32亿年前类似现代板块运动速度的古地磁证据。

Paleomagnetic evidence for modern-like plate motion velocities at 3.2 Ga.

作者信息

Brenner Alec R, Fu Roger R, Evans David A D, Smirnov Aleksey V, Trubko Raisa, Rose Ian R

机构信息

Department of Earth and Planetary Sciences, Harvard University, Cambridge, MA, USA.

Department of Geology and Geophysics, Yale University, New Haven, CT, USA.

出版信息

Sci Adv. 2020 Apr 22;6(17):eaaz8670. doi: 10.1126/sciadv.aaz8670. eCollection 2020 Apr.

DOI:10.1126/sciadv.aaz8670

PMID:32494654

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7176424/

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 ~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°±15° 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 ~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.

摘要

太古宙时期（约40亿至25亿年前）构造过程和岩石圈生长的方式及速率是备受争议的课题。古地磁学可以通过量化过去板块运动速度为这一讨论提供帮助。我们报告了西澳大利亚皮尔巴拉克拉通东部约31.8亿年（Ma）古老的食蜜鸟玄武岩的一个古磁极，该结果得到了正向褶皱检验和微磁成像的支持。将44°±15°的食蜜鸟玄武岩古纬度与先前报道的古纬度进行比较，结果表明，在31.8亿年前之前的约1.7亿年期间，皮尔巴拉东部的平均纬度漂移速率≥2.5厘米/年，这一速度与现代板块相当。这一结果是迄今发现的最早的确凿证据，证明了岩石圈的远距离运动。假设这种运动主要是由板块运动而非真极移引起的，那么该结果与32亿年前就已存在的均变论或幕式构造过程相一致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c2f4/7176424/e34f7e66f853/aaz8670-F1.jpg

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32亿年前类似现代板块运动速度的古地磁证据。

Paleomagnetic evidence for modern-like plate motion velocities at 3.2 Ga.

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