Ocean Basin Evolution and Global-Scale Plate Reorganization Events since Pangea Breakup

R. Dietmar Müller, Maria Seton, Sabin Zahirovic, Simon E. Williams, Kara J. Matthews, Nicky M. Wright, Grace E. Shephard, Kayla T. Maloney, Nicholas Barnett-Moore, Maral Hosseinpour, Dan J. Bower, John Cannon

Research output: Contribution to journalReview articlepeer-review

828 Citations (Scopus)

Abstract

We present a revised global plate motion model with continuously closing plate boundaries ranging from the Triassic at 230 Ma to the present day, assess differences among alternative absolute plate motion models, and review global tectonic events. Relatively high mean absolute plate motion rates of approximately 9-10 cm yr-1 between 140 and 120 Ma may be related to transient plate motion accelerations driven by the successive emplacement of a sequence of large igneous provinces during that time. An event at ∼100 Ma is most clearly expressed in the Indian Ocean and may reflect the initiation of Andean-style subduction along southern continental Eurasia, whereas an acceleration at ∼80 Ma of mean rates from 6 to 8 cm yr-1 reflects the initial northward acceleration of India and simultaneous speedups of plates in the Pacific. An event at ∼50 Ma expressed in relative, and some absolute, plate motion changes around the globe and in a reduction of global mean plate speeds from about 6 to 4-5 cm yr-1 indicates that an increase in collisional forces (such as the India-Eurasia collision) and ridge subduction events in the Pacific (such as the Izanagi-Pacific Ridge) play a significant role in modulating plate velocities.

Original languageEnglish
Pages (from-to)107-138
Number of pages32
JournalAnnual Review of Earth and Planetary Sciences
Volume44
DOIs
Publication statusPublished - 29 Jun 2016
Externally publishedYes

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