Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-25T04:07:56.792Z Has data issue: false hasContentIssue false

Some New Radiolarian Species and Genus from Upper Permian in Guangxi Province, South China

Published online by Cambridge University Press:  20 May 2016

Jun Wu
Affiliation:
1State Key Laboratory of Geo-Processes and Mineral Resources, China University of Geosciences, Wuhan 430074, China, 2Wuhan Center of Geological Survey, CGS, Wuhan 430223, China,
Qinglai Feng
Affiliation:
1State Key Laboratory of Geo-Processes and Mineral Resources, China University of Geosciences, Wuhan 430074, China,
Biwen Gui
Affiliation:
1State Key Laboratory of Geo-Processes and Mineral Resources, China University of Geosciences, Wuhan 430074, China,
Guichun Liu
Affiliation:
1State Key Laboratory of Geo-Processes and Mineral Resources, China University of Geosciences, Wuhan 430074, China,

Abstract

A well-preserved highly diverse radiolarian fauna was discovered from the Upper Permian Dalong Formation in Guangxi, South China. A new genus and 19 species are described in this paper. Zhuangodiscus n. gen. belongs to the Family Relindellidae Kozur and Möstler. The 19 species include eight new species (Albaillella bialata, Neoalbaillella camarata, Neoalbaillella cephalota, Zhuangodiscus biacanthus, Zhuangodiscus orthacanthus, Zhuangodiscus pentacanthus, Tetratormentum nandanensis, Octatormentum yaoi) and 11 undetermined species. A new radiolarian assemblage, Neoalbaillella camarata Assemblage is proposed, which is located at the upper part of Neoalbaillella optima Assemblage Zone, corresponds well with the Albaillella yaoi Zone.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Baumgartner, P. 1984. A Middle Jurassic-Early Cretaceous low latitude radiolarian zonation based on unitary associations and age of Tethyan radiolarites. Eclogae Geologicae Helvetiae, 7:729837.Google Scholar
Blome, C. D. and Reed, K. M. 1995. Radiolarian biostratigraphy of the Quinn River Formation, Black Rock terrane, north-central Nevada: Correlations with eastern Klamath terrane geology. Micropaleontology, 41(1):4968.Google Scholar
Bu, J. J., Wu, S. B., Zhang, H. L., Meng, Y. Y., Zhang, F., and Zhang, L. Y. 2006. Permian-Triassic cephalopods from Dongpan Section, Guangxi, and its geological significance. Geological Science and Technology Information, 25(4):4751. (In Chinese).Google Scholar
Caridroit, M. and De Wever, P. 1986. Some Late Permian radiolarians from pelitic rocks of the Tatsuno Formation (Hyogo Prefecture), Southwest Japan. Marine Micropalaeontology, 11:5090.CrossRefGoogle Scholar
Caridroit, M., De Wever, P., and Dumitrica, P. 1999. Un nouvel ordre, une nouvelle famille et un nouveau genre de radiolaires du Paleozoique: Latentifistularia, Cauletellidae et Cauletella. Compte Rendu de la Académie des Sciences Francaise, Sciences de la terre et des planèts, 329:603608.Google Scholar
Deflander, G. 1952. Albaillella nov. gen., du Carbonifère inférieur, type d'une lignee aberrante eteinte. Comptes rendus hebdomadaires des séances de l'Académie des sciences, 234:872874.Google Scholar
Deflander, G. 1953. Radiolaires fossiles, p. 389486. In Grasse, P. P. (ed.), Traite de Zoologie. Masson et Cie, Paris, 1.Google Scholar
De Wever, P. and Caridroit, M. 1984. Description de quelques nouveaux Latentifistulidae (Radiolaires polycystines) paleozoiques du Japon. Revue de Micropaléontologie, Paris, 27(2):98106.Google Scholar
De Wever, P., Dumitrica, P., Caulet, J. P., Nigrini, C., and Caridroit, M. 2001. Radiolarians in the Sedimentary Record. Gordon and Breach Science Publishers, 525 p.Google Scholar
Dumitrica, P., Kozur, H., and Möstler, H. 1980. Contribution to the radiolarian fauna of the Middle Triassic of the Southern Alps. Geologisch-Paläontologische Mitteilungen Innsbruck, 10:146.Google Scholar
Ehrenberg, C. G. 1876. Fortestzung der mikrogeologischen Studien als Gesammtuebersicht der mikroskopischen Palaeontologie gleichartig analysirter Gebirgsarten der Erde, mit specieller Rucksicht auf den Polycystinen-Mergel von Barbados. Abhandlungen der Königlische Akademie der Wissenschaften, zur Berlin. Jahrgang 1875, 1226.Google Scholar
Erwin, D. H. 1994. The Permo-Triassic extinction. Nature, 367:231236.Google Scholar
Feng, Q. L. 1992. Permian and Triassic radiolarian biostratigraphy in South and Southwest China. Journal of China University of Geosciences, 3(1):5162.Google Scholar
Feng, Q. L., Zhang, Z. F., and Ye, M. 2001. Middle Triassic radiolarian fauna from southwest Yunnan, China. Micropaleontology, 47:173204.Google Scholar
Feng, Q. L., Gu, S. Z., Jiang, M. L., and Jin, Y. X. 2004. Two new genera of Radiolaria from the Uppermost Permian of South China, Revue de Micropaleontologie, 47:135143.Google Scholar
Feng, Q. L., He, W. H., Gu, S. Z., Jin, Y. X., and Meng, Y. Y. 2006a. Latest Permian Spumellaria and Entactinaria (Radiolaria) from South China. Revue de Micropaleontologie, 49:2143.Google Scholar
Feng, Q. L., He, W. H., Zhang, S. X., and Gu, S. Z. 2006b. Taxonomy of order Latentifistularia (Radiolaria) from the Latest Permian in Southern Guangxi, China. Journal of Paleontology, 80:826848.Google Scholar
Feng, Q. L., Meng, Y. Y., He, W. H., and Gu, S. Z. 2006c. A new genus of Entactiniidae (Radiolaria) from the Upper Permian of South China. Eclogae Geologicae Helvetiae, 99:6778.Google Scholar
Feng, Q. L., He, W. H., Gu, S. Z., Meng, Y. Y., Jin, Y. X., and Zhang, F. 2007a. Radiolarian evolution during the latest Permian in South China. Global and Planetary Change, 55:177192.Google Scholar
Feng, Q. L., Gu, S. Z., He, W. H., and Jin, Y. X. 2007b. Latest Permian Entactinaria (Radiolaria) from southern Guangxi, China. Journal Micropalaeontology, 26:1937.Google Scholar
Feng, Q. L., Ye, M., and Crasquin, S. 2009. Latest Permian Palaeolithocycliidae (Radiolaria) from South China. Revue de Micropaleontology, 52:141148.Google Scholar
He, W. H., Shen, S. Z., Feng, Q. L., and Gu, S. Z. 2005. A late Changhsingian (Late Permian) deepwater brachiopod fauna from the Talung Formation at the Dongpan Section, southern Guangxi, South China. Journal Paleontology, 2005, 79(05):927938.Google Scholar
Holdsworth, B. K. 1966. Radiolaria from the Namurian of Derbyshire. Paleontology, 9:319329.Google Scholar
Holdsworth, B. K. 1977. Paleozoic Radiolaria: Stratigraphic distribution in Atlantic Borderlands, p. 167184. In Swain, F. M. (ed.), Stratigraphic Micropaleontology of Atlantic Basin and Borderlands. Elsevier, Amsterdam.Google Scholar
Ishiga, H. 1990. Paleozoic radiolarians, p. 285295. In Ichikawa, K. et al. (eds.), Pre-Cretaceous Terranes of Japan. Nippon Insatsu Shuppan Co. Ltd., Osaka.Google Scholar
Ishiga, H. 1991. Description of a new Follicucullus species from southwest Japan. Memoirs of the Faculty of Science, Shimane University, 25:107118.Google Scholar
Ishiga, H., Kito, T., and Imoto, N. 1982. Late Permian radiolarian assemblages in the Tamba district and an adjacent area, Southwest Japan. Earth Science (Chikyu Kagaku), 36(1):1022.Google Scholar
Jin, Y. X., Feng, Q. L., Meng, Y. Y., He, W. H., and Gu, S. Z. 2007. Albaillellidae (Radiolaria) from the latest Permian in Southern Guangxi, China. Journal of Paleontology, 81:918.Google Scholar
Kozur, H. 1998. Some aspects of the Permian-Triassic boundary and of the possible causes for the biotic crisis around this boundary. Palaeogeography, Palaeoclimatology, Palaeoecology, 143:227272.Google Scholar
Kozur, H. and Mostler, H. 1982. Entactinana suborder nov., a new radiolarian suborder. Geologisch-Paläontologische Mitteilungen, Innsbruck, 11:399414.Google Scholar
Kozur, H. and Mostler, H. 1989. Radiolarien und Schwammskleren aus dem Unterperm des Vorurals. Geologisch-Paläontologische Mitteilungen Innsbruck, Sonderband 2:147275.Google Scholar
Kuwahara, K. 1997. Evolutionary patterns of Late Permian Albaillella (Radiolaria) as seen bedded chert sections in the Mino Belt, Japan. Marine Micropaleontology, 30:6578.CrossRefGoogle Scholar
Kuwahara, K. 1999. Phylogenetic lineage of Late Permian Albaillella (Albaillellaria, Radiolaria). Journal of Geosciences, Osaka City University, 42(6):85101.Google Scholar
Kuwahara, K. and Yao, A. 1998. Diversity of Late Permian radiolarian assemblages. News of Osaka Micropaleontologists, Special Volume, 11:3346. (In Japanese)Google Scholar
Kuwahara, K., Yao, A., and An, T. X. 1997. Paleozoic and Mesozoic Complexes in the Yunnan area, China (Part 1): Preliminary report of Middle-Late Permian radiolarian assemblages. Journal of Geosciences, Osaka City University, 40(3):3749.Google Scholar
Mitsumura, K. and Kamata, Y. 2009. Radiolarian faunal change across the Guadalupian-Lopingian boundary in the Sasayama section of the Tanba Belt, Southwest Japan. News of Osaka Micropaleontologists, Special Volume, 14:545559. (In Japanese)Google Scholar
Nazarov, B. B. 1975. Lower and Middle Paleozoic radiolarians of Kazakhstan (methods of investigation, systematics and stratigraphic significance). In Raaben, M. E. (ed.), Transactions of the Academy of Sciences of the USSR, Geological Institute. Izdatelstvo Nauka, Moscow, USSR, 203 p.Google Scholar
Nazarov, B. B. and Ormiston, A. R. 1985. Radiolaria from the Late Paleozoic of the Southern Urals, USSR and West Texas, USA. Micropaleontology, 31:154.Google Scholar
Ormiston, A. R. and Lane, H. R. 1976. A unique radiolarian fauna from the Sycamore Limestone (Mississippian) and its biostratigraphic significance. Palaeontographica, Abt. A, 154:158180.Google Scholar
Sashida, K. 1983. Lower Triassic Radiolaria from the Kanto Mountains, central Japan. Part 1: Palaeoscenidiidae. Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 131:168176.Google Scholar
Sashida, K., Sardsud, A., Igo, H., Nakornsri, N., Adachi, S., and Ueno, K. 1998. Occurrence of Dienerian (Lower Triassic) radiolarians from the Phatthalung area of peninsular Thailand and radiolarian biostratigraphy around the Permian/Triassic boundary. News of Osaka Micropaleontologists, Special Volume, 11:5970. (In Japanese)Google Scholar
Sashida, K., Salyapongse, S., and Nakornsri, N. 2000. Latest Permian radiolarian fauna from Klaeng, Eastern Thailand. Micropaleontology, 46:245263.Google Scholar
Sashida, K. and Tonishi, K. 1988. Additional note on upper Permian radiolarian fauna from Itsukaichi, western part of Tokyo prefecure, Central Japan. Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 151:523542.Google Scholar
Sepkoski, J. J. 1981. A factor analytic description of the Phanerozoic marine fossil record. Paleobiology, 7:3653.CrossRefGoogle Scholar
Sugiyama, K. 1997. Triassic and Lower Jurassic radiolarian biostratigraphy in the siliceous claystone and bedded chert units of the southeastern Mino Terrene, central Japan. Bulletin of the Mizunami Fossil Museum, 24:79193.Google Scholar
Sun, D. Y. and Xia, W. C. 2006. Identification of the Guadalupian-Lopingian boundary in the Permian in a bedded chert sequence, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 236:272289.Google Scholar
Takemura, A. and Nakaseko, K. 1981. A new Permian radiolarian genus from the Tamba belt, southwest Japan. Transactions and Proceedings of the Palaeontological Society of Japan, New Series, 124:208214.Google Scholar
Takemura, A. and Aono, R. 2007. Systematic description of some radiolarians from Induan cherts in the ARH and ARF sections of the Oruatemanu Formation, Arrow Rocks, New Zealand. GNS Science Monograph, (24):197205.Google Scholar
Takemura, A., Sakai, M., Sakamoto, S., Aono, R., Takemura, S., and Yamakita, S. 2007. Earliest Triassic radiolarians from the ARH and ARF sections on Arrow Rocks, Waipapa Terrane, Northland, New Zealand. GNS Science Monograph, (24):97107.Google Scholar
Vishnevskaya, V. 1997. Development of Palaeozoic-Mesozoic Radiolaria in the Northwestern Pacific Rim. Marine Micropaleontology, 30:7995.Google Scholar
Wang, Y. J., Yang, Q., Cheng, Y. N., and Li, J. X. 2006. Lopingian (Upper Permian) radiolarian biostratigraphy of South China. Palaeoworld, 15:3153.CrossRefGoogle Scholar
Wu, J. and Feng, Q. L. 2008. Late Changhsingian radiolarian biostratigraphy from Guangxi, South China and its correlation to conodonts. Science in China, Series D: Earth Sciences, 51:16011610.Google Scholar
Xia, W. C., Zhang, N., Wang, G. Q., and Kakuwa, Y. 2004. Pelagic radiolarian and conodont biozonation in the Permo-Triassic boundary interval and correlation to the Meishan GSSP. Micropaleontology, 50:2744.Google Scholar
Yao, A. and Kuwahara, K. 1997. Radiolarian faunal change from Late Permian to Middle Triassic times. News of Osaka Micropaleontologists, Special Volume, 10:8796. (In Japanese)Google Scholar
Yao, A. and Kuwahara, K. 2000. Permian and Triassic radiolarians from the southern Guizhou Province, China. Journal of Geosciences, Osaka City University, 43(1):119.Google Scholar
Yeh, K. Y. 1987. Taxonomic studies of Lower Jurassic Radiolaria from east-central Oregon. National Museum of Natural Science, Special Publication, 2:1169.Google Scholar