Late Permian marine ecosystem collapse began in deeper waters: evidence from brachiopod diversity and body size changes

He, Wei; Shi, G.R.; Twitchett, Richard J.; Zhang, Y.; Zhang, K.-X.; Song, Haijun; Yue, Mingliang; Wu, Siqi; Wu, Huiting; Yang, Tinglu; Xiao, Yifan

doi:10.1111/gbi.12119

Cited by 68 publications

(28 citation statements)

References 51 publications

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“…Although the causal mechanisms remain the subject of considerable debate, most studies recognize that the extinction is associated with climate-induced environmental changes triggered by Siberian Trap volcanism (Algeo et al 2011;Burgess and Bowring 2015). Anoxia, euxinia, high sea-surface temperatures, and ocean acidification have been invoked as the leading drivers of extinctions in the oceans (e.g., Wignall and Twitchett 1996;Grice et al 2005;Knoll et al 2007;Kearsey et al 2009;Nabbefeld et al 2010;He et al 2015;Wignall et al 2016). However, other environmental changes, including increased sediment fluxes, eutrophication, and sea-level rise are thought to have contributed to the severity of the event (Algeo and Twitchett 2010;Algeo et al 2011;Schobben et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Paleoecological Analysis of Benthic Recovery After the Late Permian Mass Extinction Event in Eastern Lombardy, Italy

Foster

Danise

Price

et al. 2018

Palaios

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The late Permian mass extinction was the most severe biotic crisis of the Phanerozoic, with associated environmental changes that included the expansion of hypoxic and anoxic conditions in shallow shelf settings. It has been hypothesized that wave aeration promoted oxygen transport to the seafloor providing a 'habitable zone' in the shallowest marine environments that allowed the survival and rapid recovery of benthic invertebrates during the Early Triassic. We test this hypothesis by studying the rock and fossil records of the Lower Triassic Servino Formation, Italy. We also provide the first d 13 C carb isotope curve, and present new occurrence data of stratigraphically important fossils (i.e., cf. Tirolites cassianus), to improve the stratigraphic framework of the Servino Formation. The low-diversity fossil assemblages of the Servino Formation have similar compositions to other western Paleotethyan localities. Facies analysis demonstrates that benthic invertebrates were restricted to waveaerated settings, supporting the proposed 'habitable zone' hypothesis. However, there is no evidence for rapid recovery in the 'habitable zone' prior to the Spathian, which may indicate additional environmental stresses. In the lower Spathian Myophoria Beds Member, an increase in taxonomic and functional richness, the appearance of stenohaline, erect taxa, significant turnover, and increased heterogeneity in the composition of benthic assemblages indicate significant benthic recovery, which is attributed to reduced environmental stress. Prior to the late Spathian ''Upper Member'', bioturbation is poorly developed and restricted to only a few thin horizons, but in the ''Upper Member'' the intensity of bioturbation and proportion of bioturbated rock increase. This change can be attributed to climatic cooling and a related decrease in environmental stress. This upper Spathian recovery pulse can now be traced across the western Paleotethys, in both nearshore and deep offshore (below wave base) settings.

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Section: Introductionmentioning

confidence: 99%

Paleoecological Analysis of Benthic Recovery After the Late Permian Mass Extinction Event in Eastern Lombardy, Italy

Foster

Danise

Price

et al. 2018

Palaios

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“…According to previous studies (Feng and Jiang, 1978;Shen and He, 1994;Xu and Grant, 1994;Chen et al, 2002Chen et al, , 2005bHe et al, 2014b), at least 38 articulated brachiopod species were reported from the early Griesbachian to Spathian intervals after the end-Permian mass extinction. They are distributed widely in South China (Fig.…”

Section: Methodsmentioning

confidence: 96%

“…Recent studies (Chen et al, 2006a, b;He et al, 2014b) show that the early Griesbachian brachiopods in South China were distributed mainly in the Zhejiang Province (Meishan and Huangzhishan), Guizhou Province (Zhongzhai), Sichuan Province (Taipingshan) and Hunan Province (Rencunping) ( Fig. 1; Appendix A).…”

Section: Early Griesbachianmentioning

confidence: 97%

Recovery pattern of brachiopods after the Permian–Triassic crisis in South China

Chen

Tong

Song

et al. 2015

Palaeogeography, Palaeoclimatology, Palaeoecology

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“…But nearly all analyses carried out thus far, including those in the past few years, have used first-generation methods [48][49][50][51]. Why have first-generation methods persisted?…”

Section: Going Forwardmentioning

confidence: 99%

Estimating times of extinction in the fossil record

Wang

Marshall

2016

Biol. Lett.

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Because the fossil record is incomplete, the last fossil of a taxon is a biased estimate of its true time of extinction. Numerous methods have been developed in the palaeontology literature for estimating the true time of extinction using ages of fossil specimens. These methods, which typically give a confidence interval for estimating the true time of extinction, differ in the assumptions they make and the nature and amount of data they require. We review the literature on such methods and make some recommendations for future directions.

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Late Permian marine ecosystem collapse began in deeper waters: evidence from brachiopod diversity and body size changes

Cited by 68 publications

References 51 publications

Paleoecological Analysis of Benthic Recovery After the Late Permian Mass Extinction Event in Eastern Lombardy, Italy

Paleoecological Analysis of Benthic Recovery After the Late Permian Mass Extinction Event in Eastern Lombardy, Italy

Recovery pattern of brachiopods after the Permian–Triassic crisis in South China

Estimating times of extinction in the fossil record

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