The diversification and extinction of Doushantuo‐Pertatataka acritarchs in South China: causes and biostratigraphic significance

Zhou, Chuanming; Xie, Guobo; McFadden, Kathleen A.; Xiao, Shuhai; Yuan, Xunlai

doi:10.1002/gj.1062

Cited by 150 publications

(15 citation statements)

References 74 publications

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“…Elsewhere in the world Doushantuo-Pertatataka-type acanthomorphs occur generally in rocks that predate or are synchronous with carbon isotope excursions interpreted to be equivalent to the Shuram excursion (Zhou et al, 2007;Xiao et al, 2016;Zhou et al, 2017). The similarity between the Khesen assemblage reported here and that Publisher: GSA Journal: GEOL: Geology DOI:10.1130/G39576.1 Page 8 of 17 of the older Doushantuo Formation includes the presence of Appendisphaera grandis and A. tenuis, Cavaspina ?basiconica, Megasphaera, and Variomargosphaeridium gracile (Xiao et al, 2014b).…”

Section: The Age Of the Khesen Assemblagementioning

confidence: 60%

“…We have reworded this sentence to read: "Elsewhere in the world Doushantuo-Pertatataka-type acanthomorphs occur generally in rocks that predate or are synchronous with carbon isotope excursions interpreted to be equivalent to the Shuram carbon isotope excursion (Zhou et al, 2007;Xiao et al, 2016;Zhou et al, 2017)" for the reasons detailed in our response to the comment on lines 162-164 above. Please see lines 157-160 in the revised manuscript.…”

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confidence: 99%

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Doushantuo-type microfossils from latest Ediacaran phosphorites of northern Mongolia

Anderson

Macdonald

Jones

et al. 2017

Geology

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Phosphorites of the latest Ediacaran upper Khesen Formation in the Khuvsgul Group of northern Mongolia preserve a newly discovered, three-dimensionally phosphatized Doushantuo-type microfossil assemblage. Eight genera include the second occurrence of the putative multicellular fossil animal embryo Megasphaera outside South China, the Doushantuo-Pertatataka-type acanthomorphic acritarchs Appendisphaera, Cavaspina, and Variomargosphaeridium, and the possible alga Archaeophycus yunnanensis. The assemblage occurs in the lowermost phosphorite horizon in foreland basin deposits on the Khuvsgul terrane; lithostratigraphic and 13C correlation with the Zavkhan terrane of southwestern Mongolia establish a latest Ediacaran age for the fossiliferous phosphorites. Thus, this is the youngest Doushantuo-type assemblage yet reported. It extends the range of Megasphaera, filling a gap in the record of phosphatized embryo-like forms between the ~600 Ma Doushantuo Weng'an Biota and Cambrian examples. The Khesen fossil assemblage emphasizes the potential of Mongolian phosphorites to provide new paleontological data on the Ediacaran-Cambrian transition, and to resolve the phylogenetic debate surrounding Megasphaera embryo-like taxa. Response to Reviewers: Response to reviewer's comments Line 116. I believe that the specimens in Fig. 3B and 3C represent Cavasipna acuminata. They have too short and small processes to be Tanarium. We have removed the reference to Tanarium. However, our fossils most closely resemble Cavaspina basiconica from the Doushantuo Formation (Xiao et al., 2014, J. Paleo.) which has larger numbers of more densely packed processes and can reach

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Section: The Age Of the Khesen Assemblagementioning

confidence: 60%

mentioning

confidence: 99%

Doushantuo-type microfossils from latest Ediacaran phosphorites of northern Mongolia

Anderson

Macdonald

Jones

et al. 2017

Geology

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“…Older reports of eukaryotic organisms are considered to be phylogenetically uncertain (Knoll 2003). On the other hand, the oldest widely accepted metazoan fossils only occur in the Doushantuo Formation, South China (Xiao et al 2000;Zhou et al 2001Zhou et al , 2007Chen et al 2004). Xiao (2004) suggested that there is no unequivocal metazoan fossils before the Neoproterozoic glaciation interval (ca.…”

Section: A Synthesis Of Early Metazoan Timescalementioning

confidence: 95%

Phylochronology of early metazoans: combined evidence from molecular and fossil data

Yang

Sun

et al. 2007

Geological Journal

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Timing the evolutionary appearances of early Metazoa on Earth may rely on the combined information of fossil occurrences, molecular divergences and the geological background. Recent advances in the studies of Neoproterozoic and earliest Cambrian strata in South China and elsewhere, together with numerous works on molecular dating, provide an opportunity to draw a more precise timescale for the early metazoan evolution. This study presents a synthesis of available molecular and fossil dating results, placed in the palaeoenvironmental background, which leads to the recognition of the following time events for early metazoan cladogenesis: (1) Animal multicellularity occurred most probably during early to middle Neoproterozoic times (between $1000 and $660 Ma) during the geological period of gradual increase in oxygen content; (2) Eumetazoans and sponges (or sponge-like organisms) parted from each other during the Neoproterozoic glaciation interval (ca. 750-580 Ma), but both experienced adaptive radiation after the glaciations as evidenced by the Doushantuo Biota (ca. 635-551 Ma); (3) A great metazoan radiation event (MRE) occurred during the late Ediacaran and earliest Cambrian periods (ca. 550-530 Ma), interpreted here as a metazoan radiation at higher taxonomic levels, as compared with the early Cambrian radiation representing one at lower taxonomic levels (lower than subphylum or class). In order to better constrain the phylochronology of early metazoans, we present evidence for the divergences of arthropod subgroups on the basis of molecular dating results and the fossil record. It is shown that the arthropod stem group diverged from its sister taxon at between $700 and $565 Ma and major arthropod subgroups originated coevally with MRE. The MRE is probably correlatable with the d 13 C negative anomaly in the late Ediacaran Period.Although the phylochronology of early Metazoa is gradually emerging, a great deal of research still will be needed in the following directions in order to reduce uncertainties in, and discrepancies among, dating results: (1) Evaluate different molecular dating techniques so as to establish a proper set of standard procedures for dating early metazoan events; (2) Set up a standard set of fossil calibration points suitable for dating early metazoan divergences; (3) Use both molecular and fossil constraints as far as possible; (4) Place the time sequence in the geological and palaeoecological background so that one can visualize a logical evolutionary scenario. We suggest that the fossil record plus the geological background should serve to construct a general timeframe for evolution, while molecular dating will supplement and probably increase the precision of the chronology.

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“…2k) from Weng'an have been reviewed comprehensively by Xiao et al (2014b) and form part of the Doushantuo-Pertatataka microbiota (Zhou et al 2001(Zhou et al , 2007Liu et al 2014). The phylogenetic affinities of acritarchs are unknown and they probably represent a polyphyletic assortment of eukaryotes (Huntley et al 2006).…”

Section: Acritarchsmentioning

confidence: 99%

The Weng'an Biota (Doushantuo Formation): an Ediacaran window on soft-bodied and multicellular microorganisms

Cunningham

Vargas

Yin

et al. 2017

JGS

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The Weng'an Biota is a fossil Konservat-Lagerstätte in South China that is c. 570 – 609 myr old and provides an unparalleled snapshot of marine life during the interval in which molecular clocks estimate that animal clades were diversifying. It yields fossils that are three-dimensionally preserved in calcium phosphate with cellular and sometimes subcellular fidelity. The biota includes candidates for the oldest animals in the fossil record, including embryonic, larval and adult forms. We argue that, although the Weng'an Biota includes forms that could be animals, none can currently be assigned to this group with confidence. Nonetheless, the biota offers a rare and valuable window on the evolution of multicellular and soft-bodied organisms in the prelude to the Cambrian radiation.

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The diversification and extinction of Doushantuo‐Pertatataka acritarchs in South China: causes and biostratigraphic significance

Cited by 150 publications

References 74 publications

Doushantuo-type microfossils from latest Ediacaran phosphorites of northern Mongolia

Doushantuo-type microfossils from latest Ediacaran phosphorites of northern Mongolia

Phylochronology of early metazoans: combined evidence from molecular and fossil data

The Weng'an Biota (Doushantuo Formation): an Ediacaran window on soft-bodied and multicellular microorganisms

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