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Channelized metasomatism in Archean cratonic roots as a mechanism of lithospheric refertilization

Eric A. Roots (), Graham J. Hill, Ben M. Frieman, Richard S. Smith, James A. Craven, David B. Snyder and Andrew J. Calvert
Additional contact information
Eric A. Roots: Laurentian University
Graham J. Hill: Czech Academy of Sciences
Ben M. Frieman: Department of Geology and Geological Engineering
Richard S. Smith: Laurentian University
James A. Craven: Geological Survey of Canada
David B. Snyder: Laurentian University
Andrew J. Calvert: Department of Earth Sciences

Nature Communications, 2025, vol. 16, issue 1, 1-10

Abstract: Abstract Archean cratons represent stable continental domains which form the nuclei of the Earth’s continents due to their thick ( >200 km), mechanically resistant keels. Cratons and their stable roots form through melt and fluid depletion processes. However, metasomatic refertilization may occur due to processes coeval with craton construction and/or overprinting episodes. Magnetotellurics, a geophysical method measuring subsurface electrical resistivity, is sensitive to the compositional and thermal states of the lithosphere and is useful in mapping depleted and refertilized cratonic domains. Here we show the results of a 3D anisotropic inversion to image the lithospheric resistivity structure of the western Superior Craton. The resistivity model reveals widespread (500×300 km2) anisotropy with a north-south conductive axis at depths ~100–200 km, inferred to represent phlogopite-bearing channels emplaced during mantle plume activity. The results have implications for our understanding of the modification and long-term stability of cratonic lithosphere, and the imaging and interpretation of their preserved geophysical signatures.

Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62912-6

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DOI: 10.1038/s41467-025-62912-6

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