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Incipient continent formation by shallow melting of an altered mafic protocrust

Author

Listed:
  • Michael I. H. Hartnady

    (Curtin University)

  • Simon Schorn

    (J. Becher Weg 21
    Universitätsplatz 2)

  • Tim E. Johnson

    (Curtin University)

  • Andreas Zametzer

    (Curtin University)

  • Axel K. Schmitt

    (Curtin University)

  • Bruno V. Ribeiro

    (Curtin University
    Curtin University)

  • R. Hugh Smithies

    (Curtin University
    Geological Survey of Western Australia)

  • Milo Barham

    (Curtin University)

  • Christopher L. Kirkland

    (Curtin University)

Abstract

Understanding how Earth’s continental nuclei first formed in the Archean eon (4.0–2.5 Ga) underpins our notions of early Earth geodynamics. Yet, the nature of Earth’s early protocrust and the primary mechanism for its transformation are poorly understood, as very ancient rocks preserving petrological evidence for these processes are incredibly rare. Here we report the discovery of a formerly melt-bearing amphibolite from the Sylvania Inlier of the Pilbara Craton in Western Australia. Radiometric dating of zircon and titanite in these rocks constrain the time of partial melting to 3565 Ma, providing evidence for a metamorphic event that predates most exposed rocks in the Pilbara Craton by ~30 million years. Low δ18O compositions and modelled melt compositions comparable to evolved Hadean rocks in the Acasta gneisses indicate Earth’s oldest continental crust may have sourced rocks of a similar composition. Thermodynamic modelling suggests partial melting at temperatures of 680–720°C and pressures of 0.8–1.0 GPa, implying a maximum burial depth of ~30 km. These results support models of continental nuclei formation via shallow partial melting of hydrothermally altered mafic protocrust in high heat flow environments.

Suggested Citation

  • Michael I. H. Hartnady & Simon Schorn & Tim E. Johnson & Andreas Zametzer & Axel K. Schmitt & Bruno V. Ribeiro & R. Hugh Smithies & Milo Barham & Christopher L. Kirkland, 2025. "Incipient continent formation by shallow melting of an altered mafic protocrust," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59075-9
    DOI: 10.1038/s41467-025-59075-9
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    References listed on IDEAS

    as
    1. Robert H. Smithies & Yongjun Lu & Christopher L. Kirkland & Tim E. Johnson & David R. Mole & David C. Champion & Laure Martin & Heejin Jeon & Michael T. D. Wingate & Simon P. Johnson, 2021. "Oxygen isotopes trace the origins of Earth’s earliest continental crust," Nature, Nature, vol. 592(7852), pages 70-75, April.
    2. Tim E. Johnson & Christopher L. Kirkland & Yongjun Lu & R. Hugh Smithies & Michael Brown & Michael I. H. Hartnady, 2022. "Giant impacts and the origin and evolution of continents," Nature, Nature, vol. 608(7922), pages 330-335, August.
    3. Simon A. Wilde & John W. Valley & William H. Peck & Colin M. Graham, 2001. "Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4.4 Gyr ago," Nature, Nature, vol. 409(6817), pages 175-178, January.
    4. C. L. Kirkland & M. I. H. Hartnady & M. Barham & H. K. H. Olierook & A. Steenfelt & J. A. Hollis, 2021. "Widespread reworking of Hadean-to-Eoarchean continents during Earth’s thermal peak," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
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