Dating fractures using luminescence

P. Andričević*, E. L. Sellwood, T. Freiesleben, A. J. Hidy, M. Kook, M. C. Eppes, M. Jain

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

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Abstract

Rock fracturing (cracking) is a universal process that drives and limits chemical degradation, sediment production and erosion, and deterioration of infrastructure. Despite extensive research gains in rock mechanics on one hand and geochronology on the other, there remains a glaring gap in our ability to understand the long term evolution of natural, in situ fractures. Here we develop a novel fracture exposure dating technique, grounded in modern advances in luminescence geochronology. We apply our new dating method to a granitic boulder from a glacial outwash terrace in California, US. We conclude that the longest, clast-splitting E-W fracture appeared shortly after the boulder's deposit, whereas the secondary N-S fracture appeared 5 ka after the deposition, approximately correlating with the Last Glacial Maximum and Younger Dryas periods of the region, respectively. However, dating of the third fracture (<< 50 µm width) which does not fully split the rock, is ambiguous due to negligible daylight penetration and poor determination of fracture width. The fracture dating method presented herein brings with it the potential to decipher relationships that are crucial for the interpretation and modeling of, for example, long-term landscape and atmospheric evolution relating rock weathering to climate change and erosion.

Original languageEnglish
Article number118461
JournalEarth and Planetary Science Letters
Volume624
Number of pages11
ISSN0012-821X
DOIs
Publication statusPublished - 2023

Keywords

  • Exposure age
  • Fracture chronology
  • Infrared photoluminescence
  • Rock surface dating

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