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The petrological control on the lithosphere-asthenosphere boundary (LAB) beneath ocean basins

Niu, Yaoling; Green, David H.

The petrological control on the lithosphere-asthenosphere boundary (LAB) beneath ocean basins Thumbnail


Authors

Yaoling Niu

David H. Green



Abstract

The plate tectonics theory established ~ 50 years ago has formed a solid framework for understanding how the earth works on all scales. In this theory, movement of the tectonic plates relative to the subjacent asthenosphere is one of the fundamental tenets. However, the nature of the boundary between the lithosphere and asthenosphere (LAB) beneath ocean basins remains under debate. The current consensus is that the oceanic lithosphere thickens with age by accreting asthenosphere material from below, and reaches its full thickness (L) of ~ 90 km at the age (t) of ~ 70 Ma. This lithospheric thickening fits the relation L ∝ t1/2, consistent with conductive cooling to the seafloor. A puzzling observation is that although conductive cooling continues, the oceanic lithosphere ceases to grow any thicker than ~ 90 km when t > 70 Ma. Small scale convection close beneath the LAB has been generally invoked to explain this puzzle, but why such convection does not occur until L ~ 90 km at t > 70 Ma has been a matter of conjecture. In this paper, we summarize the results of many years of experimental petrology and petrological studies of oceanic basalts, which indicate consistently that the LAB is a petrological phase boundary marking the intersection of the geotherm with the solidus of amphibole (pargasite)-bearing peridotite. That is, petrologically, the LAB is an isotherm of ~ 1100 °C with L ∝ t1/2 for t < 70 Ma and an isobar of ~ 3 GPa (~ 90 km) for t > 70 Ma. This unifying concept explains why the LAB depth increases with age for t < 70 Ma and maintains constant (~ 90 km) for t > 70 Ma. The LAB, that is intrinsically determined by petrological phase equilibria, does not require small-scale convection. However, because the mantle above the LAB is the conductive lithosphere (pargasite-bearing peridotite) and below the LAB is the viscosity-reduced convective asthenosphere (peridotite + incipient melt), the small-scale convection in the asthenosphere close beneath the LAB (~90 km) under older (t > 70 Ma) seafloors becomes possible, whose convective heat supply balances the conductive heat loss, maintaining the constant heat flow, seafloor depth and lithosphere thickness.

Citation

Niu, Y., & Green, D. H. (2018). The petrological control on the lithosphere-asthenosphere boundary (LAB) beneath ocean basins. Earth-Science Reviews, 185, 301-307. https://doi.org/10.1016/j.earscirev.2018.06.011

Journal Article Type Article
Acceptance Date Jun 14, 2018
Online Publication Date Jun 19, 2018
Publication Date Oct 1, 2018
Deposit Date Jun 14, 2018
Publicly Available Date Mar 29, 2024
Journal Earth-Science Reviews
Print ISSN 0012-8252
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 185
Pages 301-307
DOI https://doi.org/10.1016/j.earscirev.2018.06.011

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