Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-19T12:32:17.281Z Has data issue: false hasContentIssue false
  • English
  • Français

Was there a Cambrian ocean in South China? – Insight from detrital provenance analyses

Published online by Cambridge University Press:  18 July 2014

WEI-HUA YAO ,
ZHENG-XIANG LI  and
WU-XIAN LI
WEI-HUA YAO*
Affiliation:
ARC Centre of Excellence for Core to Crust Fluid Systems (CCFS) and The Institute for Geoscience Research (TIGeR), Department of Applied Geology, Curtin University, Perth, WA 6845, Australia
ZHENG-XIANG LI
Affiliation:
ARC Centre of Excellence for Core to Crust Fluid Systems (CCFS) and The Institute for Geoscience Research (TIGeR), Department of Applied Geology, Curtin University, Perth, WA 6845, Australia
WU-XIAN LI
Affiliation:
Key Laboratory of Isotope Geochronology and Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, China
*
Author for correspondence: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

We use detrital provenance data from Cambrian sandstones to examine whether the Yangtze and Cathaysia blocks in South China were separated by an ocean during the Cambrian period. Zircons from the Cambrian sandstones exhibit a dominant ~ 800 Ma age peak in the central Yangtze Block, being sourced from the western Yangtze Block, whereas a ~ 980 Ma peak dominates in the northwestern Cathaysia Block, being sourced from an exotic continent once connected to Cathaysia. A mixed provenance with both age peaks is found in Cambrian sandstones from the southeastern Yangtze Block, indicating that detritus can travel from the Cathaysia Block to the Yangtze Block, and therefore arguing against the existence of a broad Cambrian ocean.

Keywords

South ChinaCambrian oceandetrital provenanceU–Pb geochronology
Type
Rapid Communication
Information
Geological Magazine , Volume 152 , Issue 1 , January 2015 , pp. 184 - 191
Copyright
Copyright © Cambridge University Press 2014 

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

BGMRGD (Bureau of Geology and Mineral Resources of Guangdong Province) . 1988. Regional Geology of the Guangdong Province. Beijing: Geological Publishing House, 971 pp. (in Chinese with English abstract).Google Scholar
BGMRHN (Bureau of Geology and Mineral Resources of Hunan Province) . 1988. Regional Geology of the Hunan Province. Beijing: Geological Publishing House, 719 pp. (in Chinese with English abstract).Google Scholar
BGMRJX (Bureau of Geology and Mineral Resources of Jiangxi Province) . 1984. Regional Geology of the Jiangxi Province. Beijing: Geological Publishing House, 921 pp. (in Chinese with English abstract).Google Scholar
Charvet, J., Shu, L., Faure, M., Choulet, F., Wang, B., Lu, H. & Le Breton, N. 2010. Structural development of the Lower Paleozoic belt of South China: genesis of an intracontinental orogen. Journal of Asian Earth Sciences 39, 309–30.CrossRefGoogle Scholar
Charvet, J., Shu, L., Shi, Y., Guo, L. & Faure, M. 1996. The building of south China: collision of Yangzi and Cathaysia blocks, problems and tentative answers. Journal of Southeast Asian Earth Sciences 13, 223–35.CrossRefGoogle Scholar
Chen, H., Hou, M., Xu, X. & Tian, J. 2006. Tectonic evolution and sequence stratigraphic framework in South China during the Caledonian. Journal of Chengdu University of Technology 33, 18 (in Chinese with English abstract).Google Scholar
Chen, J. & Jahn, B. M. 1998. Crustal evolution of southeastern China: Nd and Sr isotopic evidence. Tectonophysics 284, 101–33.CrossRefGoogle Scholar
Chen, X., Rong, J., Rowley, D. E., Zhang, J., Zhang, Y. & Zhan, R. 1995. Is the early Paleozoic Banxi ocean in South China necessary? Geological Review 41, 389400.Google Scholar
Cottle, J. M., Jessup, M. J., Newell, D. L., Horstwood, M. S. A., Noble, S. R., Parrish, R. R., Waters, D. J. & Searle, M. P. 2009. Geochronology of granulitized eclogite from the Ama Drime Massif: implications for the tectonic evolution of the South Tibetan Himalaya. Tectonics 28, doi: 10.1029/2008TC002256.CrossRefGoogle Scholar
Faure, M., Shu, L., Wang, B., Charvet, J., Choulet, F. & Monie, P. 2009. Intracontinental subduction: a possible mechanism for the Early Palaeozoic Orogen of SE China. Terra Nova 21, 360–8.CrossRefGoogle Scholar
Hsu, K. J., Li, J., Chen, H., Wang, Q., Sun, S. & Sengor, A. M. C. 1990. Tectonics of South China: key to understanding West Pacific geology. Tectonophysics 183, 939.CrossRefGoogle Scholar
Hsu, K. J., Sun, S., Li, J., Chen, H., Pen, H. & Sengor, A. M. C. 1988. Mesozoic overthrust tectonics in South China. Geology 16, 418–21.2.3.CO;2>CrossRefGoogle Scholar
Huang, J., Ren, J., Jiang, C., Zhang, Z. & Qin, D. 1980. The Geotectonic Evolution of China. Beijing: Science Press, 124 pp.Google Scholar
Kolmogorov, A. N. 1933. Sulla determinazione empirica di una legge di distribuzione. Giornale dell’Istituto Italiano degli Attuari 4, 8391.Google Scholar
Li, Z. X. 1998. Tectonic history of the major East Asian lithospheric blocks since the mid-Proterozoic: a synthesis. In Mantle Dynamics and Plate Interactions in East Asia, Geodynamics Series vol. 27 (ed. Flower, M. F. J.), pp. 221–43. Washington, DC: American Geophysical Union.CrossRefGoogle Scholar
Li, Z. X., Bogdanova, S. V., Collisons, A. S., Davidson, A., De Waele, B., Ernst, R. E., Fitzsimons, I. C. W., Fuck, R. A., Gladkochub, D. P., Jacobs, J., Karlstrom, K. E., Lu, S., Natapov, L. M., Pease, V., Pisarevsky, S. A., Thrane, K. & Vernikosky, V. 2008. Assembly, configuration, and break-up history of Rodinia: a synthesis. Precambrian Research 160, 179210.CrossRefGoogle Scholar
Li, X. H., Li, Z. X., Ge, W. C., Zhou, H. W., Li, W. X., Liu, Y. & Wingate, M. T. D. 2003. Neoproterozoic granitoids in South China: crustal melting above a mantle plume at ca. 825 Ma? Precambrian Research 122, 4583.CrossRefGoogle Scholar
Li, Z. X., Li, X. H., Kinny, P. D., Wang, J., Zhang, S. & Zhou, H. 2003. Geochronology of Neoproterozoic syn-rift magmatism in the Yangtze Craton, South China and correlations with other continents: evidence for a mantle superplume that broke up Rodinia. Precambrian Research 122, 85109.CrossRefGoogle Scholar
Li, X. H., Li, W. X., Li, Z. X., Lo, C. H., Wang, J., Ye, M. F. & Yang, Y. H. 2009. Amalgamation between the Yangtze and Cathaysia blocks in South China: constraints from SHRIMP U–Pb zircon ages, geochemistry and Nd–Hf isotopes of the Shuangxiwu volcanic rocks. Precambrian Research 174, 117–28.CrossRefGoogle Scholar
Li, Z. X., Li, X. H., Wartho, J. A., Clark, C., Li, W. X., Zhang, C. L. & Bao, C. M. 2010. Magmatic and metamorphic events during the early Paleozoic Wuyi–Yunkai orogeny, southeastern South China: new age constraints and pressure–temperature conditions. Geological Society of America Bulletin 122, 772–93.CrossRefGoogle Scholar
Li, X., Li, Z., Zhou, H., Liu, Y., Liang, X. & Li, W. 2003. SHRIMP U-Pb zircon age, geochemistry and Nd isotope of the Guandaoshan pluton in SW Sichuan: petrogenesis and tectonic significance. Science in China (Series D) 46, 7383.Google Scholar
Li, X. H. & McCulloch, M. T. 1996. Secular variation in the Nd isotopic composition of Neoproterozoic sediments from the southern margin of the Yangtze Block: evidence for a Proterozoic continental collision in southeast China. Precambrian Research 76, 6776.CrossRefGoogle Scholar
Li, Z. X. & Powell, C. M. 2001. An outline of the palaeogeographic evolution of the Australasian region since the beginning of the Neoproterozoic. Earth-Science Reviews 53, 237–77.CrossRefGoogle Scholar
Li, Z. X., Zhang, L. H. & Powell, C. M. 1995. South China in Rodinia: part of the missing link between Australia–East Antarctica and Laurentia? Geology 23, 407–10.2.3.CO;2>CrossRefGoogle Scholar
Li, X. H., Zhou, G., Zhao, J., Fanning, C. M. & Compston, W. 1994. SHRIMP ion microprobe zircon U–Pb age of the NE Jiangxi ophiolite and its tectonic implications. Geochimica 23, 125–31.Google Scholar
Liu, Y., Siebel, W., Massonne, H. & Xiao, X. 2007. Geochronological and petrological constraints for tectonic evolution of the central Greater Himalayan sequence in the Kharta area, southern Tibet. Journal of Geology 115, 215–30.CrossRefGoogle Scholar
Liu, B. & Xu, X. 1994. Atlas of Lithofacies and Paleogeography of South China. Beijing: Science Press, 188 pp.Google Scholar
Ludwig, K. R. 2001 a. SQUID Version 1.02 – A Geochronological Toolkit for Microsoft Excel. Berkley Geochronological Centre, Special Publication no. 2.Google Scholar
Ludwig, K. R. 2001 b. ISOPLOT/EX Version 2.49 – A Geochronological Toolkit for Microsoft Excel. Berkley Geochronological Centre, Special Publication no. 1.Google Scholar
Myrow, P. M., Hughes, N. C., Goodge, J. W., Fanning, C. M., Williams, I. S., Peng, S. C., Bhargava, O. N., Parcha, S. K. & Pogue, K. R. 2010. Extraordinary transport and mixing of sediment across Himalayan central Gondwana during the Cambrian–Ordovician. Geological Society of America Bulletin 122, 1660–70.CrossRefGoogle Scholar
Ren, J. 1991. On the geotectonics of southern China. Acta Geologica Sinica 4, 111–30.Google Scholar
RGMRHN-a, 1975. Regional Geological Mapping and Report of Hunan Province – 1:200,000 Lingling Sheet. Beijing: Institute of Geoscience, Ministry of Geology (in Chinese with English abstract).Google Scholar
RGMRHN-b, 1972. Regional Geological Mapping and Report of Hunan Province – 1:200,000 Huitong Sheet. Beijing: Institute of Geoscience, Ministry of Geology (in Chinese with English abstract).Google Scholar
Shu, L. S., Jahn, B. M., Charvet, J., Santosh, M., Wang, B., Xu, X. S. & Jiang, S. Y. 2014. Early Paleozoic depositional environment and intraplate tectono-magmatism in the Cathaysia Block (South China): evidence from stratigraphic, structural, geochemical and geochronological investigations. American Journal of Science 314, 154–86.CrossRefGoogle Scholar
Shui, T. 1988. Tectonic framework of the southeastern China continental basement. Scientia Sinica (Series B) 31, 885–96.Google Scholar
Slama, J., Kosler, J., Condon, D. J., Crowley, J. L., Gerdes, A., Hanchar, J. M., Horstwood, M. S. A., Morris, G. A., Nasdala, L., Norberg, N., Schaltegger, U., Schoene, B., Tubrett, M. N. & Whitehourse, M. J. 2008. Plesovice zircon – a new natural reference material for U–Pb and Hf isotopic microanalysis. Chemical Geology 249, 135.CrossRefGoogle Scholar
Smirnov, N. V. 1944. Approximate laws of distribution of random variables from empirical data. Uspekhi Matematicheskikh Nauk 10, 179206 (in Russian).Google Scholar
Stern, R. A. 2001. A new isotopic and trace-element standard for the ion microprobe: preliminary thermal ionization mass spectrometry (TIMS) U–Pb and electron-microprobe data. Radiogenic Age and Isotopic Studies Report 14, Geological Survey of Canada, Current Research 2001-F1.CrossRefGoogle Scholar
Wang, J. & Li, Z. X. 2003. History of Neoproterozoic rift basins in South China: implications for Rodinia break-up. Precambrian Research 122, 141–58.CrossRefGoogle Scholar
Wang, Y., Zhang, F., Fan, W., Zhang, G., Chen, S., Cawood, P. A. & Zhang, A. 2010. Tectonic setting of the South China Block in the early Paleozoic: resolving intracontinental and ocean closure models from detrital zircon U–Pb geochronology. Tectonics 29, doi: 10.1029/2010TC002750.CrossRefGoogle Scholar
Wang, Y., Zhang, A., Fan, W., Zhao, G., Zhang, G., Zhang, Y., Zhang, F. & Li, S. 2011. Kwangsian crustal anatexis within the eastern South China Block: geochemical, zircon U–Pb geochronological and Hf isotopic fingerprints from the gneissoid granites of Wugong and Wuyi–Yunkai Domains. Lithos 127, 239–60.CrossRefGoogle Scholar
Williams, I. S. 1998. U–Th–Pb geochronology by ion microprobe. In Applications of Microanalytical Techniques to Understanding Mineralizing Processes, Reviews in Economic Geology vol. 7 (eds McKibben, M. A., Shanks, III, W. C. & Ridley, W. I.), pp. 135. Littleton, CO: Society of Economic Geologists.Google Scholar
Xu, B. & Qiao, G. S. 1989. Sm–Nd isotopic age and tectonic setting of the Late Proterozoic ophiolites in northeastern Jiangxi province. Journal of Nanjing University (Science and Technology) 3, 108–14.Google Scholar
Xu, X., Xu, Q. & Pan, G. 1996. The Continental Evolution of Southern China and its Global Comparison. Beijing: Geological Publishing House, 161 pp.Google Scholar
Yang, Z., Cheng, Y. Q. & Wang, H. C. 1986. The Geology of China. Oxford: Clarendon Press, 276 pp.Google Scholar
Yao, W. H., Li, Z. X., Li, W. X., Li, X. H. & Yang, J. H. 2014. From Rodinia to Gondwanaland: a tale of detrital zircon provenance analyses from the southern Nanhua Basin, South China. American Journal of Science 314, 278313.CrossRefGoogle Scholar
Zeng, W., Zhang, L., Zhou, H., Zhong, Z., Xiang, H., Liu, R., Jin, S., Lu, X. Q. & Li, C. Z. 2008. Caledonian reworking of Paleoproterozoic basement in the Cathaysia Block: constraints from zircon U–Pb dating, Hf isotopes and trace elements. Chinese Science Bulletin 53, 895904.CrossRefGoogle Scholar
Zhang, L. & He, Q. 1993. On the revision of Bacun Group and the establishment of Xiazhai, Oujiadong and Laoshuzhai Formations in northern Guangdong Province. Guangdong Geology 8, 114 (in Chinese with English abstract).Google Scholar
Zhao, G. & Cawood, P. A. 1999. Tectonothermal evolution of the Mayuan assemblage in the Cathaysia Block: implications for Neoproterozoic collision-related assembly of the South China Craton. American Journal of Science 299, 309–39.CrossRefGoogle Scholar
Zhou, G. 1989. The discovery and significance of the northeastern Jiangxi Province ophiolite (NEJXO), its metamorphic peridotite and associated high temperature–high pressure metamorphic rocks. Journal of Southeast Asian Earth Science 3, 237–47.Google Scholar
Zhou, X. M. 2003. My thinking about granite geneses of south China. Geological Journal of China Universities 9, 556–65 (in Chinese with English abstract).Google Scholar
Zhou, M. F., Ma, Y., Yan, D. P., Xia, X., Zhao, J. H. & Sun, M. 2006. The Yanbian Terrane (Southern Sichuan Province, SW China): a Neoproterozoic arc assemblage in the western margin of the Yangtze Block. Precambrian Research 144, 1938.CrossRefGoogle Scholar
Zhou, M. F., Yan, D. P., Kennedy, A. K., Li, Y. & Ding, J. 2002. SHRIMP U–Pb zircon geochronological and geochemical evidence for Neoproterozoic arc-magmatism along the western margin of the Yangtze Block, South China. Earth and Planetary Science Letters 196, 5167.CrossRefGoogle Scholar
Supplementary material: File

Yao Supplementary Material

Figures S1-S2 and Tables S1-S2

Download Yao Supplementary Material(File)
File 3.2 MB