Litcius/Paper detail

Melting and defect transitions in FeO up to pressures of Earth’s core-mantle boundary

Vasilije V. Dobrosavljevic, Dongzhou Zhang, W. Sturhahn, Stella Chariton, Vitali B. Prakapenka, Jiyong Zhao, T. S. Toellner, Olivia S. Pardo, Jennifer M. Jackson

2023Nature Communications20 citationsDOIOpen Access PDF

Abstract

Abstract The high-pressure melting curve of FeO controls key aspects of Earth’s deep interior and the evolution of rocky planets more broadly. However, existing melting studies on wüstite were conducted across a limited pressure range and exhibit substantial disagreement. Here we use an in-situ dual-technique approach that combines a suite of >1000 x-ray diffraction and synchrotron Mössbauer measurements to report the melting curve for Fe 1- x O wüstite to pressures of Earth’s lowermost mantle. We further observe features in the data suggesting an order-disorder transition in the iron defect structure several hundred kelvin below melting. This solid-solid transition, suggested by decades of ambient pressure research, is detected across the full pressure range of the study (30 to 140 GPa). At 136 GPa, our results constrain a relatively high melting temperature of 4140 ± 110 K, which falls above recent temperature estimates for Earth’s present-day core-mantle boundary and supports the viability of solid FeO-rich structures at the roots of mantle plumes. The coincidence of the defect order-disorder transition with pressure-temperature conditions of Earth’s mantle base raises broad questions about its possible influence on key physical properties of the region, including rheology and conductivity.

Topics & Concepts

Mantle (geology)WüstiteCore–mantle boundaryStructure of the EarthInner coreMelting curve analysisGeologyTransition zoneOuter coreSynchrotronDiamond anvil cellMaterials scienceHigh pressureThermodynamicsMineralogyGeophysicsChemistryPhysicsPolymerase chain reactionGeneHematiteNuclear physicsBiochemistryHigh-pressure geophysics and materialsGeological and Geochemical Analysisearthquake and tectonic studies