@misc{10481/74638,
year = {2022},
month = {1},
url = {http://hdl.handle.net/10481/74638},
abstract = {The supercontinent cycle explains how landmasses amalgamate into supercontinents that dismember after a ~
100 Myr tenure in a quasi-periodic manner. Supercontinents are thought to be rigid superplates whose formation
controls many of the Earth's secular variations, from long-term climate trends to global mantle circulation.
Pangea, the latest continental superplate, formed ~330 Ma, began to rift ~240 Ma, finally broke-up ~200 Ma, is
generally considered the template for all previous supercontinents. The existence of Pangea as a superplate at
~330 Ma is inconsistent with: (i) the kinematic constraints of the continent-continent collision that became
progressively younger westwards and it only ended in the early Permian times in its westernmost side; (ii) the
widespread ‘post-orogenic’ magmatism in the core of Pangea and the hot high-pressure metamorphism in the
Paleotethys; and (iii) the global paleomagnetic database that shows paleolatitudinal overlaps between the
participating continents, and significant vertical axis rotations in the core of Pangea between 330 and 270 Ma,
which suggests >1500 km of shortening and extension. Here I present a tectonic reconstruction that reconciles
the paleomagnetic and geological discrepancies. In this model, after the initial amalgamation of Pangea as a
landmass, the comprising plates kept on interacting between each other and the asthenosphere during the late
Carboniferous and early Permian (320–270 Ma) instead of being a rigid plate. After that and concomitant with a
plate reorganization, Pangea finally established as a superplate for a brief period of <70 Myr. This superplate
tenure might be, following most recent models, too short to control the global mantle circulation.},
organization = {Netherlands Research Centre for Integrated Solid Earth Sciences (ISES)},
organization = {Ministry of Education, Culture, Sports, Science and Technology, Japan (MEXT)
Japan Society for the Promotion of Science	P16329	
Ministry of Education, Culture, Sports, Science and Technology, Japan (MEXT)
Japan Society for the Promotion of Science},
organization = {Grants-in-Aid for Scientific Research (KAKENHI)	JP16F16329	
Spanish Government},
publisher = {Elsevier},
keywords = {Pangea},
keywords = {Supercontinent},
keywords = {Superplate},
keywords = {Orocline},
keywords = {Permian},
keywords = {Paleotethys},
keywords = {Rheic},
title = {From supercontinent to superplate: Late Paleozoic Pangea's inner deformation suggests it was a short-lived superplate},
doi = {10.1016/j.earscirev.2022.103918},
author = {Pastor Galán, Daniel},
}