Abstract
Hosting up to 3.3 billion barrels of oil in place, the upfaulted Precambrian crystalline rocks of the Lancaster field, offshore west of Shetland, give key insights into how fractured hydrocarbon reservoirs can form in such old rocks. The Neoarchean (c. 2700–2740 Ma) charnockitic basement is cut by deeply penetrating oil-, mineral- and sediment-filled fissure systems seen in geophysical and production logs and thin sections of core. Mineral textures and fluid inclusion geothermometry suggest that a low-temperature (<200°C) near-surface hydrothermal system is associated with these fissures. The fills help to permanently prop open fissures in the basement, permitting the ingress of hydrocarbons into extensive well-connected oil-saturated fracture networks. U–Pb dating of calcite mineral fills constrains the onset of mineralization and contemporaneous oil charge to the mid-Cretaceous and later from Jurassic source rocks flanking the upfaulted ridge. Late Cretaceous subsidence and deposition of mudstones sealed the ridge, and was followed by buoyancy-driven migration of oil into the pre-existing propped fracture systems. These new observations provide an explanation for the preservation of intra-reservoir fractures (‘joints’) with effective apertures of 2 m or more, thereby highlighting a new mechanism for generating and preserving fracture permeability in sub-unconformity fractured basement reservoirs worldwide.Supplementary material: Analytical methods and isotopic compositions and ages are available at https://doi.org/10.6084/m9.figshare.c.4763237Thematic Collection: This article is part of the Geology of Fractured Reservoirs collection available at: https://www.lyellcollection.org/cc/the-geology-of-fractured-reservoirs
Highlights
More than 125 hydrocarbon fields with fractured basement reservoirs have been recognised worldwide (e.g. P’an, 1982; Koning, 2003; Gutmanis, 2009; Cuong and Warren, 2009; Trice 2014), but their geology and the processes that lead to the accumulation of significant volumes of hydrocarbons are poorly understood
Affiliation & significance of the Lancaster basement The ca 2743-2731 Ma U-Pb zircon ages from the 3 basement well samples dated fall in the centre of the range of Neoarchaean ages (2700-2829 Ma) obtained by Holdsworth et al (2018) and Chambers et al (2005) from basement orthogneisses found in 20 borehole cores covering a wide offshore region north of Scotland and west of Shetland
T Kinny et al (2019) have obtained an almost identical set of ages (2746–2726 Ma) onshore IP from 7 samples of Uyea granitic gneisses and associated metagabbros in northernmost R mainland of Shetland. Like all of these rocks, the Lancaster basement lacks any SC geochronological or metamorphic evidence for younger Proterozoic reworking as seen in U the Lewisian Complex of mainland Scotland and the Hebrides (e.g. Inverian and Laxfordian AN events)
Summary
The nature and age of basement host rocks and fissure fills in the Lancaster field fractured reservoir, West of Shetland. Late T Cretaceous subsidence and deposition of mudstones sealed the ridge, and was followed by P buoyancy-driven migration of oil into the pre-existing propped fracture systems. These new E observations provide an explanation for the preservation of intra-reservoir fractures C (‘joints’) with effective apertures of two meters or more, thereby highlighting a new C mechanism for generating and preserving fracture permeability in sub-unconformity A fractured basement reservoirs worldwide
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