Biodiversity evolution through the Permian-Triassic boundary event: Ostracods from the Bükk Mountains, Hungary

• Autorzy: Forel M.-B. , Crasquin S. , Hips K. , Kershaw S. , Collin P.-Y. , Haas J.
• Języki publikacji: EN

Abstrakty

One of the most complete Permian–Triassic boundary sections located in the Bükk Mountains (Hungary) was sampled for ostracod study. Seventy−six species are recognized, belonging to twenty genera. Fifteen new species are described and figured: Acratia? jeanvannieri Forel sp. nov., Acratia nagyvisnyoensis Forel sp. nov., Bairdia anisongae Forel sp. nov., Bairdia davehornei Forel sp. nov., Callicythere? balvanyseptentrioensis Forel sp. nov., Cytherellina? magyarorsza− gensis Forel sp. nov., Eumiraculum desmaresae Forel sp. nov., Hollinella fengqinglaii Crasquin sp. nov., Hungarella gerennavarensis Crasquin sp. nov., Langdaia bullabalvanyensis Crasquin sp. nov., Liuzhinia venninae Forel sp. nov., Liuzhinia bankutensis Forel sp. nov., Microcheilinella egerensis Forel sp. nov., Reviya praecurukensis Forel sp. nov., Shemonaella? olempskaella Forel sp. nov. One species is renamed: Bairdia baudini Crasquin nom. nov. Comparison of the Bálvány North section with the Meishan section (Zhejiang Province, South China), Global Boundary Stratotype Sec− tion and Point (GSSP) of the Permian–Triassic Boundary (PTB), reveals discrepancies linked to the environmental set− ting and particularly to bathymetry. The stratigraphical distribution of all the species is given and diversity variations are discussed. The Bálvány North section exhibits the lowest extinction rate of all PTB sections studied for ostracods analysis associated with a high level of endemism.

Słowa kluczowe

EN

biodiversity; evolution; Permian; Triassic; ostracod; Ostracoda; Bukk Mountains; geological setting; paleontology; systematics; Hungary

• Wydawca: -
• Czasopismo: Acta Palaeontologica Polonica
• Rocznik: 2013
• Tom: 58
• Numer: 1
• Opis fizyczny: p.195-219,fig.,ref.

Twórcy

autor

Forel M.-B.

• State Key Laboratory of Geological Process and Mineral Resources, China University of Geosciences, Wuhan Hubei, People's Republic of China

autor

Crasquin S.

• CNRS-UMR 7207 CR2P, UPMC Universite Paris 06, T.46-56, E.5, case 104, 75252 Paris cedex 05, France

autor

Hips K.

• Geological, Geophysical and Space Science Research Group, Hungarian Academy of Sciences, Eotvos University, H-1117 Budapest, Pazmanys; 1/c, Hungary

autor

Kershaw S.

• Institute for the Environment, Halsbury Building, Brunel University, Uxbridge, Middlesex, UB8 3PH, U.K.

autor

Collin P.-Y.

• Universite de Bourgogne, UMR 6282 Biogeosciences, Batiment Sciences Gabriel, 6 Bd Gabriel, 21000 Dijon, France

autor

Haas J.

• Geological, Geophysical and Space Science Research Group, Hungarian Academy of Sciences, Eotvos University, H-1117 Budapest, Pazmanys; 1/c, Hungary

Bibliografia

• Boomer, I., Horne, D.J., and Slipper, I.J. 2003. The use of ostracods in palaeoenvironmental studies, or what can you do with an ostracod shell? In: L.E. Park and A.J. Smith (eds.), Bridging the Gap—Trends in the Ostracode Biological and Geological Sciences. Paleontological Society Paper 9: 153–179.
• Bowman, T.E. and Abele, L.G. 1982. Classification of the Recent Crustacea. In: L.G. Abele (ed.), Systematics, the Fossil Record, and Biogeography. The Biology of Crustacea 1: 1–27.
• Chen, T.C. 1958. Permian ostracods from the Chihsia limestone of Lungtan, Nanking. Acta Palaeontologica Sinica 6: 235–257.
• Coryell, H.N. 1928. Some new Pennsylvanian Ostracoda. Journal of Paleontology 2: 377–381.
• Crasquin, S. and Forel, M.B. (in press). Ostracods (Crustacea) through Permian–Triassic events. Earth−Science Reviews.
• Crasquin, S., Forel, M.−B., Feng, Q., Yuan, A., Baudin, F., and Collin, P.Y. 2010a. Ostracods (Crustacea) through Permian–Triassic boundary in South China: the Meishan stratotype (Zhejiang Province). Journal of Systematic Palaeontology 8: 331–370.
• Crasquin, S., Perri, M.C., Nicora, A., and De Wever, P. 2008. Ostracods across the Permian–Triassic boundary in Western Tethys: the Bulla parastratotype (Southern Alps, Italy). Rivista Italiana di Paleontologia e Stratigrafia 114: 233–262.
• Crasquin, S., Shen, S.Z., Li, W.Z., and Cao, C.Q. 2007. Ostracods from the Lopingian and the Permian–Triassic boundary beds at the Gyanyima section in southwestern Tibet, China. Palaeoworld 16: 222–232.
• Crasquin, S., Sudar, M., Jovanovic, D., and Kolar−Jurkovsek, T. 2010b. Ostracod fauna from Late Permian of Jadar Block (Vardar Zone, NW Serbia). Geološki anali Balkanskoga poluostrva 71: 23–35.
• Crasquin−Soleau, S. and Kershaw, S. 2005. Ostracod fauna from the Permian–Triassic boundary interval of South China (Huaying Mountains eastern Sichuan Province): palaeoenvironmental significance. Palaeogeography, Palaeoclimatology, Palaeoecology 217: 131–141.
• Crasquin−Soleau, S., Galfetti, T., Bucher, H., and Brayard, A. 2006. Early Triassic ostracods from Guangxi Province, South China. Rivista Italiana di Paleontologia e Stratigrafia 112: 55–75.
• Crasquin−Soleau, S., Marcoux, J., Angiolini, L., and Nicora, A. 2004a. Palaeocopida (Ostracoda) across the Permian–Triassic events: new data from South−Western Taurus (Turkey). Journal of Micropalaeontology 23: 67–76.
• Crasquin−Soleau, S., Marcoux, J., Angiolini, L., Nicora, A., and Bertho, Y. 2004b. New ostracode fauna from Permian–Triassic boundary in Turkey (Taurus, Antalya Nappes). Micropaleontology 50: 281–295.
• Crasquin−Soleau, S., Richoz, S., Marcoux, J., Angiolini, L., Nicora, A., and Baud, A. 2002. Les événements de la limite Permien–Trias: derniers survivants et/ou premiers recolonisateurs parmi les ostracodes du Taurus (Sud−Ouest de laTurquie). ComptesRendus Geosciences 334: 489–495.
• Crasquin−Soleau, S., Vaslet, D., and Le Nindre, Y.M. 2005. Ostracods from Permian–Triassic boundary in Saudi Arabia (Khuff Formation). Palaeontology 48: 853–868.
• Croneis,C. and Gale,A.S. 1939. NewOstracodes from the Golchonda Formation. Journal of Science Laboratory, Denison University 33: 251–295.
• Delo, D.M. 1930. Some Upper Carboniferous Ostracoda from the shale basin of Western Texas. Journal of Paleontology 4: 152–178.
• Erwin, D.H., Bowring, S.A., and Jin, H.G. 2002. The end−Permian mass extinctions. In: C. Koeberl and K.G. MacLeod (ed.), Catastrophic Events and Mass Extinctions: Impacts and Beyond. Geological Society of America Special Paper 356: 363–383.
• Forel, M.B., Crasquin, S., Kershaw, S., and Collin, P.Y. 2013. In the aftermath of the end−Permian extinction: the microbialite refuge. Terra Nova (published online).
• Forel, M.B. and Crasquin, S. 2011a. In the aftermath of Permian–Triassic boundary mass−extinction: ostracod new species and genus from South Tibet. Geodiversitas 33: 247–263.
• Forel, M.B. and Crasquin, S. 2011b. Lower Triassic ostracods (Crustacea) from Meishan section, Permian–Triassic GSSP (Zhejiang Province, South China). Journal of Systematic Palaeontology 9: 455–466.
• Forel, M.−B., Crasquin, S., Kershaw, S., Feng, Q., and Collin, P.Y. 2009. Ostracods (Crustacea) and water oxygenation in earliest Triassic of South China: implications for oceanic events of the end−Permian mass extinction. Australian Journal of Earth Sciences 56: 815–823.
• Forel, M.B., Crasquin, S., Brühwiler, T., Goudemand, N., Bucher, H., and Baud, A. 2011. Ostracod recovery after Permian–Triassic boundary mass−extinction in South Tibet. Palaeogeography, Palaeoclimatology, Palaeoecology 308: 160–170.
• Geis, H.L. 1932. Some Ostracodes from the Salem Limestone, Mississippian of Indiana. Journal of Paleontology 6: 149–188.
• Gerry, E., Honingstein, A., Derin, B., and Flexer, A. 1987. Late Permian Ostracodes of Israel. Taxonomy, distribution and paleogeographical implications. Senckbergiana lethaea 68: 197–223.
• Guan, S., Sun, Q., Jiang, Y.,Li, L.,Zhao, B., Zhang, X.,Yang, R., and Feng, B. 1978. Subclass Ostracoda. Paleontological Atlas of Central and South China, 115–325. Geological Publishing House, Beijing.
• Haas, J., Hips, K., Pelikán, P., Zajzon, N., Götz, A.E., and Tardi−Filácz, E. 2004. Facies analysis of marine Permian/Triassic boundary sections in Hungary. Acta Geologica Hungarica 47: 297–340.
• Haas, J., Demény, A., Hips, K., and Vennemann, T.W. 2006. Carbon isotope excursions and microfacies changes in marine Permian–Triassic boundary sections in Hungary. Palaeogeography, Palaeoclimatology, Palaeoecology 237: 160–181.
• Haas, J., Demény, A., Hips, K., Zajzon, N., Weiszburg, T., Sudar, M., and Pálfy, J. 2007. Biotic and environmental changes in the Permian–Triassic boundary interval recorded on a western Tethyan ramp in the Bükk Mountains, Hungary. Global and Planetary Change 55: 136–154.
• Hao, W. 1992. Early TriassicOstracods fromGuizhou. Acta Micropalaeontologica Sinica 9: 37–44.
• Hao, W. 1994. The development of the Late Permian–Early Triassic ostracod fauna in Guizhou Province. Geological Review 40: 87–93.
• Hips, K. and Pelikán, P. 2002. Lower Triassic shallow marine succession in the Bükk Mountains,NEHungary. Geologica Carpathica 53 (6): 1–17.
• Hips, K. and Haas, J. 2006. Calcimicrobial stromatolites at the Permian–Triassic boundary in a western Tethyan section, Bükk Mountains, Hungary. Sedimentary Geology 185: 239–253.
• Hips, K. and Haas, J. 2009. Facies and diagenetic evaluation of the Permian–Triassic boundary interval and the basal Triassic carbonates: shallow and deep ramp sections, Hungary. Facies 55: 421–442.
• Horne, D.J., Cohen, A., and Martens, K. 2002. Taxonomy, Morphology and Biology of Quaternary and living Ostracoda. In: J.A. Holmes and A. Chivas (ed.), The Ostracoda: Applications in Quaternary Research. Geophysical Monograph 131: 5–36.
• Jones, T. R. and Holl, H. B. 1869 Notes on the Palaeozoic bivalve Entomostraca—9: some Silurian species. Annals and Magazine of Natural History 4: 211–229.
• Kashevarova, N.P. [Kaševarova, N.P.] 1958. New study of ostracod fauna from Upper Permian (Ufimian to Tatarian) of Timor Peninsula and Volga−Ural platform [in Russian]. Trudy Vsesoûznogo Neftânogo Naučno−Issledovatel’skogo Instituta (VNIGRI) 115: 302–339.
• Kozur, H. 1985a. Biostratigraphic evaluation of the Upper Paleozoic Conodonts, Ostracods andHolothurian Sclerites of the Bükk Mts. Part II: Upper Paleozoic Ostracods. Acta Geologica Hungarica 28: 225–256.
• Kozur, H. 1985b. Neue Ostracoden−Arten aus dem Oberen Mittelkarbon (Höheres Moskovian), Mittel− und Oberperm des Bükk− Gebirges (N−Ungarn). Geologisch Paläontologische Mitteilungen Innsbruck 2: 1–145.
• Kozur, H. and Pjatakova, M. 1976. Die Conodontenart Anchignathodus parvis n. sp. eine wichtige Leitform der basalen Trias. Proceedings of the Koninklijke Nederlandse Academie van Wetenschappen. Series B: Physical Sciences 79: 123–128.
• Less, G., Gulácsi, Z., Kovács, S., Pelikán, P., Pentelényi, L., and Sásdi, L. 2002. Geological Map of the Bükk Mts. 1:50000. Hungarian Geological Institute, Budapest.
• Lethiers, F., and Crasquin−Soleau, S. 1988. Comment extraire des microfossiles à tests calcitiques de roches calcaires dures. Revue de Micropaléontologie 31: 56–61.
• McCoy, F. 1844. A Synopsis of the Characters of the Carboniferous Limestone Fossils of Ireland. viii + 207 pp. Dublin University Press, Dublin.
• Méhes, G. 1911. Über Trias−Ostrakoden aus dem Bakony. In: Resultate der Wissenschaftlichen. Erforschung des Balatonsees, vol. 1 (1). Palaeontologie der Umgebung des Balatonsees 3 (6): 1–38.
• Mette, W. 2008. Upper Permian and lowermost Triassic stratigraphy, facies and ostracods in NW Iran—implications for the P/T extinction event. Stratigraphy 5 (2): 205–219.
• Moore, R.C. 1961. Treatise of Invertebrate Paleontology. PartQ. Arthropoda 3, Crustacea,Ostracoda. 442 pp. Geological Society of America and University of Kansas Press, Boulder.
• Oertli, H.J. 1971. The aspect of Ostracode fauna—a possible new tool in petroleum sedimentology. In: H.J. Oertli (ed.), Paléoécologie des Ostracodes. Bulletin du Centre de Recherche, SNPA 5 (Supplement): 137–151.
• Patte, E. 1935. Fossiles paléozoïques et mésozoïques du Sud Ouest de la Chine. Palaeontologica Sinica, Serie B 15 (2): 1–50.
• Posenato, R., Pelikán, P., and Hips, K. 2005. Bivalves and Brachiopods near the Permian–Triassic boundary from the Bükk Mountains (Bálvány North section, Northern Hungary). Rivista Italiana di Paleontologia e Stratigrafia 111: 217–234.
• Rodrigues, G.B., Bom, M.H., and Fauth, G. 2012. Recovery of ostracods in Cretaceous dolomitic carbonate: The efficiency of acetolysis. Marine Micropaleontology 92–93: 81–86.
• Sars, G.O. 1926. An Account of the Crustacea of Norway, Vol. 9. Ostracoda, Parts 13 and 14. Cytheridae (continued). 209–240 pp. Bergen Museum, Bergen.
• Schneider, G.F 1956. Genus Pseudoleperditia Schneider, gen. nov. [in Russian]. In: L.D. Kiparisova, B.P. Markovskii, and G.P. Radczenko (ed.), Materialy po paleontologii; novye semeistva i rody, Vsesoûznogo Naučno−Issledovatelskogo Geologičeskogo Instituta (VSEGEI), Materialy, nov. ser., 12, Paleontologiâ, p. 87.
• Shi, C.G. and Chen, D.Q. 1987. The Changhsingian ostracodes from Meishan Changxing, Zhejiang [in Chinese]. Stratigraphy and Palaeontology of Systemic Boundaries in China; Permian and Triassic Boundary 1: 23–80.
• Shi, C.G. and Chen, D.Q. 2002. Late Permian ostracodes from Heshan and Yishan of Guangxi. Bulletin of Nanjing Institute of Geology and Paleontology, Academia Sinica 15: 47–129.
• Sohn, I.G. 1961. Aechminella, Amphissites, Kirkbyella and related genera. United States Geological Survey Professional Paper 330−B: 107–160.
• Sohn, I.G. 1970. Early Triassic marine ostracodes from the Salt Range and Surghar Range, West Pakistan. In: B. Kummel and C. Teichert (ed.), Stratigraphic Boundary Problems: Permian and Triassic of West Pakistan, 149–206. Department of Geology, University of Kansas, Special publication, Lawrence.
• Sohn, I.G. 1971. New Late Mississippian Ostracode genera and species from Northern Alaska. A review of the Paraparchitacea. Geological Survey Professional Paper 711A: 1–24.
• Sudar, M., Perri, M.C., and Haas, J. 2008. Conodonts across the Permian–Triassic boundary in the Bükk Mountains (NE Hungary). Geologica Carpathica 59 (6): 491–502.
• Tong, J., Hansen, H.J., Zhao, L.S,. and Zuo, J.X. 2005. A GSSP candidate of Induan–Olenekian Boundary—stratigraphic sequence of the West Pingdingdhan Section, in Chaohu, Anhui Province. Journal of Stratigraphy 29 (2): 205–212.
• Wang, S.−Q. 1978. Late Permian and Early Triassic ostracods of Western Guizhou and Northeastern Yunnan. Acta Palaeontologica Sinica 17: 277–308.
• Wei, M. 1981. Early and Middle Triassic Ostracods from Sichuan. Acta Palaeontologica Sinica 20: 501–510.
• Wignall, P.B. and Hallam, A. 1993. Griesbachian (Earliest Triassic) palaeoenvironmental changes in the Salt Range, Pakistan and southeast China and their bearing on the Permo−Triassic mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology 102: 215–237.
• Yi, W.−J. 2004. Ostracodes from the Upper Permian and Lower Triassic at the Kongtongshan scetion of Datian, Fujian. Acta Palaeontologica Sinica 43: 556–570.
• Yin, H., Wu, S., Ding, M., Zhang, K., Tong, J., Yang, F., and Lai, X. 1996. The Meishan section, candidate of the Global Stratotype Section and Point of Permian–Triassic boundary. In: H.F Yin (ed.), The Paleozoic–Mesozoic Boundary Candidates of the Global Stratotype Section and Point of the Permian–Triassic Boundary, 31–48. China University of Geosciences Press, Wuhan.
• Yin, H., Zhang, K., Tong, J., Yang, Z., and Wu, S. 2001. The global stratotype section and point of the Permian–Triassic boundary (GSSP). Episodes 24: 102–114.
• Yuan, A., Crasquin, S., Feng, Q., and Gu, S. 2007. Latest Permian deep−water ostracods from Southwestern Guangxi, South China. Journal of Micropalaeontology 26: 169–191.
• Yuan, A., Crasquin, S., Feng, Q., and Gu, S. 2009. Ostracods from the uppermost Permian siliceous and muddy rocks from Guizhou, Guangxi and Anhui. Acta Micropalaeontologica Sinica 26: 385–403.
• Zhang, K.X., Tong, J., Shi, G.R., Lai, X., Yu, J., He, W., Peng, Y., and Jin, Y.G. 2007. Early Triassic conodont—palynological biostratigraphy of the Meishan D Section in Changxing, Zhejiang Province, South China. Palaeogeography, Palaeoclimatology, Palaeoecology 252: 4–23.
• Zheng, S. 1976. Early Mesozoic ostracodes from some localities in South West China. Acta Palaeontologica Sinica 15: 77–93.