Neogothograptus reticulatus, Kozłowska & Lenz & Melchin, 2009

Kozłowska, Anna, Lenz, Alfred & Melchin, Michael, 2009, Evolution of the retiolitid Neogothograptus (Graptolithina) and its new species from the upper Wenlock of Poland, Baltica, Acta Palaeontologica Polonica 54 (3), pp. 423-434 : 428-431

publication ID

https://doi.org/ 10.4202/app.2008.0022

persistent identifier

https://treatment.plazi.org/id/03E33133-8B6D-FFD4-8E13-FA82FD39F8DE

treatment provided by

Felipe

scientific name

Neogothograptus reticulatus
status

sp. nov.

Neogothograptus reticulatus sp. nov.

Figs. 3 View Fig , 5–7 View Fig View Fig View Fig .

1995? Gothograptus sp. Rickards, Packham, Wright, and Williamson,

1995: 41, figs. 18K, L, 20J.

Type material: Holotype: ZPAL G. 41/1, proximal end with five first thecae ( Fig. 5 View Fig ), Prągowiec ravine; paratypes: ZPAL G. 41/2 to ZPAL G. 41/6, Baltic boulder 59, Jarosławiec; ZPAL G. 41/7 and ZPAL G. 41/8, Bartoszyce borehole, depth 1630.7 m.

Type locality: Prągowiec ravine, Bardo, Holy Cross Mountains, Poland .

Type horizon: Colonograptus praedeubeli Biozone, Homerian, Wenlock, Silurian.

Diagnosis.—Dense reticulum of thin lists on ancora sleeve and thecal walls, outer ancora, reticulation well developed. Reticulated hoods fully developed on geniculum. Appendix well developed. Lateral and ventral orifices covered with fine meshworks.

Material.—The material comes from three localities in Poland: Bartoszyce borehole 1630.7 m, stub 210, SEM 011410, five specimens; Baltic erratic boulder 59, Jarosławiec, Ludlow, 25 coarse fragments, and many small fragments; nodules 7, 10, and 11 from Prągowiec ravine, Bardo, Holy Cross Mts., one larger specimen and 20 small fragments. All forms come from Colonograptus praedeubeli Biozone. Associated fauna: C. praedeubeli , Pristiograptus dubius .

Description.—Outer ancora well developed in mature rhabdosomes ( Figs. 5C, D View Fig , 7D View Fig ). Holotype outer ancora is partly broken on th 11 side ( Fig. 5A View Fig 2). On the second thecal row of the holotype rhabdosome, a well−developed edge is formed by the outer ancora ( Fig. 5A–C View Fig ). The lateral and ventral proximal orifices are completely obscured by thin reticular lists ( Fig. 5D View Fig ). No complete rhabdosomes are known. The longest specimen, which appears to be almost complete (missing the appendix and the ancora), is 5 mm long and consists of five pairs of thecae ( Fig. 7 View Fig ). Width across first theca 0.8–1.0 mm (extrapolated to 1.3–1.55 mm when flattened) and the maximum width at the second or third thecal pair is 0.9–1.1 mm, decreasing to 0.6–0.7 mm across the last thecal pair before the appendix. The two thecae repeat distance in the medial part of the rhabdosome is 1.6–1.8 mm. Theca 11 is much shorter than the th 12 ( Fig. 5 View Fig ). The last theca is also much shorter than the previous one ( Fig. 7B View Fig ). Thecal orifices directed laterally to proximo−laterally, geniculum list projecting ventrally beyond level of thecal lip. Pustules on the bandages are variably developed. They are relatively small on some specimens, e.g. on the distal part of rhabdosome from Bartoszyce borehole ( Fig. 6B View Fig 1 View Fig ), and from Jarosławiec ( Fig. 7D View Fig 2). The genicular hoods are densely reticulated ( Figs. 5A, B View Fig , 6A, B View Fig , 7A–D View Fig ), and the hoods totally cover the apertures, especially in mature rhabdosomes. Nema is not attached to the thecal framework.

Remarks.—The genus Neogothograptus was erected quite recently ( Kozłowska−Dawidziuk 1995), and is now known to be one of the most species−diverse retiolitid genera, being represented by nine species, one of which consists of two subspecies. The new species, N. reticulatus , along with N. eximinassa , is a member of the most densely reticulated speciesgroup of Neogothograptus with a well−developed outer ancora, dense reticulum over the entire surface, reticulum on proximal orifices, and prominent reticulated genicular hoods.

N. reticulatus shares a considerable number of morphological features with N. eximinassa . The primary difference lies in the nature of their genicular hoods: those of N. reticulatus are fully reticulated, whereas those of N. eximinassa are solid sheet−like hoods such as seen in G. nassa . A close examination of all specimens of the two species shows a clean separation between the two types of genicular hoods with no intermediate forms. A further distinction is that in N. reticulatus the outer ancora is a well developed mesh outside of the main ancora umbrella, while that of N. eximinassa may consist of only a very few thin lists.

A flattened and moderately preserved form from upper Homerian strata of Australia, and identified as Gothograptus sp. by Rickards et al. (1995), is very like N. reticulatus in its measurements, shape of rhabdosome, appendix, development of a dense reticulum, and the reticulated genicular hoods. The suggestion that the nema is incorporated into the ancora sleeve wall (Rickards et al. 1995: figs. 18K, L, 20J), is rather questionable, however. More probably, the nema is free as in all upper Homerian and Ludlow retiolitids.

The new species has some features in common with those of Gothograptus from the pre−extinction, Cyrtograptus lundgreni Biozone. Similar apertural hoods are observed in the most distal theca of the Gothograptus kozlowskii Kozłowska−Dawidziuk, 1990 ( Kozłowska−Dawidziuk 1990: fig. 4E). The apertural hoods are also reminiscent of those of G. obtectus Kozłowska−Dawidziuk, 1990 ( Kozłowska−Dawidziuk 1990: fig. 5C, D). In G. obtectus the reticulum covering the aperture is continuous along the ventral surface from thecal aperture to thecal aperture. A reticulated genicular hood and dense meshwork are also characteristic of G. storchi Lenz and Kozłowska ( Lenz and Kozłowska 2006) , although its hood does not obscure any part of the thecal orifice.

ZPAL

Zoological Institute of Paleobiology, Polish Academy of Sciences

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