Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-05T15:39:09.773Z Has data issue: false hasContentIssue false
  • English
  • Français

Microfossils and Precambrian–Cambrian boundary stratigraphy at Maldeota, Lesser Himalaya

Published online by Cambridge University Press:  01 May 2009

M. D. Brasier  and
P. Singh
M. D. Brasier
Affiliation:
Geology Department, University of Hull, Cottingham Road, Hull HU6 7RX, U.K.
P. Singh
Affiliation:
Palaeontology Laboratory, Keshava Deva Malaviya Institute of Petroleum Exploration, Oil and Natural Gas Commission, Kaulagarh Road, Dehra Dun 248195, Uttar Pradesh, India
Get access Rights & Permissions [Opens in a new window]

Abstract

An assemblage of problematical microfossils of Precambrian–Cambrian boundary age is redescribed from the Chert–Phosphorite Member, at the base of the Lower Tal Formation of Maldeota in the Lesser Himalaya of India. This assemblage has previously been ascribed to various ages, from Precambrian to Cretaceous, but is held by us to contain: Maldeotaia bandalica, Protohertzina anabarica group, trumpet-shaped elements, acicular elements A & B, ?Conotheca sp., Ovalitheca cf. multicostata, allathecid sp. A, Barbitositheca ansata, Hexangulaconularia cf. formosa, Coleoloides aff. typicalis, Hyolithellus aff. insolitus, H. cf. isiticus, H. vladimirovae, Spirellus shankari and Olivooides multisulcatus. These compare closely with assemblages found above the base of the first, Anabarites trisulcatus–Protohertzina anabarica Zone in China and in the second, Pseudorthotheca costata Zone of southern Kazakhstan. The stratigraphic setting of the Krol–Tal succession is reviewed and several similarities are noted between the Precambrian–Cambrian boundary successions of Lesser Himalaya in India and of Yunnan and Sichuan in Southwest China, indicating that correlation between them is possible at several levels.

Type
Articles
Information
Geological Magazine , Volume 124 , Issue 4 , July 1987 , pp. 323 - 345
Copyright
Copyright © Cambridge University Press 1987

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

Ahluwalia, A. D. & Gupta, V. J. 1984. Tal Phosphorite–viewed unhurriedly at a stratigraphic crossroad. Bulletin of the Indian Geological Association 17, 2938.Google Scholar
Azmi, R. J. 1983. Microfauna and age of the Lower Tal Phosphorite of Mussoorie Syncline, Garwhal Lesser Himalaya, India. Himalayan Geology 11, 373409.Google Scholar
Azmi, R. J. 1985. Skepticism and discrepancies in Krol–Tal: A Synthesis. Bulletin of the Indian Geological Association, Chandigarh 18, 2941.Google Scholar
Azmi, R. J. & Joshi, M. N. 1983. Conodont and other biostratigraphic evidences on the age and evolution of the Krol Belt. Himalayan Geology 11, 198223.Google Scholar
Azmi, R. J., Joshi, M. N. & Juyal, K. P. 1981. Discovery of the Cambro-Ordovician conodonts from the Mussoorie Tal Phosphorite: its significance in correlation of the Lesser Himalaya. Contemporary Geoscientific Researches in Himalaya 1, 245–50.Google Scholar
Azmi, R. J. & Pancholi, V. P. 1983. Early Cambrian (Tommotian) conodonts and other shelly microfauna from the Upper Krol of Mussoorie Syncline, Garwhal Lesser Himalaya, with remarks on the Precambrian–Cambrian boundary. Himalayan Geology 11, 360–72.Google Scholar
Banerjee, D. M. 1986. Proterozoic and Cambrian phosphorites – Regional review: Indian subcontinent. In Proterozoic and Cambrian Phosphorites (eds. Cook, P., Shergold, J. H.), Chapter 6, pp. 7090. Cambridge University Press.Google Scholar
Bengtson, S. 1983. The early history of the Conodonta. Fossils and Strata 15, 519.CrossRefGoogle Scholar
Bengtson, S. & Fletcher, T. P. 1983. The oldest sequence of skeletal fossils in the Lower Cambrian of southeastern Newfoundland. Canadian Journal of Earth Sciences 20, 525–36.CrossRefGoogle Scholar
Bhatt, D. K., Mamgain, V. D. & Misra, R. S. 1985. Small shelly fossils of early Cambrian (Tommotian) age from Chert–Phosphorite Member, Tal Formation, Mussoorie Syncline, Lesser Himalaya, India and their chrono-stratigraphic evaluation. Journal of the Palaeontological Society of India 30, 92102.Google Scholar
Bhatt, D. K., Mamgain, V. D., Misra, R. S. & Srivastava, J. P. 1983. Shelly microfossils of Tommotian age (Lower Cambrian) from the Chert-Phosphorite Member of Lower Tal Formation, Maldeota, Dehra Dun District, Uttar Pradesh. Geophytology 13, 116–23.Google Scholar
Billings, E. 1872. On some new species of Palaeozoic fossils. Canadian Naturalist, Ottawa (New Series) 6, 213–22, 240.Google Scholar
Brasier, M. D. 1984. Microfossils and small shelly fossils from the Lower Cambrian Hyolithes Limestone at Nuneaton, English Midlands. Geological Magazine 121, 229–53.CrossRefGoogle Scholar
Brasier, M. D. 1986. The succession of small shelly fossils (especially conoidal microfossils) from English Precambrian–Cambrian boundary beds. Geological Magazine 123, 237–56.CrossRefGoogle Scholar
Clark, D. L., Sweet, W. C., Bergstrom, S. M., Klapper, G., Austin, R. L., Rhodes, F. H. T., Muller, K. J., Ziegler, W., Lindstrom, N., Miller, J. F. & Harris, A. G. 1981. Part W, Supplement 2. Conodonta. In Treatise on Invertebrate Paleontology (ed. Robinson, R. A.), W1–W202. Geological Society of America and University of Kansas Press, Lawrence, Kansas.Google Scholar
Conway Morris, S. & Fritz, W. H. 1980. Shelly microfossils near the Precambrian–Cambrian boundary, Mackenzie Mountains, northwestern Canada. Nature 286, 381–4.CrossRefGoogle Scholar
Cowie, J. W. 1984. Introduction to papers on the Precambrian–Cambrian boundary. Geological Magazine 121, 137–8.CrossRefGoogle Scholar
Cowie, J. W. 1985. Continuing work on the Precambrian–Cambrian boundary. Episodes 8, 93–7.CrossRefGoogle Scholar
Cowie, J. W. & Rozanov, A. Yu. 1983. Precambrian–Cambrian boundary candidate, Aldan River, Yakutia, U.S.S.R. Geological Magazine 120, 129–39.CrossRefGoogle Scholar
DORÉ, F. & Reid, R. E. 1965. Allonnia tripodophora Nov. Gen., nov. sp., nouvelle eponge du Cambrien inferieur de Carteret (Manche). Comptes Rendus du Societe Geologique de France, 1965, 2021.Google Scholar
Gansser, A. 1974. The Himalayan Tethys. Rivista Italiana Di Paleontologia e Stratigraphia Memoria XIV, 393411.Google Scholar
Grigorieva, N. V. 1982. Incertae Sedis. In (The Precambrian/Cambrian Boundary in the Geosynclinal Areas The Reference Section of Salany-Gol, MPR) (ed. Voromin, Yu. I.). Transactions of the Joint Soviet–Mongolian Palaeontological Expedition, 18. Moscow: Nauka Izdatelstvo. (In Russian.)Google Scholar
He, Tinggui. 1983. (Description of fossils pars). In The Sinian–Cambrian Boundary of China (ed. Yusheng, Xing, others). Bulletin of the Institute of Geology, Chinese Academy of Geological Sciences, 10 (in Chinese).Google Scholar
HSÜ, K. J., OBERHÄNsli, H., Gao, J. Y., Sun, Shu, Chen, Haihong & Krahenbuhl, U. 1985. ‘Strangelove ocean’ before the Cambrian explosion. Nature 316, 809–11.CrossRefGoogle Scholar
Jiang, Zhiwen. 1980. (The Meishucun Stage and fauna of the Jinning County, Yunnan). Bulletin of the Chinese Academy of Geological Sciences, Series I, 2, 7592 (in Chinese).Google Scholar
Jiang, Zhiwen, 1982. (Small shelly fossils. In The Sinian–Cambrian Boundary of China, by Luo Huilin and others, q.v.) People's Publishing House, Beijing, China (in Chinese).Google Scholar
Khomentovsky, V. V. 1974. (Principles for defining the Vendian as a Palaeozoic System). Studies in Stratigraphy, Izdateldstvo Nauka, Moscow, 3370. (In Russian.)Google Scholar
Kumar, G., Raina, B. K., Bjatt, D. K. & Jangpangi, S. 1983. Lower Cambrian body- and trace-fossils from the Tal Formation, Garwhal Synform, Uttar Pradesh, India. Journal of the Palaeontological Society of India 28, 106–11.Google Scholar
Kumar, G., Bhatt, D. K. & Raina, B. K. 1987. Earliest skeletal fossils of Early Cambrian age (Tommotian to Atdabanian Stages) from Tal Formation, Garwhal Synform, Northwest Lesser Himalaya, India. Geological Magazine 124, 167–71.CrossRefGoogle Scholar
LIÑÁN, E. G. 1978. Bioestratigrafia de la Sierra de Cordoba. Tesis Doctorales de la Universidad de Granada. Published by: Departamento de Paleontologia, Faculted de Ciencias, Universidad de Granda.Google Scholar
Luo, Huilin, Jiang, Zhiwen, Wu, Xiche, Song, Xueliang & Ouyang, Lin 1982. (The Sinian–Cambrian Boundary in Eastern China). People's Publishing House, Beijing, China, 265 pp. (In Chinese.)Google Scholar
Luo, Huilin, Jiang, Zhiwen, Xu, Zhongjiu, Song, Xuiliang & Xue, Xiaofeng. 1980. (On the Sinian–Cambrian boundary of Meishucun and Wangjiawan, Jinning County, Yunnan). Acta Geological Sinica 2, 95–11. (In Chinese.)Google Scholar
Luo, Huilin, Jiang, Zhiwen, Wu, Xiche, Song, Xueliang, Ouyang, Lin, Xing, Yusheng, Liu, Guizhi, Zhang, Shishan & Tao, Yonghe. 1984. Sinian–Cambrian Boundary Stratotype Section at Meishucun, Jinning, Yunnan, China. People's Publishing House, Yunnan, China, 154 pp.Google Scholar
Margaritz, M., Holser, W. T. & Kirshvink, J. L. 1985. Carbon-isotope events across the Precambrian/Cambrian boundary on the Siberian Platform. Nature 320, 258–9.CrossRefGoogle Scholar
Matthews, S. C. & Missarzhevsky, V. V. 1975. Small shelly fossils of late Precambrian and early Cambrian age: a review of recent work. Journal of the Geological Society of London 131, 289304.CrossRefGoogle Scholar
Miller, J. F. 1969. Conodont fauna of the Notch Peak Limestone (Cambro-Ordovician), House Range, Utah. Journal of Paleontology 43, 413–39.Google Scholar
Missarzhevsky, V. V. 1966. In (Biostratigraphy and Faunas of the Lower Horizons of the Cambrian (ed. Rozanov, A. Yu., Missarzhesvky, V. V.)), pp. 5119. Trudy Geologicheskogo Instituta Akademii Nauka SSSR, Moscow, 148. (In Russian.)Google Scholar
Missarzhevsky, V. V. 1969. (Description of hyolithids, gastropods, hyolithelminths, camenides and forms of an obscure taxonomic position.) In The Tommotian Stage and the Cambrian Lower Boundary Problem (Rozanov, A. Yu. and others). Trudy Geologecheskii Institute, Nauka, Moscow 206. (In Russian; English translation, U.S. Department of the Interior, 1981).Google Scholar
Missarzhevsky, V. V. 1973. (Conodont-shaped organisms from the Precambrian and Cambrian boundary strata of the Siberian Platform and Kazakhstan). In (Palaeontological and Biostratigraphical Problems in the Lower Cambrian of Siberia and the Far East (ed. Zhuravleva, I. T.)), pp. 53–7, pls 9–10. Nauka Publishing House, Novosibirsk. (In Russian.)Google Scholar
Missarzhevsky, V. V. 1982. (Subdivision and correlation of the Precambrian–Cambrian boundary beds using some groups of the oldest skeletal organisms). Byulleten Moskovskogo Obschestva Ispytatelej Prirody, Otd. Geol., 57, 5, 5267. (In Russian).Google Scholar
Missarzhevsky, V. V. & Mambetov, A. J. 1981. (Stratigraphy and fauna of Cambrian and Precambrian boundary beds of Maly Karatau.) Trudy Akademii Nauka SSSR, Moscow 326. (In Russian.)Google Scholar
MÜLler, K. J. 1959. Kambrische Conodonten. Deutsche Geologische Gesellschaft. Zeitschrift 111, 434–85.CrossRefGoogle Scholar
Nowlan, G. S., Narbonne, G. M. & Fritz, W. H. 1985. Small shelly fossils and trace fossils near the Precambrian–Cambrian boundary in the Yukon Territory, Canada. Lethaia 18, 233–56.CrossRefGoogle Scholar
Patwardhan, A. M. 1978. First moravamminids from the Himalaya. National Academy of Sciences Letters, India, 1, 78.Google Scholar
Patwardhan, A. M. 1980. The Tal Problem In Stratigraphy and Correlation of Lesser Himalayan Formations (ed. Valdya, K. S.), pp. 307–11. Hindustan Publishers: Delhi.Google Scholar
Qian, Yi. 1977. (Hyolitha and some problematica from the Lower Cambrian Meishucun Stage in Central and SW China.) Acta Palaeontologica Sinica 16, 255–78. (In Chinese).Google Scholar
Qian, Yi, Chen, Meng-E & Chen, Yi-Yuan. 1979. (Hyolithids and other small shelly fossils from the Lower Cambrian Huangshangdong Formation in the eastern part of the Yangtze Gorge). Acta Palaeontologica Sinica, 207–32. (In Chinese.)Google Scholar
Qian, Yi, Yu, Wen, Liu, , Diyong, & Wang, Zongzhe. 1985. (Restudy of the Precambrian–Cambrian boundary section at Meishucun of Jinning, Yunnan). Kexue Tongbao 30, 1086–90. (In Chinese.)Google Scholar
Rai, V & Singh, I. B. 1983. Discovery of trilobite impressions in the Arenaceous Member of Tal Formation, Mussoorie area, India. Journal of the Palaeontological Society of India 28, 114–7.Google Scholar
Riding, R. & Voronova, L. 1984. Assemblages of calcareous algae near the Precambrian/Cambrian boundary in Siberia and Mongolia. Geological Magazine 121, 205–10.CrossRefGoogle Scholar
Rozanov, A. Yu., Missarzhevsky, V. V., Voronova, L. G., Volkova, N. A., Krylov, J. N., Keller, B. M., Lendzion, K., Michyak, R., Korylyuk, J. K., Pychova, N. G. & Sidorov, A. D. 1969. (The Tommotian Stage and the Cambrian Lower Boundary Problem). Trudy Geologecheskii Institut, Nauka, Moscow, 206. (In Russian; English translation, U.S. Department of the Interior, 1981).Google Scholar
Rozanov, A. Yu. & Sokolov, B. S. (eds). 1984. (Lower Cambrian Stage Subdivision. Stratigraphy). Akademii Nauk SSSR: Iztdatelstvo ‘Nauka’, Moscow, 182 pp. (In Russian.)Google Scholar
Singh, I. B. 1983. A note on the nature of the stromatolites of Krol sediments, Nainital, Kumaun Himalaya, with special reference to Conophyton. Geophytology 13, 111–15.Google Scholar
Singh, I. B., Rai, V. 1983. Fauna and biogenic structures in Krol–Tal succession (Vendian–Early Cambrian), Lesser Himalaya: their biostratigraphic and palaeoecological significance. Journal of the Palaeontological Society of India 28, 6790.Google Scholar
Singh, I. B., Shukla, V., Rai, V. & Kapoor, P. K. 1984. Ichnogenus Skolithos in the Tal Formation of Mussoorie area. Journal of the Geological Society of India 25, 102–7.Google Scholar
Singh, P. 1980. Microfauna, age, palaeoenvironment and palaeobiogeography of the Tal Formation, Lesser Himalaya, Garwhal, Uttar Pradesh, India. Current Science, India 49, 255–61.Google Scholar
Singh, P. & Shukla, D. S. 1981. Fossils from the Lower Tal: their age and its bearing on the stratigraphy of Lesser Himalaya. Geoscience Journal 11, 157–76.Google Scholar
Sokolov, B. S. & Zhuravleva, I. T. (eds). 1983. (Lower Cambrian Stage Subdivision of Siberia. Atlas of Fossils). Transactions of the Institute of Geology and Geophysics, 558. Akademii Nauk SSSR: Izdatelstvo ‘Nauka’, Moscow, 214 pp. (In Russian.)Google Scholar
Song, Xueliang. 1984. Obruchevella from the early Cambrian Meishucun Stage of the Meishucun section, Jinning, Yunnan, China. Geological Magazine 121, 179–83.Google Scholar
Syssoiev, V. A. 1968. (Hyolithids from the Cambrian of the north slope of the Aldan Shield.) Izd-vo Akademii Nauk SSSR, Moscow. (In Russian.)Google Scholar
Tewari, V. C. 1984. Discovery of Lower Cambrian stromatolites from Mussoorie Tal Phosphorites, India. Current Science 53, 319–21.Google Scholar
Tripathi, G., Jangpangi, B. S., Bhatt, D. K., Kumar, G, & Raina, B. K. 1984. Early Cambrian brachiopods from ‘Upper Tal’, Mussoorie Syncline, Dehradun District, Uttar Pradesh, India. Geophytology 14, 221–7.Google Scholar
Voronin, Y. I., Voronova, L. G., Grigorieva, N. V., Drosdova, N. A., Shegallo, E. A., Zhuravlev, A. Yu., Ragozina, A. L., Rozanov, A. Yu., Sayutina, T. A., Syssoiev, V. A. & Fonin, V. D. 1982. (The Precambrian/Cambrian Boundary in the Geosynclinal areas The Reference Section of Salany-Gol, MPR). Transactions of the Joint Soviet-Mongolian Palaeontological Expedition, 18. Moscow: Nauka Izdatelstvo, 150 pp. (In Russian.)Google Scholar
Walcott, C. D. 1889. Descriptive notes on new genera and species from the Lower Cambrian or Olenellus Zone of North America. Proceedings of the U.S. National Museum 12, 3346.CrossRefGoogle Scholar
Xiang, Liwen, Li, Shanji, Nan, Runshan, Guo, Shenming, Yang, Jialu, Zhou, Guoqiang, An, Taixiang, Yuan, Kexing, Zhang, Sengui & Qian, Yi. 1981. (Stratigraphy of China. No. 4. The Cambrian System of China). Geological Publishing House, Beijing, 198 pp. (In Chinese.)Google Scholar
Xing, Yusheng, Ding, Qixiu, Luo, Huilin, He, Tinggui & Wang, Yangeng. 1983. (The Sinian-Cambrian boundary of China). Bulletin of the Institute of Geology, Chinese Academy of Geological Sciences, 10. (In Chinese.)Google Scholar
Xing, Yusheng, Ding, Qixiu, Luo, Huilin, He, Tinggui & Wang, Yangeng. 1984. The Sinian-Cambrian boundary of China and its related problems. Geological Magazine 121, 155–70.Google Scholar
Xing, Yusheng & Luo, Huilin. 1984. Precambrian–Cambrian boundary candidate. Meishucun, Jinning, Yunnan, China. Geological Magazine 121, 143–54.Google Scholar
Xu, Dao-Yi, Zhang, Qin-Wen, Sun, Yi-Ying & Yan, Zheng. 1985. Three main mass extinctions – significant indicators of major natural divisions of geological history in the Phanerozoic. Modern Geology 9, 111.Google Scholar
Yang, Xianhe & He, Tinggui. 1984. (New small shelly fossils from Lower Cambrian Meishucun Stage of Nanjiang area, northern Sichuan). Professional Papers of Stratigraphy and Palaeontology, Geological Publishing House, Beijing no. 13, 3547. (In Chinese.)Google Scholar
Yang, Xianhe, He, Yuanxiang & Deng, Shouhe. 1983. (On the Sinian–Cambrian boundary and the small shelly fossil assemblages in Nanjiang area, Sichuan). Bulletin of the Chengdu Institute of Geology and Mining Research, Chinese Academy of Geological Sciences 4, 91105. (In Chinese.)Google Scholar
Zhuravleva, I. T. 1975. (Description of the palaeontological characteristics of the Nemakit–Daldyn Horizon and its possible equivalents in the territory of the Siberian Platform.) In (Equivalents of the Vendian Complex in Siberia) (ed. Sokolov, B. S., Khomentovsky, V. V.), pp. 62100. Trudy Instituta Geologii i Geofisiki, Akademii Nauk, SSSR, Moscow 232. (In Russian.)Google Scholar