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Title: Calcite/aragonite ratio fluctuations in Aptian rudist bivalves: Correlation with changing temperatures
Author: Pascual-Cebrian, Enrique
Götz, S.
Bover-Arnal, Telm
Skelton, P.W.
Gili, E.
Salas, Ramon (Salas Roig)
Stinnesbeck, W
Keywords: Estratigrafia seqüencial
Bivalves fòssils
Sequence stratigraphy
Fossil bivalves
Issue Date: Feb-2016
Publisher: Geological Society of America
Abstract: Understanding how bivalves responded to past temperature fluctuations may help us to predict specific responses of complex calcifiers to future climate change. During the late-Early Aptian, aragonite-rich rudist bivalves decreased in abundance in northern Tethyan carbonate platforms, while rudists with a thickened calcitic outer shell layer came to dominate those of Iberia. Seawater cooling and variations in calcium carbonate saturation states may have controlled this faunal turnover. However, our understanding of how rudist lineages responded to changing environmental conditions is constrained by a lack of quantitative data on the evolution of thickness, size, and mineralogy of the shell. This study is based on volumetric measurements of the shell and shows the transition in lineages of the family Polyconitidae from aragonite-rich mineralogy in the earliest Aptian, to low-Mg calcite-dominated mineralogy in the middle Aptian, returning to aragonite-dominated composition in the latest Aptian. The platform biocalcification crisis that occurred at the Early-Late Aptian boundary in the Tethys was marked by a relative increase of calcite and a decrease in skeletal thickness and commissural diameters. The highest calcite/aragonite (Cc/A) ratios in polyconitid rudists accompanied the late Aptian cold episode, and the lowest values were reached during the warmer intervals of the earliest and latest Aptian. These results imply a correlation between Cc/A ratio values and temperature and suggest that some bivalves adapted to less favorable calcification conditions by changing calcite and aragonite proportions of their bimineralic shells and decreasing skeletal thickness, thereby reducing the metabolic cost of shell growth. GeoRef Subject
Note: Versió postprint del document publicat a:
It is part of: Geology, 2016, vol. 44, num. 2, p. 135-138
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ISSN: 0091-7613
Appears in Collections:Articles publicats en revistes (Mineralogia, Petrologia i Geologia Aplicada)

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