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The future of Earth's oceans: consequences of subduction initiation in the Atlantic and implications for supercontinent formation (2016)

DUARTE, JOÃO C. ; SCHELLART, WOUTER P. ; ROSAS, FILIPE M.

Cambridge University Press

In: Geological Magazine. 2016; 155(1): 45-58. Published 2016 Oct 03. doi: 10.1017/s0016756816000716.

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Publication Date: 2016-10-03

Description: Subduction initiation is a cornerstone in the edifice of plate tectonics. It marks the turning point of the Earth's Wilson cycles and ultimately the supercycles as well. In this paper, we explore the consequences of subduction zone invasion in the Atlantic Ocean, following recent discoveries at the SW Iberia margin. We discuss a buoyancy argument based on the premise that old oceanic lithosphere is unstable for supporting large basins, implying that it must be removed in subduction zones. As a consequence, we propose a new conceptual model in which both the Pacific and the Atlantic oceans close simultaneously, leading to the termination of the present Earth's supercycle and to the formation of a new supercontinent, which we name Aurica. Our new conceptual model also provides insights into supercontinent formation and destruction (supercycles) proposed for past geological times (e.g. Pangaea, Rodinia, Columbia, Kenorland).

Print ISSN: 0016-7568

Electronic ISSN: 1469-5081

Topics: Geosciences

Published by Cambridge University Press

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Back to the future II: tidal evolution of four supercontinent scenarios (2020)

Davies, Hannah S. ; Green, J. A. Mattias ; Duarte, Joao C.

Copernicus

In: Earth System Dynamics. 2020; 11(1): 291-299. Published 2020 Mar 20. doi: 10.5194/esd-11-291-2020.

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Publication Date: 2020-03-20

Description: The Earth is currently 180 Myr into a supercontinent cycle that began with the break-up of Pangaea and which will end around 200–250 Myr (million years) in the future, as the next supercontinent forms. As the continents move around the planet they change the geometry of ocean basins, and thereby modify their resonant properties. In doing so, oceans move through tidal resonance, causing the global tides to be profoundly affected. Here, we use a dedicated and established global tidal model to simulate the evolution of tides during four future supercontinent scenarios. We show that the number of tidal resonances on Earth varies between one and five in a supercontinent cycle and that they last for no longer than 20 Myr. They occur in opening basins after about 140–180 Myr, an age equivalent to the present-day Atlantic Ocean, which is near resonance for the dominating semi-diurnal tide. They also occur when an ocean basin is closing, highlighting that within its lifetime, a large ocean basin – its history described by the Wilson cycle – may go through two resonances: one when opening and one when closing. The results further support the existence of a super-tidal cycle associated with the supercontinent cycle and gives a deep-time proxy for global tidal energetics.

Print ISSN: 2190-4979

Electronic ISSN: 2190-4987

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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