Novispathodus pingdingshanensis ( Zhao & Orchard, 2007 )

Leu, Marc, Bucher, Hugo, Vennemann, Torsten, Bagherpour, Borhan, Ji, Cheng, Brosse, Morgane & Goudemand, Nicolas, 2022, A Unitary Association-based conodont biozonation of the Smithian-Spathian boundary (Early Triassic) and associated biotic crisis from South China, Swiss Journal of Palaeontology (19) 141 (1), pp. 1-61 : 27-29

publication ID

https://doi.org/ 10.1186/s13358-022-00259-x

DOI

https://doi.org/10.5281/zenodo.13128515

persistent identifier

https://treatment.plazi.org/id/038B1D1D-6473-FFAD-FF1B-EF9BD2A8FDA7

treatment provided by

Felipe

scientific name

Novispathodus pingdingshanensis ( Zhao & Orchard, 2007 )
status

 

Novispathodus pingdingshanensis ( Zhao & Orchard, 2007)

Fig. 17D–F; M–P, R, S, U, X View Fig , AA, AB, AD, AF

*2007 Neospathodus pingdingshanensis n. sp.; Zhao & Orchard, Zhao et al., p.36, pl. 1, fig. 4A–C.

2012a Novispathodus pingdingshanensis (Zhao & Orchard) ; Goudemand & Orchard in Goudemand et al., p. 1030–1031, figs. 2B, F, G, I–J, M, P, Q, AD, 3T-U, 6.

2013 Neospathodus pingdingshanensis Zhao & Orchard ; Chen et al., p 825, fig. 3.10, 3.12.

2013 Neospathodus waageni subsp. nov. A; Metcalfe et al., p. 1144, figs. 9.1–9.5, 9.7, 9.8, 9.10.

2014 Novispathodus pingdingshanensis (Zhao & Orchard) ; Maekawa & Igo in Shigeta, p. 239–240, figs. 171.13–171.31.

2015 Novispathodus pingdingshanensis (Zhao & Orchard) ; Chen et al., p. 111, 112, figs. 7.1–7.4, 8.5, 8.6.

2016 Novispathodus ex. gr. pingdingshanensis (Zhao & Orchard) ; Komatsu et al., p. 69, figs. 5.4a–5.5c.

2016 Neospathodus robustus Koike ; Chen & Kolar-Jurkovšek in Chen et al., p. 93, fig. 9.5 (only).

2018 Novispathodus pingdingshanensis (Zhao & Orchard) ; Maekawa in Maekawa et al., p. 36–37, figs. 20.2–20.18, 21.1–21.13.

2019 Novispathodus pingdingshanensis (Zhao & Orchard) ; Chen et al., fig. 3, nr. 8.

2019 Novispathodus pingdingshanensis (Zhao & Orchard) ; Liu et al., p. 13, pl. 3 fig. 5 (only).

Material.> 100 specimens.

Diagnosis (Zhao and Orchard, in Zhao et al., 2007; emended by Goudemand, in Goudemand et al., 2012b). Small segminate P 1 elements characterized by a length/ height ratio in the range of 1.32–2.34, and about 4–9 robust, wide, mostly fused, and distinctively posteriorly recurved denticles. In lateral view, the basal margin is usually straight. A large, broadly expanded oval to sub-rounded basal cavity is upturned on the inner margin and flat to downturned on the outer margin.

Remarks. Goudemand (in Goudemand et al., 2012b) revised the original diagnosis by noticing that the basal margin is not necessarily straight and therefore, the most strikingly difference to Nv. waageni is the denticulation: the denticles axes are distinctively recurved posteriorly whereas in Nv. waageni and Nv. abruptus , the denticles are straight, inclined or radiating. Te two or three denticles anterior of the cusp are often clearly asymmetrical and the posterior edge of the element is much shorter than the anterior one. In most sections worldwide, Nv. pingdingshanensis first occurs within the positive δ 13 Ccarb excursion of the latest Smithian and may extend to the earliest Spathian ( Goudemand et al., 2019; Leu et al., 2019; Zhang et al., 2019). Some elements within our rich material resemble Ns. Pingdingshanensis , but appear to have a relatively small basal cavity, more posteriorly recurved denticles or more numerous denticles that what was previously described for this species. Tese elements ( Figs. 17C, J, K, T View Fig ; 18E, I–K View Fig ; 19O, Q View Fig ; 20H, N–O, S View Fig ; here assigned to N. ex gr. pingdingshanensis ) may deserve differentiation in the future. Two elements illustrated by Metcalfe et al., (2013, figs. 9.6, 9.9, p. 1144) as ‘ Neospathodus waageni subsp. nov. A’ display a higher anterior end and more recurved denticles than the other elements they included in ‘ Neospathodus waageni subsp. nov. A’, which we synonymized with Ns. pingdingshanensis : elements like these two elements do not seem to fit in Ns. pingdingshanensis and may deserve assignment to a new species. Some further elements resembling Ns. pingdingshanensis but distinctively shorter than Ns. pingdingshanensis are herein assigned to a new species ( Nv. gryphus n. sp. see below).

(See figure on next page.)

Occurrence. Worldwide occurrence. China: Jinya/ Waili area, Guangxi ( Goudemand et al., 2012b) Jiarong, southern Guizhou ( Chen et al., 2013, 2015). Anshun Fm., Qingyan section, Guizhou ( Ji et al., 2011). Chaohu (Zhao et al., 2007, 2008). Daxiakou, Hubei ( Zhao et al., 2013). Vietnam: Bac Tuy Fm., Xenoceltites variocostatus and Tirolites beds, ( Komatsu et al., 2016; Shigeta et al., 2014). Canada: Scythogondolella mosheri zone, Wapiti Lake ( Orchard & Zonneveld, 2009). Australia: Hovea Member of Kockatea Shale, upper part of Neospathodus waageni Zone, Smithian substage ( Metcalfe et al., 2013).

V

Royal British Columbia Museum - Herbarium

Kingdom

Animalia

Phylum

Chordata

Order

Ozarkodinida

SuperFamily

Gondolelloidae

Family

Gondolellidae

SubFamily

Novispathodinae

Genus

Novispathodus

Loc

Novispathodus pingdingshanensis ( Zhao & Orchard, 2007 )

Leu, Marc, Bucher, Hugo, Vennemann, Torsten, Bagherpour, Borhan, Ji, Cheng, Brosse, Morgane & Goudemand, Nicolas 2022
2022
Loc

Neospathodus pingdingshanensis

Leu & Bucher & Vennemann & Bagherpour & Ji & Brosse & Goudemand 2022
2022
Loc

Neospathodus waageni

Leu & Bucher & Vennemann & Bagherpour & Ji & Brosse & Goudemand 2022
2022
Loc

Novispathodus

Orchard 2005
2005
Loc

Neospathodus robustus

Koike 1982
1982
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