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Xenodiscacean Ammonoids and their bearing on the discrimination of the Permo-Triassic boundary

Published online by Cambridge University Press:  01 May 2009

E. T. Tozer
E. T. Tozer
Affiliation:
Geological Survey of Canada, Department of Energy, Mines and Resources, 601 Booth Street, Ottawa 4, Ontario.
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Summary

Xenodiscacean ammonoids from Dzhulfa in Soviet Transcaucasia, assigned to Tompophiceras, Bernhardites and Paratirolites, have been interpreted as indicating that the enclosing beds, which also contain tetracorals, productacean brachiopods and goniatites, are Lower Triassic. Critical examination of the identifications shows that these beds should be regarded as Permian, not Triassic. Tompophiceras and Bernhardites are based on Triassic type species but the specimens from Dzhulfa are not demonstrably congeneric. Interpretation of Tompophiceras as a genus with a fastigate venter is rejected. Paratirolites, previously regarded as Triassic, is evidently Permian, and is now recorded from Madagascar, this being the first record outside Transcaucasus. New evidence is presented concerning the exact age of Glyptophiceras. The Dzhulfa section has been interpreted as providing a continuous transition, in the marine facies, between beds of Permian and Triassic age. This interpretation is rejected. It remains probable that there are no sections, in any part of the world, that do so.

Type
Articles
Information
Geological Magazine , Volume 106 , Issue 4 , 27 August 1969 , pp. 348 - 361
Copyright
Copyright © Cambridge University Press 1969

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References

REFERENCES

Abich, H. W. 1878.Geologische Forschungen in den Kaukasischen Ländern. Th. 1. Eine Bergkalkfauna aus der Araxes-Enge beiDjoulfa in Armenien. Vienna.Google Scholar
Arkell, W. J., et al. 1957.Treatise on Invertebrate Paleontology, Part L, Mollusca, 4, Ammonoidea. Geological Society of America & University of Kansas Press.Google Scholar
Arthaber, G. 1900. Das jungere Palaozoicum aus der Araxes-Enge bei Djulfa. Beitr. Paldont. Geol. Ost.-Ung., 12 (4), 209308.Google Scholar
Besairie, H. 1936. La Géologie du Nord Ouest. Mém. Acad. malgache, 21.Google Scholar
Besairie, H. 1966. Gites mineraux de Madagascar. Annlsgeol. Madagascar, 34.Google Scholar
Besairie, H. & Collignon, M. 1956. Lexique Stratigraphique International, 4, Afrique, 11, Madagascar. Centre National de la Recherche Scientifique, Paris.Google Scholar
Bion, H. S. 1914. Tract N. of Srinagar and Pahlgam. Rec. geol. Surv. India., 44, 39–40.Google Scholar
Bonnet, P. & Bonnet, N. 1947. Description géologique de la, Transcaucasie méridionale (Chaines de l'Araxe Moyan). Mém. Soc. geol. Fr., 25, (53).Google Scholar
Chao, King-Koo 1965. The Permian Ammonoid-bearing formations of South China. Scientia Sin., 14, (12), 18131825.Google Scholar
Collignon, M. 1933. Paléontologie de Madagascar, 20, Les Céphalopodes du Trias inferieur. Annls Paléont., 21, 151180.Google Scholar
Collignon, M. 1936. Les Ammonites triasiques. In Besairie, 1936, 107115.Google Scholar
Diener, C. 1912. The Trias of the Himalayas. Mem. geol. Surv. India, 36 (3), 1159.Google Scholar
Diener, C. 1913. Triassic Faunae of Kashmir. Mem. geol. Surv. India Palaeont. indica, (N.S.), 5 (1).Google Scholar
Diener, C. 1914. Ammoniten aus der Untertrias von Madagaskar. Sber. Akad. Wiss. Wien., 123, 911922.Google Scholar
Frech, F. 1905. In Noetling, 1905.Google Scholar
Furnish, W. M. 1966. Ammonoids of the Upper Permian Cyclolobus-Zone. Neues Jb. Geol. Päldont. Abh. 125, 265296.Google Scholar
George, T. N. et al. 1967. Report of the Stiatigraphical Code Sub-Committee. Proc. geol. Soc. Lond. No. 1638, 7587.Google Scholar
Glenister, B. F., & Furnish, W. M. 1961. The Permian Ammonoids of Australia. J. Paleont., 35, (4), 673736.Google Scholar
Grant, R. E. 1968. Structural adaptation in two Permian brachiopod genera, Salt Range, West Pakistan. J. Paleont., 42, (1), 132.Google Scholar
Kummel, B. 1957. In Arkell, W. J. et al. , 1957.Google Scholar
Kummel, B., & Teichert, C. 1966. Relations between the Permian and Triassic formations in the Salt Range and Trans-Indus ranges, West Pakistan. Neues Jb. Geol. Paläont. Abh., 125, 297333.Google Scholar
Luppov, N. P., & Drustich, V. V. 1958. [Fundamentals of Palaeontology, MoUusca- CephalopodalL] State Scientific Press, Moscow. [In Russian].Google Scholar
Merle, A., & Fournier, E. 1910. Sur le Trias marin du Nord de Madagascar. Bull. Soc. geol Fr., ser. 4, 10, 660664.Google Scholar
Noetling, F. 1905. Die asiatische Trias. Lethaea geognostica, II, Mesozoicum, 1, (2), 107221.Google Scholar
Popov, Yu. N. 1961. [Triassic ammonoids of north-east U.S.S.R.]. Trans, res. sci. Inst. Geol. Arctic, 79. [In Russian].Google Scholar
Rhodes, F. H. T. 1967. Permo-Triassic extinction. In Harland, W. B. et al. , (Eds.), The Fossil Record, London (Geological Society), 57.Google Scholar
Ruzhencev, V. E. 1965. [Evolution and change of marine organisms at the boundary between the Palaeozoic and Mesozoic] Trans, pal. Inst. Acad. Sci. U.S.S.R., 108. [In Russian].Google Scholar
Schindewolf, O. H. 1954. Über die Faunenwende vom Palaozoikum zum Mesozoicum. Z. dt. geol. Ges., 105, (2), 153183.Google Scholar
Shevyrev, A. A. 1965. In Ruzhencev, et al. , 1965.Google Scholar
Spath, L. F. 1930. The Eo-triassic invertebrate fauna of East Greenland. Meddr Grønland, 83, (1).Google Scholar
Spath, L. F. 1934. The Ammonoidea of the Trias (I); Cat. Fossil Cephalopoda Brit. Mus. (Nat. Hist.), 4.Google Scholar
Spath, L. F. 1935. Additions to the Eo-triassic invertebrate fauna of East Greenland. Meddr Grønland, 98, (2).Google Scholar
Stoyanow, A. A. 1910. On the character of the boundary of the Palaeozoic and Mesozoic near Djulfa. Ver. russ. min. Ges. St. Petersb., ser. 2, 47, 61–35.Google Scholar
Tozer, E. T. 1961. Triassic Stratigraphy and faunas, Queen Elizabeth Islands, Arctic Archipelago. Mem. geol. Surv. Can., 316.Google Scholar
Tozer, E. T. 1965. Lower Triassic Stages and Ammonoid Zones of Arctic Canada. Pap. geol. Surv. Can., 65–12.Google Scholar
Tozer, E. T. 1967. A Standard for Triassic Time. Bull. geol. Surv. Can., 156.Google Scholar
Treat, I. V.-C. 1933. Paléontologie de Madagascar 19, Le Permo-Trias Marin. Annls Paleont., 22, (2), 3995.Google Scholar
Tumanskaya, O. G. 1966. [Triassic ammonoids of the Nakhichevan A.S.S.R.]. Doklady Acad. Set U.S.S.R., 168, (6), 13851386. [In Russian].Google Scholar
Vavllov, M. N. 1967. [On Lower Triassic Zones in Western Verhoyan]. Doklady Acad. Sci. U.S.S.R., 175, (5), 11051107. [In Russian].Google Scholar
Waterhouse, J. B. 1966. Lower Carboniferous and Upper Permian Brachiopods from Nepal. Jb. geol. Bundesanst. Wien., 12, 599.Google Scholar
Waterhouse, J. B. 1967. Upper Permian (Tatarian) Brachiopods from New Zealand. N.Z. J. Geol. Geophys., 10, (1), 74118.CrossRefGoogle Scholar
Williams, A. & Wright, A. D. 1967. Class Arcticulata. In Harland, W. B. et al. (Eds.): The Fossil Record, London (Geological Society), 57.Google Scholar