Local Crystallographic Texture of a Nummulite (Foraminifera) Test from the Eocene Deposits of the Crimea Peninsula

Unicellular protozoa form calcium carbonate tests. It is important to understand the features and mechanisms of its formation. This may shed light on the processes of shell formation in metazoans. One of the most important characteristics of the Protozoa carbonate test is the degree of crystal order...

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Bibliographic Details
Published in:Biology (Basel, Switzerland) Switzerland), 2023-11, Vol.12 (12), p.1472
Main Authors: Pakhnevich, Alexey, Nikolayev, Dmitry, Lychagina, Tatiana
Format: Article
Language:English
Subjects:
Analysis
Bivalvia
Calcite
Calcite crystals
Calcium carbonate
Cenozoic
Crystals
Diffraction
Eocene
Experiments
local crystallographic texture
Mollusks
Neutron diffraction
Neutrons
Nummulites
Paleogene
Placuna placenta
pole figures
Protozoa
Radiation
Scanning electron microscopy
Shells
Structure
X-ray diffraction
X-ray microtomography images
X-rays
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Summary:Unicellular protozoa form calcium carbonate tests. It is important to understand the features and mechanisms of its formation. This may shed light on the processes of shell formation in metazoans. One of the most important characteristics of the Protozoa carbonate test is the degree of crystal ordering that can be described by crystallographic texture. The crystallographic texture data of calcite in the foraminifera (Deshayes) test from the Eocene deposits (Cenozoic, Paleogene) of the Crimea Peninsula are obtained using X-ray diffraction. A very strict orientation of the crystals is revealed. The calcite texture sharpness is several times greater than in the shells of the bivalve mollusk (Linnaeus), measured by the same method. It also exceeds the crystallographic texture and sharpness of the same mineral in the shells of the bivalves of (Lamarck), studied by neutron diffraction. It is concluded that a high level of control during test formation is already characteristic of protozoa. Studying the processes involved in the formation of a very sharp crystallographic texture can become an important direction for creating nature-like materials with desired properties.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology12121472