Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-25T18:12:15.081Z Has data issue: false hasContentIssue false

Juracyclus posidoniae n. gen. and sp., the first cycloid arthropod from the Jurassic

Published online by Cambridge University Press:  14 July 2015

Günter Schweigert*
Affiliation:
Staatliches Museum für Naturkunde, Rosenstein 1, 70191 Stuttgart, Germany

Extract

The cycloids represent an enigmatic arthropod group of probably crustacean affinity, occurring mostly in the younger Paleozoic, from the early Carboniferous up to the Late Triassic (Schram et al., 1997). Superficially, cycloids strikingly resemble crabs and were thought to have had a similar lifestyle, becoming extinct when crabs started to radiate. Recently, the existence of a Late Cretaceous cycloid, Maastrichtiocaris rostratus Fraaije et al., 2003, from the Maastrichtian of the Netherlands, proved that cycloids did not go extinct at the end of the Triassic as believed for a long time, but survived much longer, co-occurring with crabs. Due to obvious collecting bias and the incompleteness of the fossil record of arthropods with relatively delicate carapaces in general, neither Jurassic nor Early Cretaceous representatives have been reported hitherto. However, from the Lower Jurassic Posidonienschiefer (‘Posidonia Shale’) of southwestern Germany—famous for its excellent fossil preservation, not only of marine vertebrates and large crinoids living on driftwood, but also many other invertebrate groups (Riegraf et al., 1984; Urlichs et al., 1994)—now a single specimen of a cycloid is recorded and described herein. Although this record helps link the bias between the Triassic and the Late Cretaceous occurrences, the characters of the specimen differ strongly from those of other cycloids, thus requiring the erection of a new genus and species.

Type
Paleontological Notes
Copyright
Copyright © The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Alexandrowicz, S. W. 1973. Halicyne (Crustacea incertae sedis) aus den Riffdolomiten des Oberschlesischen Beckens. Bulletin de l'Académie Polonaise des Sciences (Sciences de la Terre), 20:257263.Google Scholar
Ansorge, J. 1999. Heterophlebia buckmani (Brodie 1845) (Odonata: “?Anisozygoptera”)—das erste Insekt aus dem untertoarcischen Posidonienschiefer von Holzmaden (Württemberg, SW Deutschland). Stuttgarter Beiträge zur Naturkunde, serie B, 275, 9 p., 7 figs.Google Scholar
Beurlen, K. 1928. Die Decapoden des Schwäbischen Jura mit Ausnahme der aus den oberjurassischen Plattenkalken stammenden. Palaeontographica, 70:115278.Google Scholar
Bill, P. C. 1914. Über Crustaceen aus dem Voltziensandstein des Elsasses. Mitteilungen der Geologischen Landesanstalt von Elsaß-Lothringen, 8:289338.Google Scholar
Brambilla, S., Garassino, A., Pasini, G., and Teruzzi, G. 2002. Studies on Permo–Trias of Madagascar. 6. First record of Cycloidea from the Lower Triassic (Olenekian) of Ambilobé region (NW Madagascar). Atti della Società italiana di Scienze naturali, e del Museo civile di Storia naturale Milano, 143:105115.Google Scholar
Busse, E., and Horn, M. 1978. Neue Fossilfunde im Mittleren Buntsandstein NW-Hessens und ihre Bedeutung für die Paläogeographie. Geologisches Jahrbuch Hessen, 106:131142.Google Scholar
Dahl, E. 1956. Some crustacean relationships, p. 138147. In Wingstrand, K. G. (ed.), Bertil Hangström, Zoological Papers in Honour of His Sixty-Fifth Birthday. Zoological Institute, Lund, Sweden.Google Scholar
Etter, W., and Kuhn, O. 2000. An articulated dragonfly (Insecta, Odonata) from the Upper Liassic Posidonia Shale of northern Switzerland. Palaeontology, 43:967977.CrossRefGoogle Scholar
Fraaije, R. H. B., Schram, F. R., and Vonk, R. 2003. Maastrichtiocaris rostratus new genus and species, the first Cretaceous cycloid. Journal of Paleontology, 77:386388.2.0.CO;2>CrossRefGoogle Scholar
Gall, J.-C., and Grauvogel, L. 1967. Faune du Buntsandstein II. Les Halicynés. Annales de Paléontologie, 53:314.Google Scholar
Glaessner, M. F. 1928. Zur Frage der ältesten fossilen Krabben. Centralblatt für Mineralogie, Geologie und Paläontologie, Abteilung B, 1928(6):388398.Google Scholar
Glaessner, M. F. 1969. Cycloidea, p. R567570. In Moore, R. C. (ed.), Treatise on Invertebrate Paleontology. Pt. R. Arthropoda 4(2). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Linck, O. 1961. Ein weiterer Fund von Halicyne (H. agnota granosa n. ssp.) aus dem württembergischen Trigonodus-Dolomit. Jahreshefte des Vereins für vaterländische Naturkunde in Württemberg, 116:120123.Google Scholar
Meischner, D. 1963. Psammolimulus und Halicyne im Göttinger Buntsandstein. Paläontologische Zeitschrift, 37:16.Google Scholar
Meyer, H. von. 1838. Mittheilungen, an Professor Bronn gerichtet. Neues Jahrbuch für Mineralogie, Geologie, Geognosie und Petrefaktenkunde, 1838:413418.Google Scholar
Meyer, H. von. 1844. Mittheilungen, an Professor Bronn gerichtet. Neues Jahrbuch für Mineralogie, Geologie, Geognosie und Petrefaktenkunde, 1844:564567.Google Scholar
Meyer, H. von. 1847. Halicyne und Lithogaster, zwei Crustaceengenera aus dem Muschelkalke Württembergs. Palaeontographica, 1:134140.Google Scholar
Müller, A. H. 1955. Über einen Neufund von Halicyne plana und die systematische Stellung von Halicyne (Crustacea?). Paläontologische Zeitschrift, 29:131135.CrossRefGoogle Scholar
Oosterink, H. W. 1986. Winterswijk, geologie deel II. De Trias-periode (geologie, mineralen en fossielen). Wetenschappelijke Mededeling van de Konincklijke Nederlandse Natuurhistorische Vereniging, 178:1120.Google Scholar
Packard, A. S. 1885. Types of Carboniferous Xiphosura new to North America. American Naturalist, 19:291294.Google Scholar
Pasini, G., and Garassino, A. 2003. Studies on Permo–Trias of Madagascar. 7. New record of Halicyne gondwanae Brambilla et al., 2002 (Crustacea, Cycloidea) from the Lower Triassic (Olenekian) of Ambilobé region (NW Madagascar). Atti della Società italiana di Scienze naturali, e del Museo civile di Storia naturale Milano, 144:39.Google Scholar
Reuss, A. E. 1867. Ueber einige Crustaceenreste aus der alpinen Trias Österreichs. Sitzungsberichte der kaiserlichen Akademie der Wissenschaften zu Wien, mathematisch-naturwissenschaftliche Klasse, 1. Abteilung, 55:18.Google Scholar
Riegraf, W., Werner, G., and Lörcher, F. 1984. Der Posidonienschiefer. Biostratigraphie, Fauna und Fazies des Südwestdeutschen Untertoarciums (Lias e). Enke, Stuttgart, 195 p., 12 pls., 50 figs.Google Scholar
Schafhäutl, K. E. 1863. Südbayerns Lethaea Geognostica. Der Kressenberg und die südlich von ihm gelegenen Hochalpen geognostisch betrachtet in ihren Petrefakten. Voss, Leipzig, 487 p., 100 pls., 46 + 1,758 figs.Google Scholar
Schauroth, C. von. 1854. Ein Beitrag zur Paläontologie des deutschen Zechsteingebirges. Zeitschrift der Deutschen Geologischen Gesellschaft, 6:539577.Google Scholar
Schram, F. R., Vonk, R., and Hof, C. H. J. 1997. Mazon Creek Cycloidea. Journal of Paleontology, 71:261284.CrossRefGoogle Scholar
Schweigert, G., Garassino, A., Hall, R. L., Hauff, R. B., and Karasawa, H. 2003. The lobster genus Uncina Quenstedt, 1851 (Crustacea: Decapoda: Astacidea: Uncinidae) from the Lower Jurassic. Stuttgarter Beiträge zur Naturkunde, serie B, 332, 43 p., 12 pls., 6 figs.Google Scholar
Seebach, K. von. 1857. Entomostracen aus der Trias Thüringens. Zeitschrift der Deutschen Geologischen Gesellschaft, 9:198206.Google Scholar
Trauth, F. 1918. Ueber einige Krustazeenreste aus der alpin-mediterranen Trias. Annalen des kaiserlich-königlichen naturhistorischen Hofmuseums Wien, 32:172192.Google Scholar
Trümpy, R. 1957. Ein Fund von Halicyne (Crustacea incertae sedis) im mittleren Muschelkalk des Wutachtales. Eclogae geologicae Helvetiae, 23:379487.Google Scholar
Urlichs, M., Wild, R., and Ziegler, B. 1994. Der Posidonien-Schiefer des unteren Juras und seine Fossilien. Stuttgarter Beiträge zur Naturkunde, serie C, 36, 95 p., 124 figs.Google Scholar
Zorn, H. 1971. Paläontologische, stratigraphische und sedimentologische Untersuchungen des Salvatoredolomits (Mitteltrias) der Tessiner Kalkalpen. Schweizerische Paläontologische Abhandlungen, 91, 90 p., 17 pls., 52 figs., 13 tables.Google Scholar