2011
DOI: 10.1146/annurev-earth-040610-133505
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Building and Destroying Continental Mantle

Abstract: Continents, especially their Archean cores, are underlain by thick thermal boundary layers that have been largely isolated from the convecting mantle over billion-year timescales, far exceeding the life span of oceanic thermal boundary layers. This longevity is promoted by the fact that continents are underlain by highly melt-depleted peridotites, which result in a chemically distinct boundary layer that is intrinsically buoyant and strong (owing to dehydration). This chemical boundary layer counteracts the de… Show more

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Cited by 428 publications
(389 citation statements)
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References 171 publications
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“…The younger platforms are thought to be hotter due to higher heat production (Nyblade and Pollack, 1993). Temperature within cratons has been estimated using shear velocity (Fowler, 2005), mantle xenoliths (Lee et al, 2011), and surface heat flow measurements (Rudnick et al, 1998). Currently, temperature estimates for cratons at depth do not correlate with observed velocities (Dalton and Faul, 2010).…”
Section: Geothermsmentioning
confidence: 99%
“…The younger platforms are thought to be hotter due to higher heat production (Nyblade and Pollack, 1993). Temperature within cratons has been estimated using shear velocity (Fowler, 2005), mantle xenoliths (Lee et al, 2011), and surface heat flow measurements (Rudnick et al, 1998). Currently, temperature estimates for cratons at depth do not correlate with observed velocities (Dalton and Faul, 2010).…”
Section: Geothermsmentioning
confidence: 99%
“…The Alpine Tethyan OCT ophiolites contain only minor amounts of mafic igneous rocks (basaltic lavas, sheeted dyke complexes and gabbros) and are instead characterized by blocks of ancient subcontinental mantle exhumed by top-basement detachment faults and overlain by extensional being re-enriched in basaltic melt components) and therefore continental mantle is the product of at least two major processes: melt depletion followed by refertilization or other major metasomatic enrichment processes such as Si enrichment (Lee et al 2011). Sub-continental lithospheric mantle exhumed at OCTs on presentday passive margins is dominated by moderate (50%) to highly (95-100%) serpentinized peridotites (Kodolányi et al 2012).…”
Section: Criteria For Identifying An Ocean-continent Transition (Oct)mentioning
confidence: 99%
“…Hydration of the lithosphere may not only significantly reduce the viscosity contrast between the lithospheric mantle and the underlying asthenosphere (Niu, 2005;Lee et al, 2011;Xia et al, 2013), but also promote refertilization-driven destabilization of the craton (Kusky et al, 2014;Zheng et al, 2015;Xiong et al, 2015). Therefore, we propose that destruction of the NCC was caused by erosion, replacement, modification or partial melting associated with the hydration of the lithosphere.…”
Section: Geodynamic Implications Destruction Of the North China Cratonmentioning
confidence: 93%
“…Ancient cratons, the most stable parts of the continents, are underlain by thick thermal and mechanical boundary layers that have been largely isolated from the convective asthenospheric mantle over billion year timescales (Kelly et al, 2003;Carlson et al, 2005;Lee et al, 2011). However, several lines of evidence suggest that the eastern part of the NCC has been destroyed since the Phanerozoic (Menzies et al, 1993;Griffin et al, 1998;Xu, 2001;Gao et al, 2002;Wu et al, 2003;Zheng et al, 2007).…”
Section: Geodynamic Implications Destruction Of the North China Cratonmentioning
confidence: 99%