High‐resolution Lopingian (Late Permian) timescale of South China

Shen, Shu-zhong; Henderson, Charles M.; Bowring, Samuel A.; Cao, Changqun; Wang, Yue; Wang, Wei; Zhang, Hua; Zhang, Yichun; Mu, Lin

doi:10.1002/gj.1232

Cited by 81 publications

(49 citation statements)

References 105 publications

(138 reference statements)

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“…If this hypothesis is correct and the erosion occurred shortly after the deposition, our new CA-TIMS age (259.1 ± 0.5 Ma) for the felsic ignimbrite sample in the Binchuan section may provide an indirect constraint on the age of the G-L boundary. It is also worth emphasizing that our new date is in good agreement with the age of the G-L boundary suggested by Shen et al (2010).…”

Section: Implications For the Age Of The Guadalupian-lopingian Boundarysupporting

confidence: 90%

CA-TIMS zircon U–Pb dating of felsic ignimbrite from the Binchuan section: Implications for the termination age of Emeishan large igneous province

Zhong

Mundil

et al. 2014

Lithos

202

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Section: Implications For the Age Of The Guadalupian-lopingian Boundarysupporting

confidence: 90%

CA-TIMS zircon U–Pb dating of felsic ignimbrite from the Binchuan section: Implications for the termination age of Emeishan large igneous province

Zhong

Mundil

et al. 2014

Lithos

202

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“…The Early-Middle Permian downwards trend of the marine 87 Sr/ 86 Sr curve has been used to improve age constraints in multiple localities: for example, Japan (Miura et al 2004), Russia (Nurgalieva et al 2007), Spitsbergen (Ehrenberg (Burke et al 1982;Denison et al 1994;Morante 1996;Korte et al 2006;Kani et al 2008Kani et al , 2013Wignall et al 2009;Shen et al 2010;Tierney 2010;Liu et al 2013). These low values are the lowest recorded for the entire Palaeozoic and very close to the Phanerozoic minimum at the Middle-Late Jurassic transition (Jones et al 1994;McArthur et al 2012), and therefore an important chemostratigraphic marker.…”

Section: The Asselian-capitanian 87 Sr/ 86 Sr Decreasementioning

confidence: 99%

Permian strontium isotope stratigraphy

Korte

Ullmann

2016

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Abstract:The secular evolution of the Permian seawater 87 Sr/ 86 Sr ratios carries information about global tectonic processes, palaeoclimate and palaeoenvironments, such as occurred during the Early Permian deglaciation, the formation of Pangaea and the Permian-Triassic (P-Tr) mass extinction. Besides this application for discovering geological aspects of Earth history, the marine 87Sr/86Sr curve can also be used for robust correlations when other bio-, litho-and/or chemostratigraphic markers are inadequate. The accuracy of marine 87 Sr/ 86 Sr reconstructions, however, depends on high-quality age control of the reference data, and on sample preservation, both of which generally deteriorate with the age of the studied interval. The first-order Permian seawater 87 Sr/ 86 Sr trend shows a monotonous decline from approximately 0.7080 in the earliest Permian (Asselian) to approximately 0.7069 in the latest Guadalupian (Capitanian), followed by a steepening increase from the latest Guadalupian towards the P-Tr boundary (c. 0.7071-0.7072) and into the Early Triassic. Various higher-order changes in slope of the Permian 87 Sr/ 86 Sr curve are indicated, but cannot currently be verified owing to a lack of sample coverage and significant disagreement of published 87 Sr/ 86 Sr records.

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“…For instance, different researchers followed different Permian-Tiassic boundary ages such as 252.6 Ma (Huang et al, 2008b) and 245 Ma (Hu et al, 2010) respectively in different strontium isotope stratigraphy researches in Zhongliangshan Section and Yangtianwo section of Huaying Mountain, even though both sections located in the Upper Yangtze Region in South China. If Guadalupian-Lopingian boundary defined as 259 Ma (Shen et al, 2010a), they will conclude that the time span of Lopingian is 6.4 and 14 Ma respectively. The inconsistent time spans will inevitably lead to a drastic difference of 87 Sr/ 86 Sr evolutionary curves.…”

mentioning

confidence: 99%

Biostratigraphy constraining strontium isotopic stratigraphy and its application on the Lopingian (Late Permian)

Liu

Wang

et al. 2015

Sci. China Earth Sci.

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The Lopingian is one of the fastest rising periods of seawater strontium isotopic ratios ( 87 Sr/ 86 Sr) in earth history, and its mechanisms and increasing rates of the 87 Sr/ 86 Sr evolution were still disputed widely. These disputations among researchers were caused mainly by timeframe selection (sections' thickness or data of radiometric ages), and different stratigraphic boundaries and un-upmost dated ages. This paper examined published 87 Sr/ 86 Sr data of the Lopingian, and projected them on timescales based on evolutionary and age constrained conodonts fossils. 87 Sr/ 86 Sr evolution vs fossil constraining timescales was re-established in this period. This research suggests: (1) 87 Sr/ 86 Sr excursion projects on fossil zones can truly support 87 Sr/ 86 Sr evolutionary pattern in the period; (2) 87 Sr/ 86 Sr evolution provides a new approach for stratigraphic research of marine carbonate sections in lieu of biostratigraphic data; (3) 87 Sr/ 86 Sr stratigraphy works on marine carbonate sections of different sedimentation rates even between different basins; (4) the 87 Sr/ 86 Sr data and its shift was dependent on samples materials and chemical treatment methods; (5) the increasing rate of marine water 87 Sr/ 86 Sr in the Late Permian is suggested as 5.4×10 5 /Ma or slightly lower; (6) sedimentation age and its 87 Sr/ 86 Sr of the Lopingian marine carbonate suggested as: D PRO =259(R S  0.70695)/5.4×10 5 ±1 Ma.Permian, Lopingian, strontium isotopic ratio, conodont zone, marine carbonate, stable isotope chemostratigraphy Citation:

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High‐resolution Lopingian (Late Permian) timescale of South China

Cited by 81 publications

References 105 publications

CA-TIMS zircon U–Pb dating of felsic ignimbrite from the Binchuan section: Implications for the termination age of Emeishan large igneous province

CA-TIMS zircon U–Pb dating of felsic ignimbrite from the Binchuan section: Implications for the termination age of Emeishan large igneous province

Permian strontium isotope stratigraphy

Biostratigraphy constraining strontium isotopic stratigraphy and its application on the Lopingian (Late Permian)

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