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Stratigraphy and age of the ammonoid Durvilleoceras woodmani from the Greville Subgroup, New Zealand

Published online by Cambridge University Press:  01 May 2009

J. B. Waterhouse
J. B. Waterhouse
Affiliation:
Department of Geology & Mineralogy, University of Queensland, St Lucia, Brisbane 4067, Australia
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Abstract

Durvilleoceras woodmani of debated Late Permian or Early Triassic age is accompanied by other ammonoids, deemed to belong to Araxoceratidae, Xenodiscidae, and Goniatitida, of chiefly Late Permian age. The ammonoids are found principally in the Deserter Bay and especially Tongue Point Members (new names) of the newly named South Arm and Wells Arm formations of the Greville Subgroup, which are overlain, apparently in normal stratigraphic succession, by the Waiua Formation and newly named formations of the Te Mokai Group, with three successive faunas of Permian appearance.

Type
Articles
Information
Geological Magazine , Volume 124 , Issue 6 , November 1987 , pp. 527 - 542
Copyright
Copyright © Cambridge University Press 1987

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References

Bando, Y. 1979. Upper Permian and Lower Triassic ammonoids from Abadeh, Central Iran. Memoirs of the Faculty of Education, Kagawa University II, 29(2), 103–38.Google Scholar
Campbell, H. J. 1986. ‘Permian’ Cephalopods of New Zealand. New Zealand Research Notes 18, 111115.Google Scholar
Campbell, H. J. & Bando, Y. 1985. Lower Triassic ammonoids of New Caledonia. Geologie de la France 1, 514.Google Scholar
Campbell, H. J., Coleman, A. C., Johnston, M. R. & Landis, C. A. 1984. Geology of Stephens Island and the age of Stephens Formation. New Zealand Journal of Geology and Geophysics 27, 277–89.Google Scholar
Frech, F. 1902. Zur Kenntnis der Ammoneen in den indischen Grenzschichten von Dyas und Trias. Lethaea Geognostica, 1, Palaeozoica 2 (4), Die Dyas (Schluss), 628–39.Google Scholar
Furnish, W. M., Glenister, B. F., Kummel, B., Spinosa, C., Sweet, W. & Teichert, C. 1976. Reinterpretation of ceratitic ammonoids from the Greville Formation, New Zealand. Geological Magazine 113, (1), 3946.Google Scholar
Gupta, V. J. & Kozur, H. 1983. Remarks on the age of the Otoceras woodwardi Zone and other Otoceras-bearing beds. Contributions to Himalayan Geology 2, 292–8.Google Scholar
Hochstetter, F. von. 1864. Geologie von Neuseeland. Beiträge zur Geologie der Provinzen Auckland und Nelson. Reise der osterreichischen Fregatte Novara um die Erde usw. Geologischer Theil 1 (1), Wein.Google Scholar
Hyatt, A. 1884. Genera of fossil Cephalopods. Boston Society of Natural History, Proceedings 22, 273338.Google Scholar
Hyatt, A. 1900. Cephalopoda. In Text book of Palaeontology (Zittel, K. A.), First English translation by C. R. Eastman, 502–92, fig. 10491235.Google Scholar
Hyden, G., Begg, J. G., Campbell, H. J. & Campbell, J. D. 1982. Permian fossils from the Countess Formation, Mossburn, Southland. New Zealand Journal of Geology and Geophysics 25 (1), 101–8.Google Scholar
Johnston, M. R. 1981. Sheet 027AC, Dun Mountain, 1st ed. Geological Map of New Zealand 1:50000. Map and Notes. New Zealand Department of Scientific and Industrial Research, Wellington.Google Scholar
Johnston, M. R. 1982. Sheet N28BD – Red Hills, 1st ed. Geological Map of New Zealand 1:50000. Map and Notes. New Zealand Department of Scientific and Industrial Research, Wellington.Google Scholar
Johnston, M. R. & Stevens, G. R. 1978. New fossil localities in the Maitai Group, Nelson, and comments on its age. New Zealand Journal of Geology and Geophysics 21 (1), 113–15.CrossRefGoogle Scholar
Kozur, H. 1986. In Permophiles no. 11, May 1986, pp. 13, 14. A newsletter of SCPS, the Subcommission on Permian Stratigraphy. International Union of Geological Sciences (IUGS).Google Scholar
von Krafft, A. & Diener, C. 1909. Lower Triassic Cephalopoda from Spiti, Mallar Johar and Byans. Palaeontologica Indica, Series 15, 6 (1), 1186.Google Scholar
Kummel, B. 1972. The lower Triassic (Scythian) ammonoid Otoceras. Bulletin of the Museum of Comparative Zoology, Harvard University 143 (6), 365418.Google Scholar
Ruzhencev, V. E. 1951. Lower Permian ammonites of the southern Urals; 1, Ammonites of the Sakmarian Series. Academiyr Nauk SSSR Trudy Paleontologicheskogo Instituta 33, 1188 (in Russian).Google Scholar
Ruzhencev, V. E. 1959. Classification of Superfamily Otocerataceae. Paleontologische Zhurnal 1959 (2), 5667 (in Russian).Google Scholar
Ruzhencev, V. E. 1962. Classification of Family Araxoceratidae. Paleontologische Zhurnal 1962 (4), 88102 (in Russian).Google Scholar
Ruzhencev, V. E. 1963. New data on the Family Araxoceratidae. Paleontologische Zhurnal 1963 (3), 56103 (in Russian).Google Scholar
Ruzhencev, V. E. & Sarytcheva, T. G. (eds) 1965. Evolution and change of marine organisms at the Paleozoic–Mesozoic boundary. Akademiyr Nauk SSSR Trudy Paleontologicheskogo Instituta 108, (in Russian).Google Scholar
Shevyrev, A. A. 1965. Suborder Ammonoidea. In Evolution and change of marine organisms at the Paleozoic-Mesozoic boundary (Ruzhencev, V. E. & Sarytcheva, T. G. editors), 166–82. Akademiyr Nauk SSSR Trudy Paleontologicheskogo Instituta 108.Google Scholar
Sivell, W. J. & Rankin, P. 1983. Arc-tholeiite and ultramafic cumulate, Brook Street Volcanics, west D'Urville Island. New Zealand Journal of Geology and Geophysics 26, 239–57.CrossRefGoogle Scholar
Sheng, Jin-Zhang, Chen, Chu-Zhen, Wang, Yi-Gang, Rui, Lin, Liao, Zhuo-Ting, Yuji, Bando, Ken-Ichi, Ishii, Kenji, Nakazawa & Koji, Nakamura. 1984. Permian–Triassic boundary in middle and eastern Tethys. Journal of Faculty of Science, Hokkaido University, Series 4, 21 (1), 133–81.Google Scholar
Spath, L. F. 1930. The Eotriassic invertebrate fauna of East Greenland. Meddelingen om Grønland 83, 190.Google Scholar
Stepanov, D. L., Golshani, F. & Stocklin, J. 1969. Upper Permian and Permian–Triassic boundary in north Iran. Geological Survey of Iran Report no. 12, 172.Google Scholar
Taraz, H., Golshani, F., Nakazawa, K., Shimizu, D., Bando, Y., Ishii, K., Murata, M., Okimura, Y., Sakagami, S., Nakamura, K. & Tokuoka, T. 1981. The Permian and the Lower Triassic Systems in Abadeh Region, Central Iran. Memoirs of the Faculty of Science, Kyoto University, series Geology and Mineralogy 47, (2), 113–15.Google Scholar
Tozer, E. I. 1963. Contributions to Canadian palaeontology. Part I – Lower Triassic ammonoids from Tuchadi Lakes and Halfway River areas, northeastern British Columbia. Geological Survey of Canada, Bulletin no. 96, 130.Google Scholar
Tozer, E. T. 1969. Xenodiscacean ammonoids and their bearing on the discrimination of the Permo-Triassic boundary. Geological Magazine 106 (4), 348–61.Google Scholar
Tozer, E. T. 1971. Triassic time and ammonoids: problems and proposals. Canadian Journal of Earth Science 8 (8), 8891031.Google Scholar
Tozer, E. T. 1975. Review of the Lower Triassic Ammonoid succession and its bearing on chronostratigraphic nomenclature. Veroffentlichung des österreichischen Nationkomitees für das International Geological Correlation Programme Project Nr 73/1/4. Triassic of the Tethys Realm, 2136.Google Scholar
Tozer, E. T. 1979. The significance of the ammonoids Paratirolites and Otoceras in correlating the Permian–Triassic boundary beds of Iran and the People's Republic of China. Canadian Journal of Earth Sciences 16 (7), 1524–32.Google Scholar
Wang, Yi-Gang. 1984. Earliest Triassic ammonoid faunas from Jiangsu and Zhenjiang and their bearing on the definition of Permo-Triassic boundary. Acta Palaeontologica Sinica 23 (3), 246–70.Google Scholar
Waterhouse, J. B. 1959. Stratigraphy of the lower part of the Maitai Group, Nelson. New Zealand Journal of Geology and Geophysics 2, 944–53.Google Scholar
Waterhouse, J. B. 1964 a. Permian ammonoid from New Zealand. Journal of Paleontology 38, 149–50.Google Scholar
Waterhouse, J. B. 1964 b. Permian stratigraphy and faunas of New Zealand. New Zealand Geological Survey Bulletin no. 72.Google Scholar
Waterhouse, J. B. 1965. A Historical Survey of the Pre-Cretaceous Geology of New Zealand Part 1. New Zealand Journal of Geology and Geophysics 8 (6), 931–98.Google Scholar
Waterhouse, J. B. 1967. Upper Permian (Tatarian) brachiopods from New Zealand. New Zealand Journal of Geology and Geophysics 10, 74118.CrossRefGoogle Scholar
Waterhouse, J. B. 1973. An Ophiceratid ammonoid from the New Zealand Permian and its implications for the Permian–Triassic boundary. Geological Magazine 110 (4), 305–29.Google Scholar
Waterhouse, J. B. 1976 a. World correlations for Permian marine faunas. Papers, Department of Geology, University of Queensland 7, (2), 1232.Google Scholar
Waterhouse, J. B. 1976 b. Permian–Triassic boundary in New Zealand. New Zealand Journal of Geology and Geophysics 19, 373–85.CrossRefGoogle Scholar
Waterhouse, J. B. 1978 a. Permian Brachiopoda and Mollusca from Nepal. Palaeontographica A 160, 1178.Google Scholar
Waterhouse, J. B. 1978 b. Chronostratigraphy for the World Permian. In Contributions to the Geologic Time Scale (ed. Cohee, G. V. Glaessner, M. F. Hedberg, H. D.), pp. 299322. American Association of Petroleum Geologists, Studies in Geology no. 6.Google Scholar
Waterhouse, J. B. 1979 a. The debated age of the ammonoid Durvilleoceras Waterhouse. Geological Magazine 116, 385–92.Google Scholar
Waterhouse, J. B. 1979 b. A new species of Permophorus Chavan (Bivalvia) from the early Triassic of New Zealand. New Zealand Journal of Geology and Geophysics 22, 743–9.Google Scholar
Waterhouse, J. B. 1982. Brachiopod systematics, zonation and paleoecology for the New Zealand Permian. New Zealand Geological Survey Palaeontological Bulletin no. 48, 1158.Google Scholar
Waterhouse, J. B. & Briggs, J. D. C. 1986. Late Palaeozoic Scyphozoa and Brachiopoda (Inarticulata, Strophomendida, Productida, Rhynchonellida and Athyrida) from the Bowen Basin, Queensland. Palaeontographica A 193, 176.Google Scholar
Waterhouse, J. B. & Gupta, V. J. 1983. An Early Djulfian (Permian) brachiopod faunule from Shyok Valley, Karakorum Range, and the implications for dating of allied faunas from Iran and Pakistan. Contributions to Himalayan Geology 2, 188233.Google Scholar
Wellmann, H. W. 1957. In A Survey of Soils, Vegetation and Agriculture of the Eastern Hills, Waimea County, Nelson (ed. Rigg, T., Chittenden, E. & Hodgson, L.). Nelson: Cawthron Institute.Google Scholar
Yin, Hongfu. 1985. On the transitional bed and the Permian–Triassic boundary in South China. Newsletter of Stratigraphy 15 (1), 1327.Google Scholar
Zhao, Jinko, Liang, Xiluo & Zheng, Zhuoguan. 1978. Late Permian cephalopods of South China. Paleontologica Sinica, Series B, N.S. 154, (12), 1194.Google Scholar
Zhao, Jin-Ke, Sheng, Jin-Zhang, Yao, Zhao-Qi, Liang, Xi-Luo, Chen, Chu-Zhen, Rui, Lin & Liao, Zhuo-Ting. 1981. The Changhsingian and Permian–Triassic boundary of South China. Bulletin of Nanjing Institute of Geology and Palaeontology, Academica Sinica 1981 (2), 1112.Google Scholar