RT Journal Article
T1 Magnetic sources in the Earth’s mantle
A1 Ferre, Eric C.
A1 Kupenko, Ilya
A1 Martín Hernández, Fátima
A1 Ravat, Dhananjay
A1 Sánchez Valle, Carmen
AB Since the 1970s, ferromagnetic minerals were believed to be absent in the Earth’s mantle and, even if present, the temperatures were considered too high for such phases to carry magnetic remanence. However, new experimental data, measurements on mantle xenoliths and an improved understanding of long-wavelength features in aeromagnetic data require that the magnetization of the mantle be revisited. In this Review, we examine mantle magnetism through the xenolith record, evaluate the latest experimental advances, assess detection methods of deep-seated mantle sources and identify salient, unsolved questions about magnetic sources in the Earth’s mantle. Critically, magnetic data on a worldwide collection of mantle xenoliths have revealed that pure magnetite is common in the uppermost mantle (<150 km), particularly in subduction zones and cratons. Furthermore, experiments on haematite and its polymorphs suggest that they could carry a magnetic remanence down to ~600 km, for example, in cold, subducted slabs. Finally, modern spectral analysis of aeromagnetic data confirms that a magnetized layer is present below the crust–mantle boundary in multiple tectonic settings. Future work needs to explore the magnetic minerals in the deepest available mantle xenoliths (150–660 km), in conjunction with experiments on mantle materials at pressures corresponding to these depths.
PB Nature Research
YR 2021
FD 2021-01
LK https://hdl.handle.net/20.500.14352/114087
UL https://hdl.handle.net/20.500.14352/114087
LA eng
NO E. C. Ferré, I. Kupenko, F. Martín-Hernández, D. Ravat, and C. Sanchez-Valle, Magnetic sources in the Earth’s mantle, Nat Rev Earth Environ 2, 59 (2020).
NO This work was supported by the National Science Foundation(grants EAR-0521558 and EAR-1345105 to E.C.F. and EAR1246921 to D.R.), the National Aeronautics and Space Administration (grants NNX16AN51G and 80NSSC19K0014 to D.R.) and internal funding from the University of Münster.
NO National Science Foundation (US)
NO National Aeronautics and Space Administration (US)
NO University of Münster
DS Docta Complutense
RD 7 abr 2025