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Periodic instability and restoration of cratonic lithosphere

Lijun Liu, Ling Chen, Zebin Cao, Xiaotao Yang, Andrea Stevens Goddard, Rixiang Zhu

2025National Science Review9 citationsDOIOpen Access PDF

Abstract

The longevity of cratons usually implies that the entire cratonic lithosphere remained unchanged over billions of years, which is traditionally attributed to their intrinsically buoyant and strong lithospheric roots. By reviewing relevant studies and recent observational constraints, we show that the present cratonic roots are notably denser than the ambient mantle, with the compositional buoyancy offsetting only one-fifth of the negative thermal buoyancy. In addition, the presence of a weak mid-lithospheric discontinuity could decouple the upper and lower lithosphere upon perturbation, allowing delamination of the lower portion, while most of the delaminated lithosphere would eventually relaminate to the base of the lithosphere after sufficient warming inside the convective mantle. This process generates enduring (>100 Myr) and prominent (>1 km) surface uplifts within continents, a mechanism more compatible with data, especially those reflecting lithospheric deformation, than the model of all continents climbing up a steady region of dynamic uplift. Subsequent lithospheric cooling gradually draws the surface down to below sea level, where the lithospheric mantle density reaches a maximum upon formation of the next supercontinent. We argue that such cratonic deformation has happened repeatedly over supercontinent cycles since the Neoproterozoic and has largely shaped the properties of the present cratonic lithosphere. A few new research directions are also suggested.

Topics & Concepts

LithosphereGeologyCratonSupercontinentMantle (geology)ObductionGeophysicsMantle convectionSubductionPaleontologyOceanic crustTectonicsHigh-pressure geophysics and materialsGeological and Geochemical Analysisearthquake and tectonic studies
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