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Relationship between δ18O and minor element composition of Terebratalia transversa

Published online by Cambridge University Press:  01 September 2007

Maggie Cusack
Affiliation:
Department of Geographical and Earth Sciences, University of Glasgow, G12 8QQ Glasgow (Scotland), UK. E-mail: Maggie.Cusack@ges.gla.ac.uk
David Parkinson
Affiliation:
Department of Geographical and Earth Sciences, University of Glasgow, G12 8QQ Glasgow (Scotland), UK. E-mail: Maggie.Cusack@ges.gla.ac.uk
Alberto Pérez-Huerta
Affiliation:
Department of Geographical and Earth Sciences, University of Glasgow, G12 8QQ Glasgow (Scotland), UK. E-mail: Maggie.Cusack@ges.gla.ac.uk
Jennifer England
Affiliation:
Department of Geographical and Earth Sciences, University of Glasgow, G12 8QQ Glasgow (Scotland), UK. E-mail: Maggie.Cusack@ges.gla.ac.uk
Gordon B. Curry
Affiliation:
Department of Geographical and Earth Sciences, University of Glasgow, G12 8QQ Glasgow (Scotland), UK. E-mail: Maggie.Cusack@ges.gla.ac.uk
Anthony E. Fallick
Affiliation:
Scottish Universities Environmental Research Centre, East Kilbride G75 OQF (Scotland) UK

Abstract

With their extensive fossil record and shells of stable low-Mg calcite, rhynchonelliform brachiopods are attractive sources of climate information via seawater temperature proxies such as stable oxygen isotope composition. In Terebratalia transversa (Sowerby) there is a progression towards oxygen isotope equilibrium in the calcite of the innermost secondary layer. This study confirms the lack of any vital effects influencing oxygen isotope composition of T. transversa, even in specialised areas of the innermost secondary layer. Calcite Mg/Ca ratio is another potential seawater temperature proxy, that has the advantage of not being influenced by salinity. Mg concentrations measured by electron microprobe analyses indicate that there is no concomitant decrease in Mg concentration towards the inner secondary layer, associated with the progressive shift towards oxygen isotope equilibrium. Mg distribution is heterogeneous throughout the shell and correlates with that of sulphur, which may be a proxy for organic components, suggesting that some of the Mg may not be in the calcite lattice. It is essential therefore, to determine the chemical environment of the magnesium ions to avoid any erroneous temperature extrapolations in brachiopods or any other calcite biomineral.

Type
Research Article
Copyright
Copyright © Royal Society of Edinburgh 2008

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