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Is the Mesoarchean Mulgandinnah shear zone, Pilbara Craton, the world’s oldest arc-slicing transform fault?
Date: 2024-07-28      SourceLink:      ClickTimes:

Is the Mesoarchean Mulgandinnah shear zone, Pilbara Craton, the world’s oldest arc-slicing transform fault?


Abdelmottaleb Aldoud1,2, Timothy Kusky1,3,*, and Lu Wang1

1 State Key Laboratory of Geological Processes and Mineral Resources, Center for Global Tectonics, School of Earth Sciences, China University of Geosciences, Wuhan 430074, China

2 Faculty of Earth Sciences, Red Sea University, Sudan

3 Badong National Observation and Research Station of Geohazards, China University of Geosciences, Wuhan 430074, China



         Arc-slicing transform faults represent an integral component of convergent margin tectonics. They are developed above oblique subduction systems, cutting through and displacing the entire magmatic section of arcs, leading to tectonic repetition of segments of the overriding plate in the ensuing orogenic collage. Extant examples clearly show this process in Sumatra, New Zealand, and the Philippines, while ancient examples are reported from the Paleozoic Altaids and Neoarchean Superior and Yilgarn cratons. Here, we report data that document that the Paleo-Mesoarchean Eastern Pilbara craton, recently interpreted to be a preserved midupper crustal level of a magmatic arc, is cut and repeated by a major 3.0–2.93 Ga arc-slicing fault, the Mulgandinnah, which sliced a previously 600 × 100 km segment of a Mesoarchean arc system, laterally moving different segments to their presently juxtaposed 200 × 200 km preserved fragment. This evidence demonstrates lateral plate motions by 3.0 Ga and shows oblique subduction, arc plutonism, arc-slicing, and repetition, reflecting that crustal growth in modern-style convergent margins was in full operation by the Mesoarchean.


Original source: Aldoud, A., Kusky T., and Wang L., 2024. Is the Mesoarchean Mulgandinnah shear zone, Pilbara Craton, the world’s oldest arc-slicing transform fault? Geology, https://doi .org /10 .1130 /G52360 .1

Figure 4. Formation of the present-day preserved Pilbara craton by arc-slicing of a formerly linear magmatic arc batholith belt and outboard accretionary complex, during Paleo-Mesoarchean oblique plate motions. The pink plutonic complex with dashed lines is based on the geophysical interpretation of rocks under younger cover (Supplemental Material; see text footnote 1). MSZC—Mulgandinnah shear zone complex.