Paleomagnetic evidence for modern-like plate motion velocities at 3.2 Ga
Open Access
- 1 April 2020
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science Advances
- Vol. 6 (17), eaaz8670
- https://doi.org/10.1126/sciadv.aaz8670
Abstract
The mode and rates of tectonic processes and lithospheric growth during the Archean [4.0 to 2.5 billion years (Ga) ago] are subjects of considerable debate. Paleomagnetism may contribute to the discussion by quantifying past plate velocities. We report a paleomagnetic pole for the similar to 3180 million year (Ma) old Honeyeater Basalt of the East Pilbara Craton, Western Australia, supported by a positive fold test and micromagnetic imaging. Comparison of the 44 degrees +/- 15 degrees Honeyeater Basalt paleolatitude with previously reported paleolatitudes requires that the average latitudinal drift rate of the East Pilbara was >= 2.5 cm/year during the similar to 170 Ma preceding 3180 Ma ago, a velocity comparable with those of modern plates. This result is the earliest unambiguous evidence yet uncovered for long-range lithospheric motion. Assuming this motion is due primarily to plate motion instead of true polar wander, the result is consistent with uniformitarian or episodic tectonic processes in place by 3.2 Ga ago.Funding Information
- National Science Foundation (EAR-1847042)
- National Science Foundation (EAR-1723023)
- National Science Foundation (EAR-0711453)
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