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Environmental and physiological influences on isotopic and elemental compositions of brachiopod shell calcite: Implications for the isotopic evolution of Paleozoic oceans

Environmental and physiological influences on isotopic and elemental compositions of brachiopod shell calcite: Implications for the isotopic evolution of Paleozoic oceans
Environmental and physiological influences on isotopic and elemental compositions of brachiopod shell calcite: Implications for the isotopic evolution of Paleozoic oceans
Brachiopods from the Demissa Bed (Middle Devonian, Hamilton Group) biologically regulated the incorporation of Mg, Sr and Na into their shell calcite. Significant taxonomic differences in the elemental contents of three species (Athyris spiriferoides, Mediospirifer audacula and Mucrospirifer mucronatus) may be related to differences in calcification processes. In contrast, no significant difference or “vital effects” were observed between the isotopic values of Mediospirifer audacula and Athyris spiriferoides from Erie (?18O=0.03‰, p=0.949; ?13C=0.76‰, p=0.083) and Genessee Counties (?18O=0.39‰, p=0.471; ?13C=0.06‰, p=0.854). This suggests that these brachiopods did not exert a biological control over their isotopic compositions, and that their shell calcites reflect ambient physicochemical conditions.

Isotopic compositions in unaltered shell calcites of brachiopods from Genessee County, which was close to the basin depocentre, are heavy for carbon (?13C, View the MathML source=+5.01‰, PDB) and oxygen (?18C, View the MathML source=?2.85‰, PDB) compared to the species sampled at the basin's edge (Erie County; (?13C, View the MathML source=+2.79‰, PDB; ?18O, View the MathML source=?3.83‰, PDB). There is a significant separation in isotopic values between the deeper- and shallower-water brachiopods of the basin ((?18O=0.98‰, p=0.0005; ?13C=2.22‰, p=0.0005). The ?18O variation suggests a temperature/salinity change with water depth, whereas the change in ?13C composition probably records an enrichment /depletion of organic matter with water depth. This observation has significant implications for Paleozoic ocean isotopic-evolution studies, because many global changes in marine ?18O and ?13C are based on isotopic shifts of similar magnitude.
0168-9622
67-78
Bates, Nicholas R.
954a83d6-8424-49e9-8acd-e606221c9c57
Brand, Uwe
ef28386d-65b4-4c15-ae1e-110c524db09f
Bates, Nicholas R.
954a83d6-8424-49e9-8acd-e606221c9c57
Brand, Uwe
ef28386d-65b4-4c15-ae1e-110c524db09f

Bates, Nicholas R. and Brand, Uwe (1991) Environmental and physiological influences on isotopic and elemental compositions of brachiopod shell calcite: Implications for the isotopic evolution of Paleozoic oceans. Chemical Geology: Isotope Geoscience section, 94 (1), 67-78. (doi:10.1016/0168-9622(91)90041-T).

Record type: Article

Abstract

Brachiopods from the Demissa Bed (Middle Devonian, Hamilton Group) biologically regulated the incorporation of Mg, Sr and Na into their shell calcite. Significant taxonomic differences in the elemental contents of three species (Athyris spiriferoides, Mediospirifer audacula and Mucrospirifer mucronatus) may be related to differences in calcification processes. In contrast, no significant difference or “vital effects” were observed between the isotopic values of Mediospirifer audacula and Athyris spiriferoides from Erie (?18O=0.03‰, p=0.949; ?13C=0.76‰, p=0.083) and Genessee Counties (?18O=0.39‰, p=0.471; ?13C=0.06‰, p=0.854). This suggests that these brachiopods did not exert a biological control over their isotopic compositions, and that their shell calcites reflect ambient physicochemical conditions.

Isotopic compositions in unaltered shell calcites of brachiopods from Genessee County, which was close to the basin depocentre, are heavy for carbon (?13C, View the MathML source=+5.01‰, PDB) and oxygen (?18C, View the MathML source=?2.85‰, PDB) compared to the species sampled at the basin's edge (Erie County; (?13C, View the MathML source=+2.79‰, PDB; ?18O, View the MathML source=?3.83‰, PDB). There is a significant separation in isotopic values between the deeper- and shallower-water brachiopods of the basin ((?18O=0.98‰, p=0.0005; ?13C=2.22‰, p=0.0005). The ?18O variation suggests a temperature/salinity change with water depth, whereas the change in ?13C composition probably records an enrichment /depletion of organic matter with water depth. This observation has significant implications for Paleozoic ocean isotopic-evolution studies, because many global changes in marine ?18O and ?13C are based on isotopic shifts of similar magnitude.

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Published date: 1 November 1991
Organisations: Ocean Biochemistry & Ecosystems

Identifiers

Local EPrints ID: 358412
URI: http://eprints.soton.ac.uk/id/eprint/358412
DOI: doi:10.1016/0168-9622(91)90041-T
ISSN: 0168-9622
PURE UUID: 873076fb-516f-49e0-a5d4-736b719f1729

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Date deposited: 04 Oct 2013 13:29
Last modified: 14 Mar 2024 15:04

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Author: Nicholas R. Bates
Author: Uwe Brand

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