Mesocrystalline architecture in hyaline foraminifer shells indicates a non‐classical crystallisation pathway
Mesocrystalline architecture in hyaline foraminifer shells indicates a non‐classical crystallisation pathway
Calcareous foraminifer shells (tests) represent one of the most important archives for paleoenvironmental and paleoclimatic reconstruction. To develop a mechanistic understanding of the relationship between environmental parameters and proxy signals, knowledge of the fundamental processes operating during foraminiferal biomineralization is essential. Here, we apply microscopic and diffraction-based methods to address the crystallographic and hierarchical structure of the test wall of different hyaline foraminifer species. Our results show that the tests are constructed from micrometer-scale oriented mesocrystals built of nanometer-scale entities. Based on these observations, we propose a mechanistic extension to the biomineralization model for hyaline foraminifers, centered on the formation and assembly of units of metastable carbonate phases to the final mesocrystal via a non-classical particle attachment process, possibly facilitated by organic matter. This implies the presence of metastable precursors such as vaterite or amorphous calcium carbonate, along with phase transitions to calcite, which is relevant for the mechanistic understanding of proxy incorporation in the hyaline foraminifers.
Arns, A.I.
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Evans, D.
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Schiebel, R.
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Fink, L.
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Mezger, M.
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Alig, E.
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Linckens, J.
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Jochum, K.P.
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Schmidt, M.U.
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Jantschke, A.
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Haug, G.H.
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15 June 2022
Arns, A.I.
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Evans, D.
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Schiebel, R.
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Fink, L.
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Mezger, M.
d4d138bb-8882-48c1-a610-a27eb3499f08
Alig, E.
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Linckens, J.
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Jochum, K.P.
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Schmidt, M.U.
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Jantschke, A.
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Haug, G.H.
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Arns, A.I., Evans, D., Schiebel, R., Fink, L., Mezger, M., Alig, E., Linckens, J., Jochum, K.P., Schmidt, M.U., Jantschke, A. and Haug, G.H.
(2022)
Mesocrystalline architecture in hyaline foraminifer shells indicates a non‐classical crystallisation pathway.
Geochemistry, Geophysics, Geosystems, 23 (6), [e2022GC010445].
(doi:10.1029/2022GC010445).
Abstract
Calcareous foraminifer shells (tests) represent one of the most important archives for paleoenvironmental and paleoclimatic reconstruction. To develop a mechanistic understanding of the relationship between environmental parameters and proxy signals, knowledge of the fundamental processes operating during foraminiferal biomineralization is essential. Here, we apply microscopic and diffraction-based methods to address the crystallographic and hierarchical structure of the test wall of different hyaline foraminifer species. Our results show that the tests are constructed from micrometer-scale oriented mesocrystals built of nanometer-scale entities. Based on these observations, we propose a mechanistic extension to the biomineralization model for hyaline foraminifers, centered on the formation and assembly of units of metastable carbonate phases to the final mesocrystal via a non-classical particle attachment process, possibly facilitated by organic matter. This implies the presence of metastable precursors such as vaterite or amorphous calcium carbonate, along with phase transitions to calcite, which is relevant for the mechanistic understanding of proxy incorporation in the hyaline foraminifers.
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Geochem Geophys Geosyst - 2022 - Arns - Mesocrystalline Architecture in Hyaline Foraminifer Shells Indicates a
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Accepted/In Press date: 16 May 2022
e-pub ahead of print date: 1 June 2022
Published date: 15 June 2022
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Local EPrints ID: 502324
URI: http://eprints.soton.ac.uk/id/eprint/502324
ISSN: 1525-2027
PURE UUID: 35bda6f7-6dcd-448e-906f-e5290da1299b
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Date deposited: 23 Jun 2025 16:34
Last modified: 22 Aug 2025 02:38
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Contributors
Author:
A.I. Arns
Author:
D. Evans
Author:
R. Schiebel
Author:
L. Fink
Author:
M. Mezger
Author:
E. Alig
Author:
J. Linckens
Author:
K.P. Jochum
Author:
M.U. Schmidt
Author:
A. Jantschke
Author:
G.H. Haug
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