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Atomic-scale age resolution of planetary events

Author

Listed:
  • L. F. White

    (School of Earth and Environmental Sciences, University of Portsmouth)

  • J. R. Darling

    (School of Earth and Environmental Sciences, University of Portsmouth)

  • D. E. Moser

    (University of Western Ontario)

  • D. A. Reinhard

    (CAMECA)

  • T. J. Prosa

    (CAMECA)

  • D. Bullen

    (School of Earth and Environmental Sciences, University of Portsmouth)

  • D. Olson

    (CAMECA)

  • D. J. Larson

    (CAMECA)

  • D. Lawrence

    (CAMECA)

  • I. Martin

    (CAMECA)

Abstract

Resolving the timing of crustal processes and meteorite impact events is central to understanding the formation, evolution and habitability of planetary bodies. However, identifying multi-stage events from complex planetary materials is highly challenging at the length scales of current isotopic techniques. Here we show that accurate U-Pb isotopic analysis of nanoscale domains of baddeleyite can be achieved by atom probe tomography. Within individual crystals of highly shocked baddeleyite from the Sudbury impact structure, three discrete nanostructural domains have been isolated yielding average 206Pb/238U ages of 2,436±94 Ma (protolith crystallization) from homogenous-Fe domains, 1,852±45 Ma (impact) from clustered-Fe domains and 1,412±56 Ma (tectonic metamorphism) from planar and subgrain boundary structures. Baddeleyite is a common phase in terrestrial, Martian, Lunar and asteroidal materials, meaning this atomic-scale approach holds great potential in establishing a more accurate chronology of the formation and evolution of planetary crusts.

Suggested Citation

  • L. F. White & J. R. Darling & D. E. Moser & D. A. Reinhard & T. J. Prosa & D. Bullen & D. Olson & D. J. Larson & D. Lawrence & I. Martin, 2017. "Atomic-scale age resolution of planetary events," Nature Communications, Nature, vol. 8(1), pages 1-6, August.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15597
    DOI: 10.1038/ncomms15597
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