Journal
EARTH AND PLANETARY SCIENCE LETTERS
Volume 577, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.epsl.2021.117195
Keywords
subduction zones; subduction zone initiation; oceanic plateau; polarity-reversal; numerical modelling; internal force balance
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The worldwide youthful oceanic lithosphere suggests a global recycling through the formation of new subduction zones. The initiation processes of subduction zones remain difficult to explain in many cases, but numerical models can help understand the dynamics governing this process. The study provides new insights on the geodynamic conditions driving subduction zone initiation and their compliance with natural examples.
Oceanic lithosphere worldwide is younger than ca. 200 Myr, suggesting that it must have been globally recycled by the recurrent formation of new subduction zones since the existence of subduction on Earth. However, postulated subduction zone initiation processes remain difficult to explain in many cases, and the specific geodynamic conditions under which these might occur are still largely unknown. We here use numerical models driven by the internal force balance of a subduction system to better understand the (geo)dynamics governing (intra-oceanic) polarity-reversal subduction zone initiation. This initiation mode assumes that the birth of a new subduction zone could be triggered by buoyant plateau-obstruction of a pre-existent one dipping in the opposite direction. Our work provides a new insight on the key geodynamic conditions governing this type of subduction zone initiation and discusses their general compliance with known natural examples. (C) 2021 Elsevier B.V. All rights reserved.
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