Gippsland Terrestrial Oils — Recognition of Compositional Variations Due to Maturity and Biodegradation Effects

Burns, B. J.; Bostwick, T.R.; Emmett, John K.

doi:10.1071/aj86008

Cited by 10 publications

(2 citation statements)

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“…In Block 16/26, further consumption of the n-alkanes leaves denuded residuum which, in a qualitative visual sense, shows increasing biodegradative alteration. Many authors (Burns et al 1987;Horstad et al 1992) note the sequential metabolism of the lighter (n-C10) followed by waxy and mid- range n-alkanes as a prelude to vigorous acyclic alkane (pristane etc.) removal.…”

Section: Crude Oil Provenance and Characteristicsmentioning

confidence: 97%

The reservoir geochemistry and petroleum charging histories of Palaeogene-reservoired fields in the Outer Witch Ground Graben

Mason¹,

Burwood²,

Mycke³

1995

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Post-Chalk, particularly Tertiary, reservoired oils of the North Sea show a wide range of gross composition and frequent indications of biodegradative alteration. The latter has been associated with shallower reservoir depths and complex emplacement and accumulation histories. Comprising a detailed case study, lateral and vertical variations in petroleum composition within the Eocene-reservoired Chestnut and Alba Fields in the Outer Witch Ground Graben have been evaluated using bulk properties gas chromatography (GC), GC-mass spectrometry and isotopic techniques. The oils have experienced varying degrees of in-reservoir biodegradation. They were generated at an early main phase of source-rock maturity. The migration pathway to the Eocene reservoir is thought to be controlled by selective reactivation of Jurassic faults at times of compressional movement during the Tertiary. Using this model in conjunction with subsidencehistory profiles, the timing of generation has been investigated and the temperature of the Eocene reservoir at petroleum emplacement has been estimated. The dominant control on biodegradative alteration is believed to be associateded with the distance from meteoric water influx and the available oxygen budget. According to distance from the hydrostatic head, an apparent decline in biodegradation, albeit showing contradictory levels of alteration, was observed along the trend. Various in-reservoir mechanisms to account for this apparent decline, including topping-up, intermediate transformation products and differential oil-column attack, have been evaluated. The study continues with the objectives of investigating the compositional variations of petroleums reservoired within Lower Cretaceous sandstones and the charging relationships between these and the Eocene reservoirs.

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Section: Crude Oil Provenance and Characteristicsmentioning

confidence: 97%

The reservoir geochemistry and petroleum charging histories of Palaeogene-reservoired fields in the Outer Witch Ground Graben

Mason¹,

Burwood²,

Mycke³

1995

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show abstract

“…The oils from the Gippsland Basin (Australia) are sourced from the Late Cretaceous Latrobe Group sediments (Moore et al, 1992) and have a predominantly terrestrial signature (Shanmugam, 1985;Burns et al, 1987). The non-biodegraded Sunfish-1 oil (Fig.…”

Section: Land-plant Oilsmentioning

confidence: 99%

Use of comprehensive two-dimensional gas chromatography/time-of-flight mass spectrometry for the characterization of biodegradation and unresolved complex mixtures in petroleum

Tran

Logan

Grosjean

et al. 2010

Geochimica et Cosmochimica Acta

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Oil and gas in Australia

Wopfner

1988

GeoJournal

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Gippsland Terrestrial Oils — Recognition of Compositional Variations Due to Maturity and Biodegradation Effects

Cited by 10 publications

References 0 publications

The reservoir geochemistry and petroleum charging histories of Palaeogene-reservoired fields in the Outer Witch Ground Graben

The reservoir geochemistry and petroleum charging histories of Palaeogene-reservoired fields in the Outer Witch Ground Graben

Use of comprehensive two-dimensional gas chromatography/time-of-flight mass spectrometry for the characterization of biodegradation and unresolved complex mixtures in petroleum

Oil and gas in Australia

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