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Nonlinearity of the post-spinel transition and its expression in slabs and plumes worldwide

Junjie Dong (), Rebecca A. Fischer, Lars P. Stixrude, Matthew C. Brennan, Kierstin Daviau, Terry-Ann Suer, Katlyn M. Turner, Yue Meng and Vitali B. Prakapenka
Additional contact information
Junjie Dong: Cambridge
Rebecca A. Fischer: Cambridge
Lars P. Stixrude: Los Angeles
Matthew C. Brennan: Cambridge
Kierstin Daviau: Cambridge
Terry-Ann Suer: Cambridge
Katlyn M. Turner: Cambridge
Yue Meng: Argonne National Laboratory
Vitali B. Prakapenka: University of Chicago

Nature Communications, 2025, vol. 16, issue 1, 1-9

Abstract: Abstract Phase transitions in the mantle control its internal dynamics and structure. The post-spinel transition marks the upper–lower mantle boundary, where ringwoodite dissociates into bridgmanite plus ferropericlase, and its Clapeyron slope regulates mantle flow across it. This interaction has previously been assumed to have no lateral spatial variations, based on the assumption of a linear post-spinel boundary in pressure and temperature. Here we present laser-heated diamond anvil cell experiments with synchrotron X-ray diffraction to better constrain this boundary, especially at higher temperatures. Combining our data with results from the literature, and using a global analysis based on machine learning, we find a pronounced nonlinearity in the post-spinel boundary, with its slope ranging from –4 MPa/K at 2100 K, to –2 MPa/K at 1950 K, and to 0 MPa/K at 1600 K. Changes in temperature over time and space can therefore cause the post-spinel transition to have variable effects on mantle convection and the movement of subducting slabs and upwelling plumes.

Date: 2025
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DOI: 10.1038/s41467-025-56231-z

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