Shell chemistry of the boreal Campanian bivalve Rastellum diluvianum (Linnaeus, 1767) reveals temperature seasonality, growth rates and life cycle of an extinct Cretaceous oyster

N. J. de Winter, Clements V. Ullmann, A. M. Sørensen, Nicolas Thibault, S. Goderis, S. J. M. Van Malderen, Christophe Snoeck, Stijn Goolaerts, Frank Vanhaecke, Philippe Claeys

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Samenvatting

The Campanian age (Late Cretaceous) is characterized by a warm greenhouse climate with limited land-ice volume. This makes this period an ideal target for studying climate dynamics during greenhouse periods, which are essential for predictions of future climate change due to anthropogenic greenhouse gas emissions. Well-preserved fossil shells from the Campanian (<span classCombining double low line"inline-formula">±78</span>&thinsp;Ma) high mid-latitude (50<span classCombining double low line"inline-formula">ĝ&circ; </span>&thinsp;N) coastal faunas of the Kristianstad Basin (southern Sweden) offer a unique snapshot of short-term climate and environmental variability, which complements existing long-term climate reconstructions. In this study, we apply a combination of high-resolution spatially resolved trace element analyses (micro-X-ray fluorescence - <span classCombining double low line"inline-formula">μ</span>XRF - and laser ablation inductively coupled plasma mass spectrometry - LA-ICP-MS), stable isotope analyses (IRMS) and growth modeling to study short-term (seasonal) variations recorded in the oyster species Rastellum diluvianum from the Ivö Klack locality. Geochemical records through 12 specimens shed light on the influence of specimen-specific and ontogenetic effects on the expression of seasonal variations in shell chemistry and allow disentangling vital effects from environmental influences in an effort to refine paleoseasonality reconstructions of Late Cretaceous greenhouse climates. Growth models based on stable oxygen isotope records yield information on the mode of life, circadian rhythm and reproductive cycle of these extinct oysters. This multi-proxy study reveals that mean annual temperatures in the Campanian higher mid-latitudes were 17 to 19&thinsp;<span classCombining double low line"inline-formula">ĝ&circ; </span>C, with winter minima of <span classCombining double low line"inline-formula">ĝ&circ;1/413</span>&thinsp;<span classCombining double low line"inline-formula">ĝ&circ; </span>C and summer maxima of 26&thinsp;<span classCombining double low line"inline-formula">ĝ&circ; </span>C, assuming a Late Cretaceous seawater oxygen isotope composition of <span classCombining double low line"inline-formula">-</span>1&thinsp;‰ VSMOW (Vienna standard mean ocean water). These results yield smaller latitudinal differences in temperature seasonality in the Campanian compared to today. Latitudinal temperature gradients were similar to the present, contrasting with previous notions of "equable climate" during the Late Cretaceous. Our results also demonstrate that species-specific differences and uncertainties in the composition of Late Cretaceous seawater prevent trace element proxies (<span classCombining double low line"inline-formula">Mgĝ&circ;•Ca</span>, <span classCombining double low line"inline-formula">Srĝ&circ;•Ca</span>, <span classCombining double low line"inline-formula">Mgĝ&circ;•Li</span> and <span classCombining double low line"inline-formula">Srĝ&circ;•Li</span>) from being used as reliable temperature proxies for fossil oyster shells. However, trace element profiles can serve as a quick tool for diagenesis screening and investigating seasonal growth patterns in ancient shells.

Originele taal-2English
Pagina's (van-tot)2897-2922
Aantal pagina's26
TijdschriftBiogeosciences
Volume17
Nummer van het tijdschrift11
DOI's
StatusPublished - 3 jun 2020

Bibliografische nota

Funding Information:
Acknowledgements. The authors would like to thank Johan Vellekoop and Andrew Johnson for their review, which helped improve the paper, as well as the editor, Aninda Mazumdar, for guiding the review process. This work was made possible with help of an IWT doctoral fellowship (grant no. IWT700) and FWO postdoctoral grant (grant no. 12ZB220N) awarded to Niels J. de Winter. Niels J. de Winter and Philippe Claeys also acknowledge funding by the VUB Strategic Research grant. Instrumentation at the VUB was funded by Hercules infrastructure grants (grant nos. HERC09 and HERC46). The authors acknowledge financial and logistic support from the Flemish Research Foundation (FWO; research project G017217N) and Teledyne CETAC Technologies (Omaha, NE, USA) as well as support from VUB Strategic Research. Stijn Goolaerts is funded by a Belspo BRAIN project (grant no. BR/175/A2/CHICXULUB). Nicolas Thibault is funded by Carlsbergfondet (grant no. CF16-0457). The authors would like to thank David Verstraeten for his help with stable isotope analyses. We thank Bart Lippens for assisting sample preparation and Joke Belza for help with the LA-ICP-MS analyses. Thanks are due to Julien Cilis (RBINS) for his assistance with SEM imaging. The authors wish to thank Emily Judd for discussions about her growth rate model for bivalve shells and Roger Barlow for his assistance in handling strontium isotope measurements with asymmetric error distributions.

Funding Information:
Financial support. This research has been supported by the Flem-

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© 2020 Copernicus GmbH. All rights reserved.

Copyright:
Copyright 2020 Elsevier B.V., All rights reserved.

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