but existing sedimentological and temperature proxy data suggest that the global cooling event—that marks the onset of the main glaciation phase of LPIA—happened either ~4 Myr before or ~ 1–5 Myr after the initial biodiversity decline at ~332 Ma. Here, we report oxygen isotope data of diagenetically screened, well-preserved brachiopod calcite (δ18Ocalcite) from late Visean-Serpukhovian (or Middle-Late Mississippian; ~334–323 Ma) strata in South China where biodiversity data are well documented. 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subjects Brachiopod
Late Paleozoic Ice Age
Late Visean
Metazoan reef
Oxygen isotope
Sciences of the Universe
title Global cooling initiated the Middle-Late Mississippian biodiversity crisis
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