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A new Early Jurassic rhynchonellid brachiopod from the western Tethys and implications for systematics of rhynchonellids from the Triassic–Jurassic boundary

Published online by Cambridge University Press:  14 July 2015

Adam Tomašových*
Affiliation:
Institut für Paläontologie, Würzburg Universität, Pleicherwall 1, 97070 Würzburg, Germany,

Abstract

A new multicostate rhynchonellid brachiopod Jakubirhynchia occurs in the Hettangian (Early Jurassic) carbonate deposits of the West Carpathians. A comparison with externally similar multicostate rhynchonellids from the Hettangian–Sinemurian carbonate deposits of the Alps shows their congeneric and conspecific status, indicating relatively wide regional distribution in the Early Jurassic of the western Tethys.

Diagnostic characters include conjunct deltidial plates, divided, vertically inclined inner hinge plates forming sessile septalium, and subfalciform crura with relatively complex, serrate terminations and broad outline in lateral view. Although the shape of hinge plates and crura may vary according to shell convexity and shell orientation during serial sectioning, two-dimensional restorations of cardinalia and crura show their distinctive morphology. It is important to note that some of the cardinalia details and crural shape can be detected only with very short between-section distances. Based on external characters, Jakubirhynchia is a homeomorph to another multicostate rhynchonellid, Calcirhynchia, typical of the Hettangian and Early Sinemurian of the northwestern Europe province and reported also from the Tethyan province. This suggests that original distribution of Calcirhynchia might not be so wide and postextinction multicostate rhynchonellids were taxonomically more diverse as was previously supposed. Jakubirhynchia consistently occupies offshore, low-energy, micritic-rich habitats below storm wave base. It is the first reported Hettangian member of the family Basiliolidae and may bridge the gap between the Carnian Veghirhynchia and Early Jurassic basiliolids. Preextinction, Norian and Rhaetian brachiopods that are close morphologic relatives of Jakubirhynchia are known from outside the western Tethyan area only.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Ager, D. V. 1962. A monograph of the British Liassic Rhynchonellidae, Pt. III. Palaeontographical Society of London Monograph, 116:85136.CrossRefGoogle Scholar
Ager, D. V. 1965. Mesozoic and Cenozoic Rhynchonellacea, p. H597H625. In Moore, R. C. (ed.), Treatise on Invertebrate Paleontology. Pt. H. Brachiopoda. The Geological Society of America and the University of Kansas Press, Lawrence.Google Scholar
Ager, D. V., Childs, A., and Pearson, D. A. 1972. The evolution of the Mesozoic Rhynchonellida. Geobios, 5:157235.CrossRefGoogle Scholar
Alméras, Y. 1996. Les Brachiopodes Toarciens et Aaléniens inférieurs du bassin du Rhône. Documents des Laboratoires de Géologie Lyon, 138:1123.Google Scholar
Alméras, Y., and Elmi, S. 1987. Evolution des peuplements de brachiopodes en fonction de lenvironment dans le Lias Ardechois. Les Cahiers de l'Université Catholique de Lyon, 3:2156.Google Scholar
Alméras, Y., and Hanzo, M. 1991. Les Rhynchonellidés du Calcaire à grypheés dHettange (Sinémurien-NE France): Étude des peuplements et enregistrement des variations du paléoenvironment. Palaeogeography, Palaeoclimatology, Palaeoecology, 86:313329.CrossRefGoogle Scholar
Baker, P. G. 1972. The development of the loop in the Jurassic brachiopod Zeilleria leckenbyi . Palaeontology, 15:8285.Google Scholar
Baker, P. G. 1989. Location and interpretation of ontogenetic relics in the shell of adult brachiopods. Lethaia, 22:241245.CrossRefGoogle Scholar
Bloos, G. 1976. Untersuchungen über Bau und Entstehung der Feinkörnigen Sandsteine des Schwarzen Jura alpha–Hettangium und tiefstes Sinemurium im schwäbischen Sedimentationsbereich. Arbeiten aus dem Institut für Geologie und Paläontologie an der Universität Stuttgart, 71:1269.Google Scholar
Böhm, F., Ebli, O., Krystyn, L., Lobitzer, H., Rakús, M., and Siblík, M. 1999. Fauna, stratigraphy and depositional environment of the Hettangian–Sinemurian (Early Jurassic) of Adnet (Salzburg, Österreich). Abhandlungen der geologischen Bundesanstalt, 56:143271.Google Scholar
Boullier, A., Delance, J.-H., Emig, C. C., D'hondt, L.-L., Gaspard, D., and Laurin, B. 1986. Les population actuelles de Gryphus vitreus (Brachiopoda) en Corse. Implications paléontologiques, p. 179196. In Racheboeuf, P. R. and Emig, C. C. (eds.), Les Brachiopodes fossiles et actuels. Biostratigraphie du Paléozoique, 4.Google Scholar
Brunton, C. H. C., Alvarez, F., and Mackinnon, D. I. 1996. Morphological terms used to describe the cardinalia of articulate brachiopods: Homologies and recommendations. Historical Biology, 11:941.CrossRefGoogle Scholar
Buckman, S. S. 1918. The Brachiopoda of the Namyau Beds, Northern Shan States, Burma. Memoirs of the Geological Survey of India, Palaeontologia Indica (n.s.), 3, 299 p.Google Scholar
Burri, F. 1954. Die Morphogenese von Sulcirhynchia valangiensis (Brachiopoda). Eclogae Geologicae Helvetiae, 47:419425.Google Scholar
Cooper, G. A. 1959. Genera of Tertiary and recent rhynchonelloid brachiopods. Smithsonian Miscellaneous Collections, 139:190.Google Scholar
Cooper, G. A., and Grant, R. E. 1976. Permian brachiopods of West Texas, IV. Smithsonian Contributions to Paleobiology, 21:12932607.Google Scholar
Dagys, A. 1974. Triassic brachiopods (morphology, classification, phylogeny, stratigraphical significance and biogeography). Sibirskoe Otdelenie Izdatelstvo Nauka, Novosibirsk, 214, 387 p. (In Russian) Google Scholar
de Gregorio, A. 1930. Monografia dei fossili Liassici di Monte San Giuliano conservati nel mio privato gabinetto geologico. Annales de Géologie et de Paléontologie de Palerme, 53:157.Google Scholar
Dercourt, J., Gaetani, M., Vrielynck, B., Barrier, E., Biju-Duval, B., Brunet, M. F., Cadet, J. P., Crasquin, S., and Sandulescu, M. 2000. Atlas Peri–Tethys. Palaeogeographical maps. Commission for the Geologic Map of the World, Paris.Google Scholar
Dewing, K. 2001. Hinge modifications and musculature of strophomenoid brachiopods: Examples across the Ordovician–Silurian boundary, Anticosti Island, Quebec. Canadian Journal of Earth Sciences, 38:125141.Google Scholar
Dulai, A. 1992. The Early Sinemurian (Jurassic) brachiopod fauna of the Lókút Hill (Bakony Mts., Hungary). Fragmenta Mineralogica et Palaeontologica, 15:4194.Google Scholar
Dulai, A. 1993. Hettangian (Early Jurassic) brachiopod fauna of the Bakony Mts. (Hungary). Fragmenta Mineralogica et Palaeontologica, 16:2750.Google Scholar
Dulai, A. 1998. Hettangian and Early Sinemurian (Early Jurassic) brachiopod fauna of the Pisznice Limestone in the Eastern Gerecse Mts. and in the Kálvária Hill at Tata. Földtani Közlöny, 128:237263. (In Hungarian) Google Scholar
Dulai, A. 2001. Diversification of Mediterranean Early Jurassic brachiopods after the end-Triassic mass extinction—new results from Hungary, p. 411423. In Brunton, C. H. C., Cocks, L. R. M., and Long, S. L. (eds.), Brachiopods: Past and Present. A Systematic Association Special Volume Series, 63.Google Scholar
Dulai, A. 2003a. Taxonomic composition of Mediterranean Early Jurassic brachiopod faunas from Hungary: Niche replacement and depth control. Fragmenta Palaeontologica Hungarica, 21:4350.Google Scholar
Dulai, A. 2003b. Hettangian and Early Sinemurian (Early Jurassic) brachiopods of the Transdanubian Central Range (Hungary) II. Resultationes investigationum Rerum Naturalium Montium Bakony, 27, 146 p. (In Hungarian) Google Scholar
Engel, T. 1908. Geognostischer Wegweiser durch Wurttemberg. Anleitung zum Erkennen der Schichten und zum Sammeln der Petrefakten (third edition). Stuttgart, 645 p.Google Scholar
Foster, M. W. 1974. Recent Antarctic and Subantarctic Brachiopods. Antarctic Research Series, 21, 189 p.Google Scholar
Gaetani, M. 1970. Faune hettangiane della parte orientale della provincia di Bergamo. Rivista Italiana Paleontologia, 76:355442.Google Scholar
Geyer, G. 1889. Über die liasischen Brachiopoden des Hierlatz bei Hallstatt. Abhandlungen der kaiserlich-königlichen geologischen Reichsanstalt, 15:188.Google Scholar
Grüner, M. 1997. Dynamische Paläoökologie und taxonomische Bearbeitung des Unterjura (Hettangium bis unteres Sinemurium) auf der Schwäbischen Alb. Profil, 11:1197.Google Scholar
Haas, H. 1887. Étude monographique et critique des Rhétiens et Jurassiques des Alpes Vaudoises et des contreés environnantes. Mémoires de la Société Paléontologique Suisse, 14:67126.Google Scholar
Hallam, A. 1960. A sedimentary and faunal study of the Blue Lias of Dorset and Glamorgan. Philosophical Transactions of the Royal Society, London, B243:144.Google Scholar
Hallam, A. 2002. How catastrophic was the end-Triassic mass extinction? Lethaia, 35:147157.Google Scholar
Hanzo, M., Lathuiliére, B., Alméras, Y., Dagallier, G., Guerin-Franiatte, S., Guillocheau, F., Huault, V., Nori, L., and Rauscher, R. 2000. Paléoenvironnements dans le Calcaire à grypheés du Lias de Lorraine, de la carrière de Xeuilley au Bassin Parisien. Eclogae Geologicae Helveticae, 93:183206.Google Scholar
Hudson, R. G. S., and Jefferies, R. P. S. 1961. Upper Triassic brachiopods and lamellibranchs from the Oman Peninsula, Arabia. Palaeontology, 4:141.Google Scholar
Kuhn, O. 1949. Lehrbuch der Paläozoologie. E. Schweizerbartische Verlagsbuchhandlung, Stuttgart, 326 p.Google Scholar
Lang, W. D. 1924. The Blue Lias of the Devon and Dorset coasts. Proceedings of the Geologist's Association, 35:169185.CrossRefGoogle Scholar
Laurin, B. 1974. Étude sur la structure et la variabilité de l'espèce Burmirhynchia latiscensis nov. sp. (Rhynchonellidae du Callovien inférieur de Bourgogne). Bulletin de la Societé Géologique de France, 16:396404.CrossRefGoogle Scholar
Lee, D. E., Carlson, S. J., Buening, N., and Samson, C. R. 2001. Variation in the loops of the Recent species of Liothyrella (Brachiopoda; Terebratuloidea) from New Zealand and South Orkney Islands, p. 6570. In Brunton, C. H. C., Cocks, L. R. M., and Long, S. L. (eds.), Brachiopods: Past and Present. A Systematic Association Special Volume Series, 63.Google Scholar
Licharew, B. K. 1956. Superfamily Rhynchonellacea Gray, 1848, p. 5661. In Kiparisova, L. D., Markowskii, B. P., and Radchenko, P. (eds.), Materials for Paleontology, New Families and Genera. Vsesoiuznyi Nauchnoissledovateľskii Geologicheskii Institut (VSEGEI), Materialy (Paleontologia), 12. (In Russian) Google Scholar
MacFarlan, D. A. B. 1992. Triassic and Jurassic Rhynchonellacea (Brachiopoda) from New Zealand and New Caledonia. The Royal Society of New Zealand Bulletin, 31:1310.Google Scholar
Manceñido, M. O. 1980. Nota sobre la validez de Fissirhynchia Pearson, 1977 (Brachiopoda, Rhynchonellida). Ameghiniana, 17:335338.Google Scholar
Manceñido, M. O. 1993. Early Jurassic brachiopods from Greece: A review, p. 79100. In Pálfy, J. and Vörös, A. (eds.), Mesozoic Brachiopods of Alpine Europe. Hungarian Geological Society, Budapest.Google Scholar
Manceñido, M. O. 2000. A systematic summary of the stratigraphic distribution of Jurassic rhynchonellid genera (Brachiopoda). Georesearch Forum, 6:387396.Google Scholar
Manceñido, M. O., and Owen, E. F. 2001. Post-Paleozoic Rhynchonellida (Brachiopoda): Classification and evolutionary background, p. 189200. In Brunton, C. H. C., Cocks, L. R. M., and Long, S. L. (eds.), Brachiopods: Past and Present. A Systematic Association Special Volume Series, 63.Google Scholar
Moiseev, A. S. 1936. Les nouveaux genres Rhynchonellidae du Triassique et Liassique. Travaux de la Société Naturale de Leningrad (Section Géologie et Mineralogie), 65:3950. (In Russian with French abstract) Google Scholar
Neumayr, M. 1879. Zur Kenntniss der Fauna des untersten Lias in den Nordalpen. Abhandlungen der kaiserlich-königlichen geologischen Reichsanstalt, 7:146.Google Scholar
Oppel, A. 1861. Ueber die Brachiopoden des untern Lias. Zeitschrift der deutschen geologischen Gesellschaft, 13:529550.Google Scholar
Ovcharenko, V. N. 1983. Jurassic brachiopods of the Pamirs. Akademia Nauk Tadzhikiskoi SSR, Institut Geologii, Dushanbe, 196 p. (In Russian) Google Scholar
Pearson, D. A. B. 1967. Rhaetian articulate brachiopods of Europe. Unpublished Ph.D. dissertation, Imperial College of Science and Technology, London, 354 p.Google Scholar
Pearson, D. A. B. 1977. Rhaetian brachiopods of Europe. Neue Denkschriften des Naturhistorischen Museums in Wien, 1:945.Google Scholar
Peterhans, E. 1926. Révision des brachiopodes liasiques du Grammont, des Tours d'Aï, du Pissot et de Rossinière figurés dans l'ouvrage de M. H. Haas. Mémoires de la Société Vaudoise des Sciences Naturelles No. 13, 2:353384.Google Scholar
Plašienka, D. 2000. Paleotectonic controls and tentative palinspatic restoration of the Carpathian realm during the Mesozoic. Slovak Geological Magazine, 6:200204.Google Scholar
Quenstedt, F. A. 1852. Handbuch der Petrefaktenkunde. Tübingen, 755 p.CrossRefGoogle Scholar
Quenstedt, F. A. 1858. Der Jura. Tübingen, 842 p.Google Scholar
Quenstedt, F. A. 1871. Petrefactenkunde Deutschlands. Abteilung 1, Band 2. Die Brachiopoden. Leipzig, 748 p.Google Scholar
Rau, K. 1905. Die Brachiopoden des mittleren Lias Schwaben mit Ausschluss der Spiriferinen. Geologische und Paläontologische Abhandlungen (neue Folge), 4:263355.Google Scholar
Rzhonsnitskaia, M. A. 1956. Systematization of Rhynchonellida, p. 125126. In E. Guzmán and others (eds.), Resumenes de Los Trabajos Presentados. International Geological Congress, Mexico, Report, 20.Google Scholar
Sacchi Vialli, G., and Cantaluppi, G. 1967. I nuovi fossili di Gozzano (Prealpi Piemontesi). Memorie della Societa Italiana di Scienze Naturali, 16:63127.Google Scholar
Sandy, M. 1995. Early Mesozoic (Late Triassic–Early Jurassic) Tethyan brachiopod biofacies: Possible evolutionary intra-phylum niche replacement within the Brachiopoda. Paleobiology, 21:479495.CrossRefGoogle Scholar
Sandy, M. R., and Aly, M. F. 2000, A southern Tethyan brachiopod fauna from the Late Triassic of the United Arab Emirates. Geobios, 33:561567.CrossRefGoogle Scholar
Savage, N. M. 1996. Classification of Paleozoic rhynchonellid brachiopods, p. 249260. In Copper, P. and Jin, J. (eds.), Brachiopods, Proceedings of the 3rd International Brachiopod Congress. A. A. Balkema, Rotterdam-Brookfield.Google Scholar
Savage, N. M., Manceñido, M. O., Owen, E. F., Carlson, S. J., Grant, R. E., Dagys, A. S., and Dong-Li, S. 2002. Rhynchonellida, p. 10271377. In Treatise on Invertebrate Paleontology, Pt. H, Brachiopoda (revised). Volume 4. Rhynchonelliformea (Part). Geological Society of America and University of Kansas, Lawrence.Google Scholar
Schafhäutl, K. E. F. 1851. Über einige neuen Petrefakten des Südbayerischen Vorgebirges. Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefactenkunde, 1851:407421.Google Scholar
Schloz, W. 1972. Zur Bildungsgeschichte der Oolithenbank (Hettangium) in Baden-Wurttemberg. Arbeiten aus dem Institut für Geologie und Paläontologie an der Universität Stuttgart, 67:101212.Google Scholar
Shi, Xiao-Ying, and Grant, R. E. 1993. Jurassic rhynchonellids: Internal structures and taxonomic revisions. Smithsonian Contributions to Paleobiology, 73, 190 p.Google Scholar
Siblík, M. 1967. New species of Domerian rhynchonelloids from Slovakia. Geologický Sborník, 18:151168.Google Scholar
Siblík, M. 1988. Brachiopoda mesozoica (a) Brachiopoda triadica, p. 1145. In Zapfe, H. (ed.), Catalogus Fossilium Austriae. Österreichische Akademie der Wissenschaften, 5c.Google Scholar
Siblík, M. 1993. Lower Liassic brachiopods from the Steinplatte-Kammerköhralm area near Waidring (northern Calcareous Alps, Salzburg). Jahrbuch der geologischen Bundesanstalt, 136:965982.Google Scholar
Siblík, M. 1998. A contribution to the brachiopod fauna of the “Oberrhätkalk” (northern Calcareous Alps, Tyrol-Salzburg). Jahrbuch der geologischen Bundesanstalt, 141:7395.Google Scholar
Siblík, M. 1999. New data on the Hettangian brachiopod fauna of the Northern Calcareous Alps (Austria, Bavaria). Abhandlungen der geologischen Bundesanstalt, 56:419438.Google Scholar
Singeisen-Schneider, V. 1976. Interpretation von Serienschliffen bei Brachiopoden, am Beispiel von Dogger-Terebratuliden aus dem Basler Jura. Eclogae Geologicae Helvetiae, 69:93110.Google Scholar
Suess, E. 1854. Über die Brachiopoden der Kössener Schichten. Denkschriften der mathematisch-naturwissenschaftlichen Classe der kaiserlichen Akademie der Wissenschaften, 7:2965.Google Scholar
Tchoumatchenco, P. 1972. Thanatocoenoses and biotopes of Lower Jurassic brachiopods in central and western Bulgaria. Palaeogeography, Palaeoclimatology, Palaeoecology, 12:227242.CrossRefGoogle Scholar
Tchoumatchenco, P. 1993. The horizontal distribution of brachiopods during the Zeilleria quadrifida Zone (Late Carixian–Early Domerian, Early Jurassic) in Bulgaria, p. 143150. In Pálfy, J. and Vörös, A. (eds.), Mesozoic Brachiopods of Alpine Europe. Hungarian Geological Society, Budapest.Google Scholar
Tomašových, A., and Michalík, J. 2000. Rhaetian/Hettangian passage beds in the carbonate development in the Krí na Nappe (central western Carpathians, Slovakia). Slovak Geological Magazine, 6:241249.Google Scholar
Tort, A. 2003. Morphological plasticity of the outline and the internal structures of the shell of the recent Terebratella tenuis sp. nov. (Brachiopoda, Terebratulida). Zoomorphology, 122:4754.CrossRefGoogle Scholar
Tort, A., and Laurin, B. 2001. Intra- and interspecific variation in internal structures of the genus Stenosarina (Brachiopoda, Terebratulida) using landmarks. Journal of Paleontology, 75:261273.2.0.CO;2>CrossRefGoogle Scholar
Vörös, A. 1991. Hierlatzkalk–a peculiar Austro-Hungarian Jurassic facies, p. 145154. In Lobitzer, H. and Császár, H. (eds.), Jubiläumsschrift 20 Jahre Geologische Zusammenarbeit Österreich-Ungarn. Wien.Google Scholar
Vörös, A., Szabó, J., Dulai, A., Szente, I., Ebli, O., and Lobitzer, H. 2003. Early Jurassic fauna and facies of the Schafberg area (Salzkammergut, Austria). Fragmenta Palaeontologica Hungarica, 21:5182.Google Scholar
Warrington, G., and Ivimey-Cook, H. C. 1995. The late Triassic and early Jurassic of coastal sections in west Somerset and South and Mid-Glamorgan, p. 930. In Taylor, P. D. (ed.), Field Geology of the British Jurassic. Geological Society of London, London.Google Scholar
Westbroek, P. 1967. Morphological observations with systematic implications on some Paleozoic Rhynchonellida from Europe, with special emphasis on the Uncilulidae. Leidse Geologische Mededelingen, 41:182.Google Scholar
Williams, A., and Hurst, J. M. 1977. Brachiopod evolution, p. 79121. In Hallam, A. (ed.), Patterns of Evolution as Illustrated by the Fossil Record. Elsevier, Amsterdam.CrossRefGoogle Scholar
Wobber, F. J. 1968. A faunal analysis of the Lias (Lower Jurassic) of South Wales (Great Britain). Palaeogeography, Palaeoclimatology, Palaeoecology, 5:269308.CrossRefGoogle Scholar
Zugmayer, H. 1880. Untersuchungen über rhätische Brachiopoden. Beiträge zur Paläontologie und Geologie Österreichs-Ungarns, 1:142.Google Scholar