A regional chemostratigraphically-defined correlation framework for the late Triassic TAG-I Formation in Blocks 402 and 405a, Algeria

Ratcliffe, Kenneth T.; Martin, John H.; Pearce, Tim; Hughes, Alun D.; Lawton, D.E.; Wray, David S.; Bessa, Fadila

doi:10.1144/1354-079305-669

Cited by 48 publications

(30 citation statements)

References 9 publications

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“…Publications on siliciclastic chemostratigraphy advocate that different lithologies should be considered separately from one another when defining stratigraphic correlations (Pearce et al 2005;Ratcliffe et al 2006Ratcliffe et al , 2015Hildred et al 2010). This, the authors argue, negates changes in elemental composition that reflect gross lithological changes, thereby allowing more subtle variations in elemental chemistry that reflect provenance, climate, etc., to be recognized in lithologically similar facies.…”

Section: Lithological Normalization and Separationmentioning

confidence: 99%

Using Elemental Chemostratigraphy on Mid–Late Frasnian Platform-Top Successions from the Lennard Shelf Outcrops, Canning Basin, Western Australia

Ratcliffe¹,

Playton²,

Montgomery³

et al. 2017

New Advances in Devonian Carbonates: Outcrop Analogs, Reservoirs, and Chronostratigraphy

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High-resolution chronostratigraphic correlation using elemental chemostratigraphy in platform carbonates is typically difficult to achieve. Here, elemental chemostratigraphy is used to correlate between two platform-top, carbonate-dominated field sections from the narrow Lennard Shelf that existed on the NE margin of the Canning Basin, Western Australia, during the mid-late Frasnian. The correlation, constrained by magnetic polarity reversals and physical ground truthing, is based on recognition of distinctive cyclical ''stacking patterns'' defined by changes in concentrations of the trace element zirconium (Zr). Zr concentrations are controlled by the amount of the heavy mineral zircon in the sediments, which is derived from a terrigenous source and is diagenetically very stable. The stacking patterns in the lower part of the study sections display gradually upward-increasing values of Zr to a maximum, followed by an almost immediate fall to a minimum. In the upper part of the study interval, the cycles are more symmetrical, with both gradually increasing and decreasing portions. The point at which the change in Zr stacking pattern occurs in the two sections is synchronous and occurs in association with a supersequence maximum flooding surface. The correlation based on maximum and minimum Zr values throughout the two sections is demonstrated to be chronostratigraphic by comparison with correlations based upon paleomagnetism and physical ground truthing.When element ratios commonly used as provenance and paleoclimate proxies are plotted, the variations between closely spaced samples are greater than any systematic variations throughout the study intervals. Therefore, no isochemical chemozones can be defined, implying that during deposition of the study intervals, there were no long-lived changes in sediment provenance or paleoclimate that the elemental chemistry can detect.The work presented here shows that the standard approach of defining isochemical chemozones for chemostratigraphic correlation is not always appropriate. However, an approach using cyclical changes in elemental variables for chemostratigraphic correlation between two closely spaced sections is chronostratigraphically valid. The greater challenge is in application of the same approach to more widely spaced sections, potentially in different facies of a carbonate setting.

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Section: Lithological Normalization and Separationmentioning

confidence: 99%

Using Elemental Chemostratigraphy on Mid–Late Frasnian Platform-Top Successions from the Lennard Shelf Outcrops, Canning Basin, Western Australia

Ratcliffe¹,

Playton²,

Montgomery³

et al. 2017

New Advances in Devonian Carbonates: Outcrop Analogs, Reservoirs, and Chronostratigraphy

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“…: Ratcliffe et al 2006, Pearce et al 1999, 2010, Hildred et al 2011. The ability to identify the most promising and richest (perforating) zones within the shale is derived from the geochemical data to mineralogy, and it is possible for shale objectives to estimate real reserves on a more confident and correlatable basis.…”

Section: Inorganic Geochemistrymentioning

confidence: 99%

Shale gas plays, Neuquén Basin, Argentina: chemostratigraphy and mud gas carbon isotopes insights

Ostera

Garcia²,

Malizia³

et al. 2016

Braz. J. Geol.

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In order to enhance the knowledge of shale objectives from Vaca Muerta and Los Molles Formations in the Neuquén Basin, Argentina, chemostratigraphic and mud gas carbon isotope analyses were performed in two wells from Agua del Cajón and Salitral oilfields (ADC-1016 and NqSa-1148). Geochemical data show restricted levels in both cases to perforate and produce. In ADC-1016 well, Lower Los Molles Formation looks like the most suitable play to be produced. At El Salitral oilfield (NqSa-1148), the best remarkable Vaca Muerta-Quintuco objectives are associated with authigenic elements, in limited horizons. Enhancement of the Quintuco reservoir by deep circulating fluids (thermobaric reservoir) is suggested. Carbon isotope analysis reveals complex processes that affected the gas composition. Addition of microbial methane, biodegradation of ethane-propane and mixing of gases has been recognized. Isotope reversals and presumed water reforming of hydrocarbons have been registered associated with overpressure for Lower Los Molles Formation in the ADC-1016 well, which is pointed out as the most promising shale play in the area. Vaca Muerta gases at Agua del Cajon ADC- 1016 well are associated with the homonymous source. El Salitral 1148 well shows that primary isotope composition in gases from Vaca Muerta shale play and Quintuco reservoir could be associated with a Lower Los Molles source, an aloctonous charge related with the main structures of the area.

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“…Element ratios have been applied for geochemical and chemostratigraphical comparison by a number of authors, e.g. Ehrenberg and Siring (1992), Pearce et al (1999) and Ratcliffe et al (2006).…”

Section: Depositional Differencesmentioning

confidence: 99%

Chemostratigraphy of upper Jurassic reservoir sandstones, Danish Central Graben, North Sea

Weibel

Johannessen

Dybkjær

et al. 2010

Marine and Petroleum Geology

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A regional chemostratigraphically-defined correlation framework for the late Triassic TAG-I Formation in Blocks 402 and 405a, Algeria

Cited by 48 publications

References 9 publications

Using Elemental Chemostratigraphy on Mid–Late Frasnian Platform-Top Successions from the Lennard Shelf Outcrops, Canning Basin, Western Australia

Using Elemental Chemostratigraphy on Mid–Late Frasnian Platform-Top Successions from the Lennard Shelf Outcrops, Canning Basin, Western Australia

Shale gas plays, Neuquén Basin, Argentina: chemostratigraphy and mud gas carbon isotopes insights

Chemostratigraphy of upper Jurassic reservoir sandstones, Danish Central Graben, North Sea

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