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Sanna Alwmark

Sanna Alwmark

Associate senior lecturer

Sanna Alwmark

Empirical constraints on progressive shock metamorphism of magnetite from the Siljan impact structure, Sweden

Author

  • Sanna Holm-Alwmark
  • Timmons M. Erickson
  • Aaron J. Cavosie

Summary, in English

Little is known about the microstructural behavior of magnetite during hypervelocity impact events, even though it is a widespread accessory mineral and an important magnetic carrier in terrestrial and extraterrestrial rocks. We report systematic electron backscatter diffraction crystallographic analysis of shock features in magnetite from a transect across the 52-km-diameter ca. 380 Ma Siljan impact structure in Sweden. Magnetite grains in granitoid samples contain brittle fracturing, crystal-plasticity, and lamellar twins. Deformation twins along {111} with shear direction of <112> are consistent with spinel-law twins. Inferred bulk shock pressures for the investigated samples, as constrained by planar deformation features (PDFs) in quartz and shock twins in zircon, range from 0 to 20 GPa; onset of shock-induced twinning in magnetite is observed at >5 GPa. These results highlight the utility of magnetite to record shock deformation in rocks that experience shock pressures >5 GPa, which may be useful in quartz-poor samples. Despite significant hydrothermal alteration and the variable transformation of host magnetite to hematite, shock effects are preserved, which demonstrates that magnetite is a reliable mineral for preserving shock deformation over geologic time.

Department/s

  • Lithosphere and Biosphere Science

Publishing year

2022

Language

English

Pages

377-382

Publication/Series

Geology

Volume

50

Issue

3

Document type

Journal article

Publisher

Geological Society of America

Topic

  • Geology

Status

Published

ISBN/ISSN/Other

  • ISSN: 0091-7613