Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/25056
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: Crystallographic contribution to the vital effect in biogenic carbonates Mg/Ca thermometry
Author(s): Perez-Huerta, Alberto
Cusack, Maggie
Dalbeck, Paul
Contact Email: maggie.cusack@stir.ac.uk
Keywords: Brachiopod
calcite
c-axis
magnesium
mussel
sector zoning
Issue Date: Mar-2011
Date Deposited: 24-Feb-2017
Citation: Perez-Huerta A, Cusack M & Dalbeck P (2011) Crystallographic contribution to the vital effect in biogenic carbonates Mg/Ca thermometry. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 102 (1), pp. 35-41. https://doi.org/10.1017/S1755691011010036
Abstract: The processes involved in vital effects, defined as biological processes overriding environmental signals, are not well understood and this hampers the interpretation of environmental parameters such as seawater temperature. Insufficient knowledge is available about changes in physico-chemical parameters, in particular those related to crystallography, associated with biomineral formation and emplacement. This paper assesses the influence of crystallography on Mg2+ concentration and distribution in calcite biominerals of bivalved marine organisms, mussels and rhynchonelliform brachiopods, and considers the implications for Mg/Ca thermometry. In the mussel Mytilus edulis, changes in Mg2+ are not associated with crystallography; but in the brachiopod Terebratulina retusa, increases in Mg2+ concentrations (∼0.5-0.6 wt.%) are associated with the {0001} planes of calcite biominerals. A comparison between mussels and brachiopods with avian eggshells, which form at constant ambient temperature, also reveals that there is at least a common 0.1 wt. % variation in magnesium concentration in these calcite biomineral systems unrelated to temperature or crystallography. Results demonstrate that the integration of contextual crystallographic, biological and chemical information may be important to extract accurate environmental information from biominerals. Copyright © 2011 Royal Society of Edinburgh.
DOI Link: 10.1017/S1755691011010036
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