Open Access
Open access
IGG UB RAS
LITHOSPHERE (Russia)
volume 25 issue 2 pages 309-319

Electron backscatter diffraction in the study of microdeformations in zircon grains from meteorite craters: methodological aspects

Publication typeJournal Article
Publication date2025-05-04
IGG UB RAS
scimago Q3
SJR0.231
CiteScore0.7
Impact factor
ISSN16819004, 2500302X
Abstract

   Subject of Research. Methodological aspects of sample preparation and electron backscatter diffraction (EBSD) in the study of microdeformations in zircon grains.

   Objects and Methods. Fragments of impactites from shock-metamorphosed rocks of the Vredefort (South Africa) and Kara (Pay-Khoy Ridge, Yugorsky Peninsula, Russia) impact craters were investigated using scanning electron microscopy (SEM) and electron backscatter diffraction.

   Results. The identification of zircon grains with specific microdeformations requires high-spatial-resolution (tens of nanometers) examination of large polished rock surfaces, which demands significant instrument time. To reliably detect microdeformations in zircon, the following methodological challenges were addressed: (1) analyzing the influence of Electron Backscatter Diffraction Pattern (EBSP) imaging conditions at different beam accelerating voltages (10, 20, and 29 kV) on the signal-to-noise ratio, spatial resolution, and Kikuchi band width; (2) comparing zircon grain orientation maps obtained at different voltages; (3) developing an algorithm for mineral identification and microdeformation finding; and (4) validating the methodology on zircon grains from the Vredefort and Kara impact craters.

   Conclusions. The sample preparation methodology for EBSD analysis was refined, and methods for processing EBSD data to improve Kikuchi diffraction pattern indexing were explored. The efficiency of detecting and analyzing shock-metamorphosed zircon grains using scanning electron microscopy was enhanced through optimized electron imaging and EBSD mapping conditions. An algorithm for mineral identification in thin sections (rock slices) was developed. The methodology was validated on a series of 50 thin sections from the Kara and Vredefort impactites, resulting in the identification of 436 zircon grains, including all known types of zircon microdeformations.

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Davletshina A., Chebykin N. S., Zamyatin D. A. Electron backscatter diffraction in the study of microdeformations in zircon grains from meteorite craters: methodological aspects // LITHOSPHERE (Russia). 2025. Vol. 25. No. 2. pp. 309-319.
GOST all authors (up to 50) Copy
Davletshina A., Chebykin N. S., Zamyatin D. A. Electron backscatter diffraction in the study of microdeformations in zircon grains from meteorite craters: methodological aspects // LITHOSPHERE (Russia). 2025. Vol. 25. No. 2. pp. 309-319.
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TY - JOUR
DO - 10.24930/1681-9004-2025-25-2-309-319
UR - https://www.lithosphere.ru/jour/article/view/2278
TI - Electron backscatter diffraction in the study of microdeformations in zircon grains from meteorite craters: methodological aspects
T2 - LITHOSPHERE (Russia)
AU - Davletshina, A.A.
AU - Chebykin, N S
AU - Zamyatin, D. A.
PY - 2025
DA - 2025/05/04
PB - IGG UB RAS
SP - 309-319
IS - 2
VL - 25
SN - 1681-9004
SN - 2500-302X
ER -
BibTex |
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BibTex (up to 50 authors) Copy
@article{2025_Davletshina,
author = {A.A. Davletshina and N S Chebykin and D. A. Zamyatin},
title = {Electron backscatter diffraction in the study of microdeformations in zircon grains from meteorite craters: methodological aspects},
journal = {LITHOSPHERE (Russia)},
year = {2025},
volume = {25},
publisher = {IGG UB RAS},
month = {may},
url = {https://www.lithosphere.ru/jour/article/view/2278},
number = {2},
pages = {309--319},
doi = {10.24930/1681-9004-2025-25-2-309-319}
}
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Davletshina, A.A., et al. “Electron backscatter diffraction in the study of microdeformations in zircon grains from meteorite craters: methodological aspects.” LITHOSPHERE (Russia), vol. 25, no. 2, May. 2025, pp. 309-319. https://www.lithosphere.ru/jour/article/view/2278.