Inversion tectonics in the Malay Basin: evidence and timing of events

702001-100971-768-B
Author : H.D. Tjia
Publication : Bulletin of the Geological Society of Malaysia
Page : 119-126
Volume Number : 36
Year : 1994
DOI : https://doi.org/10.7186/bgsm36199411

Bulletin of the Geological Society of Malaysia, Volume 36, Dec. 1994, pp. 119-126

Inversion tectonics in the Malay Basin: evidence and timing of events

H.D. TJIA

Petronas Research & Scientific Services Sdn. Bhd., Lot 1026 PKNS Industrial Estate, 54200 Hulu Kelang

 

Abstract: Pre-Oligocene half grabens of the Malay Basin suggest a tensional origin, while their uparched/folded Oligocene to upper Miocene sedimentary fills have been accepted to represent a laterstage compressional deformation. This structural inversion probably took place in middle to late Miocene time. The tensional regime has been attributed to “extrusion” of continental Southeast Asia (including the Malay Basin basement) as result of hard collision between the Indian subcontinental plate with the Asian Plate in the vicinity of Tibet. The regional compression of Miocene time was most probably the result of change in motion of the Pacific Plate from an earlier NNW direction to a westward direction combined with the buttressing effect of the northward progression of the Indo-Australian Plate.

New evidence of inversion tectonics in the Malay Basin comprises the following examples. (1) The planimetric shapes and patterns of fault-bounded basins along the Hinge Fault Zone on the west edge of the Malay Basin suggest them to represent pull-apart depressions formed by dextral wrenching, but the NNW-striking folds of Tertiary sediments within these depressions indicate sinistral strike-slip motion as their cause. (2) The shapes of pull-apart basins within one (Laba to Mesah) of the five major, north-trending fault zones and associated en echelon fracture patterns indicate sinistral wrenching, whereas drag features and approximately 30 km horizontal separation of anticlinal zones suggest dextral lateral motion. (3) The right-stepping arrays of fractures across post-Oligicene basin fill suggest sinistral wrenching on a buried NW-trending fault zone along the basin‘s axis. However, the east-west striking folds involving Oligocene to upper Miocene sediments display en echelon arrays formed by dextral transcurrent motion along the basin‘s axial zone.

https://doi.org/10.7186/bgsm36199411


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