Stephen J. Drake scite author profile

The Baram Delta province of NW Borneo is unusual when compared with most other Tertiary deltas, as it has built up upon an active margin. Hence, structures observed in the Baram Delta province are the result of both margin-parallel gravity-driven deltaic tectonics and approximately margin-normal transpressive tectonics associated with the active margin. Image and dipmeter logs have been examined for breakouts and drilling-induced tensile fractures (DITFs) in 47 wells throughout Brunei. Breakouts and DITFs observed in 19 wells suggest that the maximum horizontal stress is oriented margin-normal (NW-SE) in the proximal parts of the basin and margin-parallel (NE-SW) in the outer shelf region. The margin-parallel outer shelf stress field is interpreted as a local 'deltaic' stress field caused by the shape of the clastic wedge. The margin-normal maximum horizontal stress in the inner shelf is interpreted to reflect basement stresses associated with the active margin. However, the maximum horizontal stress in the inner shelf is approximately perpendicular to the strike of Miocene-Pliocene normal growth faults, suggesting that maximum horizontal stress in the inner shelf has rotated from margin-parallel ('deltaic') to margin-normal ('basement-associated') over time. Hence, approximately the same stress rotation has occurred over time in the inner shelf as is currently observed spatially from the outer to inner shelf. The spatial and temporal stress rotations in Brunei are thus interpreted to be the result of 'deltaic' and 'basement-associated' tectonic regimes that are 'prograding' basin-wards. The proximity of the active margin has resulted in progressive uplift and inversion of the hinterland that has 'forced' the delta system to prograde rapidly. The zone of active deltaic growth faulting (and margin-parallel maximum horizontal stress) has shifted basin-wards ('prograded') as the delta system has rapidly prograded across the shelf. After uplift and delta progradation, the old growth faults of the inner shelf ceased being active and have then been successively reactivated by a similarly 'prograding' margin-normal inversion front.

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Structural style and reservoir development in the West Netherlands oil province

A¹,

Drake²

1996

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Curlew-C: realising production from a UK Central North Sea chalk field

Drake

Large

McQueen³

et al. 2015

Proceedings of the Geologists' Association

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Prograding' Deltaic Tectonics in Brunei - Implications for Fault Sealing

Tingray¹,

Hillis²,

Morley³

et al. 2003

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Temporal and spatial variations in calcium carbonate deposition in a mixed siliciclastic–carbonate deep marine system: the Ediacaran Deeside Limestone Formation, Aboyne, Scotland

Drake

Gomez‐Rivas

Ickert

et al. 2022

SJG

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The Deeside Limestone Formation (DLF) outcropping in Western Aberdeenshire, comprises the eastern margin of a distinctive Upper Dalradian mixed siliciclastic-carbonate system of Ediacaran age which may be correlated south-westward for more than 400 kms to County Donegal in Ireland. A reconstructed stratigraphic column suggests three broad vertical sequences (S1-S3), each comprising a general upward proportionate increase in calcium carbonate with respect to quartz, locally capped by metalimestones (L1-L3). A simple explanation for this upward change lies in the differing physical response of the two heterolithic components under the same hydrodynamic process, with the heavier quartz grains preferentially enriching the bedload and the finer carbonate mud fraction, the suspended load. The three metalimestone intervals are observed only in central/eastern parts of the field area suggesting a lateral facies variation. The predominance of calcareous-siliciclastic bed-scale compositional mixing within the DLF suggests sedimentation on the Dalradian shelf comprised contemporaneous mixing of the siliciclastic and carbonate fractions prior to subsequent re-mixing during transportation downslope into the deep-water, punctuated by pulses of point sourced siliciclastic input.

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Stephen J. Drake

Present-day stress orientation in Brunei: a snapshot of ‘prograding tectonics’ in a Tertiary delta

Structural style and reservoir development in the West Netherlands oil province

Curlew-C: realising production from a UK Central North Sea chalk field

Prograding' Deltaic Tectonics in Brunei - Implications for Fault Sealing

Temporal and spatial variations in calcium carbonate deposition in a mixed siliciclastic–carbonate deep marine system: the Ediacaran Deeside Limestone Formation, Aboyne, Scotland

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