Scientific Reports (Nov 2021)

Lightning-induced high temperature and pressure microstructures in surface and subsurface fulgurites

  • Li-Wei Kuo,
  • Steven A. F. Smith,
  • Chien-Chih Chen,
  • Ching-Shun Ku,
  • Ching-Yu Chiang,
  • Dennis Brown,
  • Marianne Negrini,
  • Wen-Jeng Huang,
  • Tze-Yuan Chen

DOI
https://doi.org/10.1038/s41598-021-01559-x
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 14

Abstract

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Abstract Cloud-to-ground lightning causes both high-temperature and high-pressure metamorphism of rocks, forming rock fulgurite. We demonstrate that a range of microstructural features indicative of high temperatures and pressures can form in fulgurites at the surface and in fractures up to several meters below the surface. In comparison to a granite reference sample collected from a borehole at a depth of 138 m, microstructures in both the surface and fracture fulgurite are characterized by: (i) the presence of glass, (ii) a phase transformation in K-feldspar with the presence of exsolution lamellae of plagioclase, and (iii) high residual stresses up to 1.5 GPa. Since this is the first time that fracture-related fulgurite has been described, we also carried out a 1-D numerical model to investigate the processes by which these can form. The model shows that the electric current density in fractures up to 40 m from the landing point can be as high as that on the surface, providing an explanation for the occurrence of fracture-related fulgurites. Our work broadens the near-surface environments in which rock fulgurite has been reported, and provides a detailed description of microstructures that can be compared to those formed during other types of extreme metamorphic events.