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Late Permian foraminifers from the limestone block in the Southern Chichibu Terrane of west Shikoku, SW Japan

Published online by Cambridge University Press:  20 May 2016

Fumio Kobayashi
Fumio Kobayashi*
Affiliation:
Institute of Natural and Environmental Sciences, Himeji Institute of Technology, Sanda, Hyogo, Japan 669-1546,
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Abstract

A limestone block in the Shirokawa-Nomura area of western Shikoku (Japan) is interpreted to have been originated as a Panthalassan seamount, and is assigned to the northern part of the Southern Chichibu Terrane. The Late Permian foraminiferal fauna from this block is composed of 33 species, and is characterized by Nanlingella? sp., three unidentified species of Staffellidae, Paraglobivalvulina mira, Dagmarita chanakchiensis, Paradagmarita sp., and Partisania sp. Among them, four unidentified species are systematically described and discussed. Although this fauna is indeterminately either Wuchiapingian or Changhsingian, it is clearly Late Permian in age by comparison with Late Permian faunas in the Tethyan regions, and by the complete absence of neoschwagerinids, verbeekinids, and schwagerinids, which became extinct by the end of Middle Permian time. The limestone block in the Shirokawa-Nomura area is clearly distinguished from Upper Permian shelf limestones from the Kurosegawa, Southern Kitakami, and Maizuru terranes by its lithology and by the complete absence of the foraminifer Colaniella, one of the most important index genera in Upper Permian strata throughout the Tethyan and peri-Gondwana regions.

Type
Research Article
Information
Journal of Paleontology , Volume 78 , Issue 1 , January 2004 , pp. 62 - 70
Copyright
Copyright © The Paleontological Society 

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References

Altiner, D., and Ozkan-Altiner, S. 2001. Charliella rossae n. gen., n. sp., from the Tethyan Realm: remarks on the evolution of Late Permian biseriamminids. Journal of Foraminiferal Research, 31:309314.Google Scholar
Chernysheva, N. E. 1941. A new genus of foraminifera from the Tournaisian deposits of the Urals. Doklady Academiya Nauk SSSR, 32:6970.Google Scholar
Dunbar, C. O., and Skinner, J. W. 1937. Permian Fusulinidae of Texas, p. 517825. In Geology of Texas, 3(2), Bulletin of University of Texas Bureau of Economic Geology and Technology.Google Scholar
Fontaine, H., Salyapongse, S., Tansuwan, V., and Vachard, D. 1997. The Permian of east Thailand, biostratigraphy, corals, discussion about the division of the Permian, p. 109127. In International Conference on Stratigraphy and Tectonic Evolution of Southeast Asia and the South Pacific, Bangkok, Thailand.Google Scholar
Galloway, J. J. 1933. A manual of Foraminifera. James Furman Kemp Memorial Series, Bloomington, Indiana, 483 p.Google Scholar
Gung, F. S. 1966. Some new fusulinid species from the Upper Permian of the Gantse district, Pintan province, Guizhou. Acta Palaeontologica Sinica, 14:8090. (In Chinese and Russian)Google Scholar
Hada, S. 1974. Construction and Evolution of the Intrageosynclinal Tectonic Lands in the Chichibu Belt of Western Shikoku, Japan. Journal of Geosciences, Osaka City University, 17:152.Google Scholar
Hada, S., Sato, E., Takeshima, H., and Kawakami, A. 1992. Age of the covering strata in the Kurosegawa Terrane: dismembered continental fragment in southwest Japan. Palaeogeography, Palaeoclimatology, Palaeoecology, 96:5969.Google Scholar
Ichikawa, K., Ishii, K., Nakagawa, C., Suyari, K., and Yamashita, N. 1956. Die Kurosegawa Zone. The Journal of the Geological Society of Japan, 62:82103. (In Japanese with German abstract)Google Scholar
Ishii, K., Okimura, Y., and Nakazawa, K. 1975. On the genus Colaniella and its biostratigraphic significance. Journal of Geosciences, Osaka City University, 19:107129.Google Scholar
Jenny-Deshusses, C., and Baud, A. 1989. Colaniella, foraminifere index du Permien tardif tethysien: propositions pour une taxonomie simplifiée, répartition géographique et environnements. Ecologae Geologicae Helvetiae, 82:869901.Google Scholar
Kanmera, K. 1954. Fusulinids from the Upper Permian Kuma Formation, southern Kyushu, Japan, with special reference to the fusulinid zone in the Upper Permian of Japan. Memoirs of the Faculty of Sciences, Kyushu University, Series D, 4:138.Google Scholar
Kanmera, K., and Nakazawa, K. 1973. Permian-Triassic relationship and faunal changes in the eastern Tethys, p. 100119. In Logan, A. and Hills, L. E. (eds.), The Permian and Triassic Systems and their Mutual Boundary. Canadian Society of Petroleum Geologists Memoir, 2.Google Scholar
Kobayashi, F. 1986. Middle Permian foraminifers of the Gozenyama Formation, southern Kwanto Mountains, Tokyo, Japan. Bulletin of the National Science Museum, Series C, 12:131163.Google Scholar
Kobayashi, F. 1997. Upper Permian foraminifers from the Iwai-Kanyo area, west Tokyo, Japan. Journal of Foraminiferal Research, 27:186195.Google Scholar
Kobayashi, F. 1999. Tethyan uppermost Permian (Dzhulfian and Dorashamian) foraminiferal faunas and their paleobiogeographic and tectonic implications. Palaeogeography, Palaeoclimatology, Palaeoecology, 150:279307.CrossRefGoogle Scholar
Kobayashi, F. 2000. Stratigraphy of the Tao Limestone (Triassic oceanic buildup in the Panthalassa) of Southwest Japan. Workshop on the Lower-Middle Triassic (Olenekian-Anisian) Boundary, Tulcea, Romania. (In poster)Google Scholar
Kobayashi, F. 2001a. Early Late Permian (Wuchiapingian) foraminiferal fauna newly found from the limestone block of the Sambosan Belt in the southern Kanto Mountains, Japan. The Journal of the Geological Society of Japan, 107:701705. (In Japanese with English abstract)Google Scholar
Kobayashi, F. 2001b. Faunal composition and comparison of Permian foraminifers of the Kuma Formation in the Kurosegawa Belt of west Kyushu, Japan. News of Osaka Micropaleontologists, Special Volume (12):6184.Google Scholar
Kobayashi, F. 2002. Lithology and foraminiferal fauna of the allochthonous limestones (Changhsingian) in the upper part of the Toyama Formation in the South Kitakami Belt, Northeast Japan. Paleontological Research, 6:331342.Google Scholar
Kobayashi, F. 2003. Paleogeographic constraints on the tectonic evolution of the Maizuru Terrane of Southwest Japan to the eastern continental margin of South China during the Permian and Triassic. Palaeogeography, Palaeoclimatology, Palaeoecology (in press).Google Scholar
Koike, T. 1979. Conodont biostratigraphy in the Tao Limestone (Triassic), Shirokawa-cho, Higashiuwa-gun, Ehime prefecture, p. 115123. In Biostratigraphy of Permian and Triassic Conodonts and Holothurian Sclerites in Japan, Commemorative Volume of the Retirement of Professor Mosaburo Kanuma, Tokyo. (In Japanese)Google Scholar
Kotlyar, G. V., Zakharov, Yu. D., Kropatcheva, G. S., Pronina, G. P., Chedija, I. O., and Burago, V. I. 1989. Evolution of the Latest Permian Biota. Midian regional stage in the USSR, 185 p., Nauka, Leningrad. (In Russian)Google Scholar
Lin, J., Li, J., and Sun, Q. 1990. Late Paleozoic Foraminifers in South China, 279 p. Scientific Publishing House, Beijing. (In Chinese with English summary)Google Scholar
Loeblich, A. R. Jr., and Tappan, H. 1984. Suprageneric classification of the Foraminiferida (Protozoa). Micropaleontology, 30:170.CrossRefGoogle Scholar
Lys, M., and Marcoux, J. 1978. Les niveaux du Permien Supérieur des Nappes d'Antalya (Taurides occidentales Turquie). Compte Rendu Hebdomadaire des Seances de l'Academie des Sciences, Paris, 286:14171420.Google Scholar
Lys, M., Colchen, M., Bassoullet, J. P., Marcoux, J., and Mascle, G. 1980. La biozone à Colaniella parva du Permien Supérieur et sa microfaune dans le bloc calcaire exotique de Lamayuru, Himalaya du Ladakh. Revue de Micropaléontologie, 23:76108.Google Scholar
Miklukho-Maklay, A. D. 1949. Upper Paleozoic Fusulinids of Central Asia, Fergana, Darvas, and Pamir. Leningradskiy Gosudarstvennyy Universitet, Leningrad, 111 p. (In Russian)Google Scholar
Moeller, V. von. 1878. Die spiral-gewunden Foraminiferen des russischen Kohlenkalkes. Mémoires de l'Académie Impériale des Sciences de St. Petersburg, Serie 7, 25:1131.Google Scholar
Montenat, C., de Lapparent, A. F., Lys, M., Termier, G., and Vachard, D. 1976. La transgression permienne et son substratum dans le Jebel Akhdar (Montagnes d'Oman, Péninsule Arabique). Annales de la Société Géologique du Nord, Lille, 96:239258.Google Scholar
Nakazawa, K., Kapoor, H. M., Ishii, K., Bando, Y., Okimura, Y., and Tokuoka, T. 1975. The Upper Permian and the Lower Triassic in Kashmir, India. Memoirs of the Faculty of Sciences, Kyoto University, Series of Geology and Mineralogy, 42:1106.Google Scholar
Ota, A., Isozaki, Y., and Kawahata, H. 2002. Secular change in stable carbon isotope ratio across the Middle/Upper Permian boundary in paleo-atoll limestone in Kyushu, Japan. Journal of Geography, 111:684694. (In Japanese with English abstract)Google Scholar
Ota, A., Kanmera, K., and Isozaki, Y. 2000. Stratigraphy of the Permian Iwato and Mitai Formations in the Kamura area, Southwest Japan. The Journal of the Geological Society of Japan, 106:853864. (In Japanese with English abstract)Google Scholar
Pakistanian-Japanese Research Group. 1985. Permian and Triassic Systems in the Salt Range and Surghar Range, Pakistan, p. 221298. In Nakazawa, K. and Dickins, J. M. (eds.), ‘The Tethys’, her Paleogeography and Paleobiogeography from Paleozoic to Mesozoic. Tokai University Press, Tokyo.Google Scholar
Pronina-Nestell, G. P., and Nestell, M. K. 2001. Late Changhsingian foraminifers of the northwestern Caucasus. Micropaleontology, 47:205234.CrossRefGoogle Scholar
Reiss, Z. 1963. Reclassification of perforate foraminifera. Bulletin of the Geological Survey of Israel, 35:1111.Google Scholar
Reytlinger, E. A. 1965. Foraminiferal development in the Late Paleozoic and Early Triassic epochs in the territory of Transcaucasus. Voprosy Mikropaleontologii, 9:4570. (In Russian)Google Scholar
Rozovskaya, S. E. 1965. Protozoa, p. 137146. In Ruzhencev, V. E. and Sarytcheva, T. G. (eds.), Development and Change of Marine Organisms at the Boundary of the Paleozoic and Mesozoic, Trudy Paleontologicheskogo Instituta, Akademiya Nauk SSSR, Volume 108. (In Russian)Google Scholar
Rui, L., and Sheng, J. Z. 1981. On the genus Palaeofusulina. Special Papers of the Geological Society of America, 187:3337.Google Scholar
Sakagami, S., and Hatta, A. 1982. On the Upper Permian Palaeofusulina-Colaniella fauna from Khao Doi Pha Phlung, north Thailand, p. 114. In Kobayashi, T., Toriyama, R., and Hashimoto, W. (eds.), Geology and Palaeontology of Southeast Asia, Volume 24. Tokyo University Press, Tokyo.Google Scholar
Sano, H., and Nakashima, K. 1997. Lowermost Triassic (Griesbachian) microbial bindstone-cementstone facies, Southwest Japan. Facies, 36:124.Google Scholar
Skinner, J. W. 1931. Primitive fusulinids of the Mid-Continent region. Journal of Paleontology, 5:253259.Google Scholar
Sosnina, M. I. 1978. On foraminifera of the late Permian Chandalazsk Horizon of South Primorye, p. 2441. In Popeko, L. I. (ed.), Upper Paleozoic of Northeast Asia, Instituta Tektoniki i Geofiziki, Akademiya Nauk SSSR, Dal' nevostochnyy Nauchnyy Tsentr, Vladivostok. (In Russian)Google Scholar
Vachard, D., Hauser, M., Martini, R., Zaninetti, L., Matter, A., and Peters, T. 2002. Middle Permian (Midian) foraminiferal assemblages from the Batain Plain (eastern Oman): Their significance to Neotethyan paleogeography. Journal of Foraminiferal Research, 32:155172.Google Scholar
Watanabe, K., Kanmera, K., and Nakashima, K. 1979. Conodont biostratigraphy in the Kamura Limestone (Triassic), Takachiho-cho, Nishiusuki-gun, Miyazaki prefecture, p. 127137. In Biostratigraphy of Permian and Triassic Conodonts and Holothurian Sclerites in Japan, Commemorative Volume of the Retirement of Professor Mosaburo Kanuma, Tokyo. (In Japanese)Google Scholar
Whittaker, J. E., Zaninetti, L., and Altiner, D. 1979. Further remarks on the micropalaeontology of the late Permian of eastern Burma. Notes du Laboratoire de Paléontologie de l'Université de Genève, 5:1124.Google Scholar
Yehara, S. 1926. The Lower Triassic cephalopoda and bivalve fauna of Shikoku. The Japanese Journal of Geology and Geography, 5:135172.Google Scholar
Yoshikura, S., Hada, S., and Isozaki, Y. 1990. Kurosegawa Terrane, p. 249266. In Ichikawa, K., Mizutani, S., Hara, I., Hada, S., and Yao, A. (eds.), Pre-Cretaceous Terranes of Japan. Publication of IGCP Project No. 224: Pre-Jurassic Evolution of Eastern Asia, Osaka.Google Scholar
Zaninetti, L., and Altiner, D. 1981. Les Biseriamminidae (Foraminifères) dans le Permien supérieur mésogéen: évolution et biostratigraphie. Notes du Laboratoire de Paléontologie de l'Université de Genève, 7:3947.Google Scholar
Zaninetti, L., Altiner, D., and Catal, E. 1981. Foraminifères et biostratigraphie dans le Permien supérieur du Taurus oriental, Turquie. Notes du Laboratoire de Paléontologie de l'Université de Genève, 7:137.Google Scholar