Structural evolution of shale diapirs from reactive rise to mud volcanism: 3D seismic data from the Baram delta, offshore Brunei Darussalam

doi:10.1144/gsjgs.156.3.0633

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Journal of the Geological Society; 1999; v. 156; issue.3; p. 633-650;
DOI: 10.1144/gsjgs.156.3.0633
© 1999 Geological Society of London

Article

Structural evolution of shale diapirs from reactive rise to mud volcanism: 3D seismic data from the Baram delta, offshore Brunei Darussalam

P. VAN RENSBERGEN¹, C. K. MORLEY¹, D. W. ANG², T. Q. HOAN³ & N. T. LAM⁴

¹ Department of Petroleum Geosciences, Universiti Brunei Darussalam, Bandar Seri Begawan 2028, Brunei Darussalam (e-mail: pieter_vanrensbergen{at}yahoo.com)
² 95, Lrg. Murni 21, Tmn Desa Murni, 13800 Butterworth, Penang, Malaysia
³ Pe1tro Vietnam, Exploration & Production, Block Gl, Thanh Da Hotel, Ward 27, Binh Tanh District, Ho Chi Minh City, Vietnam
⁴ Vietnam Petroleum Institute, Yenhoa Tu Liem, Hanoi, Vietnam

Two areas of shale diapirism in a deltaic setting were examinedusing 3D seismic data from offshore Brunei to determine theorigin, evolution and geometry of shale diapirs. The study areascover parts of the Egret and Ampa fields within the Baram Deltaprovince. The Ampa diapir consists of a small bulge of the mobileSetap shale around which lies a zone of chaotically disruptedcountry-rock reflections. At the crest of this chaotic zone,vertical, cylindrical shale pipes arise that end in a widerhead. The diapir heads wear halos of high amplitude reflections,probably due to the presence of methane gas. The Egret datashow the same features, except that the bulge of the sourcelayer is not detected due to low reflectivity and chaotic reflectionsat the base of the overburden. The bulging of the Setap shaleon the Ampa data is interpreted as modified reactive diapirismin response to differential loading. The initial reactive diapirshape was modified by lateral or oblique upward migration offluidized shales into the hanging wall of the fault controllingthe reactive diapir. This probably occurred as a network ofdykes and sills. The presence of some preserved bedding is indicatedby weak but coherent reflectivity from the area initially definedas chaotic shale.

The spreading of overpressure and the injection of shale intothe overburden is thought to be a late phenomenon, possiblyLate Pliocene or Early Pleistocene and the mobility of the shaleis attributed to overpressure increase due to gas generationwithin the Setap shale and maybe the lower part of the overburden.Gas migration, perhaps ahead of the diapir intrusion, probablyfacilitated the mud injection. The Ampa and Egret diapirs formedin two diapiric phases, an early reactive diapirism and a lateractive diapirism. But the phases have little in common; theyare seperated by about 9 million years of inactivity and differin process and probably differ in degree of overpressure, inoverpressure generating mechanism, and in properties of thediapiric mud.

Key Words: Brunei • shale diapirs • 3D seismic • overpressure • mud volcanoes

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