Gothograptus auriculatus Koz��owska & Bates & Zalasiewicz & Radzevi��ius 2019, n. sp
| Autor: | Koz��owska, Anna, Bates, Denis, Zalasiewicz, Jan, Radzevi��ius, Sigitas |
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| Rok vydání: | 2019 |
| Předmět: | |
| DOI: | 10.5281/zenodo.5935879 |
| Popis: | Gothograptus auriculatus n. sp. Figs 13���14 2006 Gothograptus nassa, Calner, Kozłowska, Masiak & Schmitz, p. 80, fig. 1E. Type material. Holotype ZPAL G.55/23, mature specimen with six pairs of thecae and distal end broken off (Fig. 13 B); paratype ZPAL G.55/24, distal end of mature tubarium with five pairs of thecae and appendix (Fig. 13 C, F). Bartoszyce IG-1well, depth 1645.2 m, Poland, lower part of praedeubeli Biozone. Etymology. Latin auriculatus ���relating to the earlobe shape of the genicular structures. Diagnosis. Tubarium with genicular structures formed by the nassa type of hood, and paired vertical auriclelike structures bordering both sides of the thecal orifices. Auricle structures are characteristic only of Gothograptus auriculatus n. sp. In mature colonies the auricles bend towards the mid-ventral list below the thecal lip and nassa hood. Remarks. G. auriculatus n. sp. differs from G. nassa in having two lateral auricles, as additional elements located on the lateral sides of the thecal orifices and below the lips. Young colonies of the new species have nassa hoods; the auricles appear later in astogeny. Material. The material studied comes from Poland, Lithuania and Germany. The most abundant material comes from the Bartoszyce IG- well, ranges from 1649.0 to 1645.2 m, praedeubeli Biozone, yielding about 1300, mostly young, specimens. Two fragments of G. auriculatus come from Lithuania, Pilviskiai-141 core, depth 842.2 m, nassa / praedeubeli Biozone. Description. Tubaria slightly widening up to th1 2, then parallel-sided and gently tapering distally, ended by an appendix. Most of the specimens are represented by fragments of tubaria up to the 11th thecal pair. Tubarium width at the level of the first thecal pair is about 1.5 mm, and in the middle part of the tubarium 1.2 mm. The longest fragment of tubarium, comprising 11 pairs of thecae, is 10 mm long. The lists of the young stages of colony are very thin, about 15 ��m across, while the lists of the mature tubarium are about five times thicker, at 75 ��m. The thickening of lists starts from the proximal end. The looping meshes of the ancora umbrella are overgrown by a reticulum in the mature colonies. The ancora prongs below the lateral proximal orifices and the lists surrounding the proximal lateral orifices are extremely wide in mature specimens (Fig. 14 C���F).The reticular lists also become very wide in mature colonies, making the reticulum meshes very small. In the most mature specimens the reticulum lists reach similar thicknesses to those of the main lists of the tubaria (Fig. 13D). Based on well-preserved specimens representing the young tubaria, the sicula length is estimated at 1.4 mm, the length of the prosicula at 400 ��m (Fig. 2). The nema starts at the level of the th1 2 geniculum and is connected to the obverse lateral wall of the tubarium. The typical genicular structures are well developed in mature specimens. During astogeny the auricles, typical of this species, are first developed in more distal thecae (Fig. 13 A���C). The longest hoods in mature specimens are about 370 ��m long, and extend below the lips. As a consequence the thecal orifices are not visible. The hoods of astogenetically old tubaria may be elongated in the centre of their lower parts (Fig. 13E). The distal thecae are shorter and their genicular structures are usually irregular and shorter horizontally (Fig. 13E). In mature specimens, the nema widens distally to about 67 ��m across at the most distal end of the tubarium and in the appendix (Figs 3, 13C). A nematularium was not identified. Remarks. Gothograptus auriculatus n. sp. has been described from the praedeubeli Biozone of Sweden, and published as G. nassa (Calner et al. 2006, fig. 1E). This taxon, also found in erratic boulders from Germany, has been illustrated and identified by Jaeger as Gothograptus nassa late form (Maletz 2010, figs 1, 2). The specimens, stored in the Museum f��r Naturkunde, Berlin, come from a fauna containing the type material of Colonograptus praedeubeli. Published as part of Koz��owska, Anna, Bates, Denis, Zalasiewicz, Jan & Radzevi��ius, Sigitas, 2019, Evolutionary significance of the retiolitine Gothograptus (Graptolithina) with four new species from the Silurian of the East European Platform (Baltica), Poland and Lithuania, pp. 435-469 in Zootaxa 4568 (3) on pages 451-454, DOI: 10.11646/zootaxa.4568.3.2, http://zenodo.org/record/2601607 {"references":["Calner, M., Kozlowska, A., Masiak, M. & Schmitz, B. (2006) A shoreline to deep basin correlation chart for the middle Silurian coupled extinction-stable isotopic event. GFF, 128, 79 - 84. https: // doi. org / 10.1080 / 11035890601282079","Maletz, J. (2010) Retiolitid graptolites from the collection of Hermann Jaeger II: Cometograptus, Spinograptus and Plectograptus. Palaontologische Zeitschrift, 84, 501 - 522. https: // doi. org / 10.1007 / s 12542 - 010 - 0065 - x"]} |
| Databáze: | OpenAIRE |
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