PDF下载 分享
 ZUO Jing-xun,PENG Shan-chi,ZHU Xue-jian,et al.Carbon isotope trend around the base of the Drumian Stage in western Hunan, South China[J].Geochimica,2018,47(05):453-462.[doi:10.19700/j.0379-1726.2018.05.001]



[1] Babcock L E, Peng S C, Geyer G, Shergold J H. Changing perspective on Cambrian chronostratigraphy and progress toward subdivision of the Cambrian system [J]. Geosci J, 2005, 9: 101–106.
[2] Peng S C, Babcock L R, Zuo J X, Lin H L, Zhu X J, Yang X F, Robison R A, Qi Y P, Bagnoli G, Chen Y A. Proposed GSSP for the base of Cambrian Stage 7, coinciding with the first appearance of Lejopyge laevigata, Hunan, China [J]. Palae-oworld, 2006, 15: 367–383.
[3] Fan R, Deng S H, Zhang X L. Significant carbon isotope excursions in the Cambrian and their implications for global correlations [J]. Sci China Earth Sci, 2011, 54(11): 1686–1695.
[4] Gill B C, Lyons T W, Young S A, Kump L R, Knoll A H, Saltzman M R. Geochemical evidence for widespread euxinia in the Late Cambrian ocean [J]. Nature, 2011, 469: 80–83.
[5] Brasier M D. Evolutionary and geological events across Precambrian-Cambrian boundary [J]. Geol Today, 2010, 1: 141–146.
[6] Donnelly T H, Shergold J H, Southgate P N. Anomalous geochemical signals from phosphatic Middle Cambrian rocks in the southern Georgina Basin, Australia [J]. Sedimentology, 1988, 35: 549–570.
[7] Brasier M D, Magaritz M, Corfield R, Luo H L, Wu X C, Ouyang L, Jiang Z W, Hamdi B, He T G, Fraser A G. The carbon and oxygen isotope record of the Precambrian- Cam?brian boundary interval in China and Iran and their correla?tion [J]. Geol Mag, 1990, 127(4): 319–332.
[8] Brasier M D, Corfield R M, Derry L A, Rozanov A Y, Zhu-ravlev A Y. Multiple δ13C excursions spanning the Cambrian explosion to the Botomian crisis in Siberia [J]. Geology, 1994, 22: 455–458.
[9] Derry L A, Brasier M D, Corfield R M, Rozanov A Y, Zhu-ravlev A Y. Sr and C isotopes in Lower Cambrian carbo-nates from the Siberian craton: A paleoenvironmental record during the ‘Cambrian explosion’ [J]. Earth Planet Sci Lett, 1994, 128(3–4): 671–681.
[10] Shergold J H. Timescales 1. Cambrian. Australia Phanerozoic timescales, biostratigraphic charts and explanatory notes (2nd series) [J]. Aust Geol Surv Organ, Rec, 1995, 30: 1–32.
[11] Banerjee D M, Schidlowski M, Siebert F, Brasier M D. Geochemical changes across the Proterozoic-Cambrian transition in the Durmala phosphorite mine section, Mussoori Hills, Garhwal Himalaya, India [J]. Palaeogeogr Palaeoclimatol Palaeoecol, 1997, 132: 183–194.
[12] Brasier M D, Sukhov S S. The falling amplitude of carbon isotopic oscillations through the Lower to Middle Cambrian: Northern Siberia data [J]. Can J Earth Sci, 1998, 35(4): 353–373.
[13] Kouchisky A, Bengtson S, Missarzhevsk V V, Pelechaty S, Torssander P, Val’kov A. Carbon isotope stratigraphy and the problem of a pre-Tommotian Stage in Siberia [J]. Geol Mag, 2001, 138(4): 387–396.
[14] Maloof A C, Schrag D P, Crowley J L, Bowring S A. An expanded record of Early Cambrian carbon cycling from the Anti-Atlas Margin, Moroco [J]. Can J Earth Sci, 2005, 42: 2195–2216.
[15] Kouchinsky A, Bengtson S, Pavlov V, Runnegar B, Torssander P, Young E, Ziegler K. Carbon isotope stratigraphy of the Precambrian Cambrian Sukharikha River section, northwestern Siberian platform [J]. Geol Mag, 2007, 144: 609–618.
[16] Shen Y A, Schidlowski M. New C isotope stratigraphy from southwest China: Implications for the placement of the Precambrian-Cambrian boundary on the Yangtze Platform and global correlations [J]. Geology, 2000, 28(7): 623–626.
[17] Feng H Z, Ling H F, Jiang S Y, Yang J H. δ13Ccarb and Ceanom excursions in the post-glacial Neoproterozoic and Early Cambrian interval in Guizhou, South China [J]. Prog Nat Sci, 2004, 14(2): 188–192.
[18] Monta?ez I P, Osleger D A, Banner J L, Mack L E, Musgrove M. Evolution of the Sr and C isotope composition of Cam-brian oceans [J]. GSA Today, 2000, 10: 1–7.
[19] Yang R D, Zhu L J, Wang S J. Negative carbon isotopic excursion on the Lower/Middle Cambrian boundary of Kaili Formation, Taijiang County, Guizhou Province, China: Impli?cations for mass extinction and stratigraphic division and correlation [J]. Sci China (D), 2003, 46(9): 872–881.
[20] Zhu M Y, Zhang J M, Li G X, Yang A H. Evolution of C isotopes in the Cambrian of China: Implications for Cambrian subdivision and trilobite mass extinctions [J]. Geobios, 2004, 37(2): 287–301.
[21] Guo Q J, Strauss H, Liu C Q, Zhao Y L, Pi D H, Fu P Q, Zhu L J, Yang R D. Carbon and oxygen isotopic composition of Lower to Middle Cambrian sediments at Taijiang, Guizhou Province, China [J]. Geol Mag, 2005, 142(6): 723–733.
[22] Dilliard K A, Pope M C, Coniglio M, Hasiotis S T, Lieberman B S. Stable isotope geochemistry of the lower Cambrian Sekwi Formation, Northwest Territories, Canada: Implications for ocean chemistry and secular curve generation [J]. Palaeogeogr Palaeoclimatol Palaeoecol, 2007, 256: 174–194.
[23] Zhao Y L, Yan J L, Peng S C, Babcock L E, Peng J, Guo Q J, Lin J P, Tai T S, Yang R D, Wang Y X. A new section of Kaili Formation (Cambrian) and a biostratigraphic study of the boundary interval across the undefined Cambrian Series 2 and Series 3 at Jianshan, Jianhe County, China with a discussion of global correlation based on the first appearance datum of Oryctocephalus indicus (Reed, 1910) [J]. Prog Nat Sci, 2008, 18(12): 1549–1556.
[24] 左景勋, 彭善池, 朱学剑. 扬子地台寒武系碳酸盐岩的碳同位素组成及地质意义 [J]. 地球化学, 2008, 37(2): 118– 128.
Zuo Jing-xun, Peng Shan-chi, Zhu Xue-jian. Carbon isotope composition of Cambrian carbonate rocks in Yangtze Platform, South China and its geological implications [J]. Geochimica, 2008, 37(2): 118-128 (in Chinese with English abstract).
[25] Guo Q J, Strauss H, Liu C Q, Zhao Y L, Yang X L, Peng J, Yang H. A negative carbon isotope excursion defines the boundary from Cambrian Series 2 to Cambrian Series 3 on the Yangtze platform, South China [J]. Palaeogeogr Palaeoclimatol Palaeoecol, 2010, 285: 143–151.
[26] Wotte T, ?lvaro J J, Shields G A, Brown B, Brasier M D, Veizer J. C-, O- and Sr-isotope stratigraphy across the Lower- Middle Cambrian transition of the Cantabrian Zone (Spain) and the Montagne Noire (France), West Gondwana [J]. Palaeogeogr Palaeoclimatol Palaeoecol, 2007, 256: 47–70.
[27] Tucker M E. Carbon isotopes and Precambrian-Cambrian boundary geology, South Australia: Ocean basin formation, seawater chemistry and organic evolution [J]. Terra Nova, 1989, 1(6): 573–582.
[28] Saltzman M R, Runnegar B, Lohmann K C. Carbon isotope stratigraphy of Upper Cambrian (Steptoean Stage) sequences of the eastern Great Basin: Record of a global oceanographic event [J]. GSA Bull, 1998, 110(3): 285–297.
[29] Glumac B, Walker K R. A late Cambrian positive carbon isotope excursion in the Southern Appalachians: Relation to biostratigraphy, sequence stratigraphy, environments of deposition, and diagenesis [J]. J Sediment Res, 1998, 68(6): 1212–1222.
[30] Glumac B, Spivak-Birndorf M L. Stable isotopes of carbon as an invaluable stratigraphic tool: An example from the Cambrian of the northern Appalachians, USA [J]. Geology, 2002, 30(6): 563–566.
[31] 王大锐, 冯晓杰.渤海湾地区下古生界碳氧同位素地球化学研究[J]. 地质学报, 2002, 76(3): 400–408.
Wang Da-rui, Feng Xiao-jie. Research on carbon and oxygen geochemistry of the Lower Paleozoic in north China [J]. Acta Geol Sinica, 2002, 76(3): 400–408 (in Chinese with English abstract).
[32] 杜圣贤, 张瑞华, 张贵丽, 张俊波, 陈雪梅. 山东张夏-崮山地区华北寒武系标准剖面上寒武统研究新进展[J]. 山东国土资源, 2007, 23(10): 1–6.
Du Sheng-xian, Zhang Rui-hua, Zhang Gui-li, Zhang Jun-bo, Chen Xue-mei. New development of study on lower part of Cambrian in Cambrian standard profile in Zhangxia-Gushan area in Shandong province [J]. Shandong Nat Land Resour, 2007, 23(10): 1–6 (in Chinese with English abstract).
[33] 冯增昭, 彭勇民, 金振奎, 蒋盘良, 鲍志东, 罗璋, 鞠天吟, 田海芹, 汪红. 中国南方寒武纪岩相古地理[J]. 古地理学报, 2001, 3(1): 1–12.
Feng Zeng-zhao, Peng Yong-min, Jin Zhen-kui, Jiang Pan-liang, Bao Zhi-dong, Luo Zhang, Ju Tian-yin, Tian Hai-qin, Wang Hong. Lithofacies palaeogeography of the Cambrian in south China [J]. J Palaeogeogr, 2001, 3(1): 1–12 (in Chinese with English abstract).
[34] 冯增昭, 彭勇民, 金振奎, 鲍志东.中国中寒武世岩相古地理[J]. 古地理学报, 2002, 4(2): 1–11.
Feng Zeng-zhao, Peng Yong-min, Jin Zhen-kui, Bao Zhi-dong. Lithofacies paleogeography of the Middle Cambrian in south China [J]. J Palaeogeogr, 2002, 4(2): 1–11 (in Chinese with English abstract).
[35] 高振中, 段太忠. 湘西黔东寒武系深水碳酸盐岩重力沉积[J]. 沉积学报, 1985, 3(3): 7–20.
Gao Zhen-zhong, Duan Tai-zhong. Gravity displaced deposits of Cambrian deep-water carbonates in West Hunan and East Guizhou [J]. Acta Sedimentol Sinica, 1985, 3(3): 7–20 (in Chinese with English abstract).
[36] Peng S C, Babcock L E, Zuo J X, Lin H L, Zhu X J, Yang X F, Robison R A, Qi Y P, Bagnoli G, Chen Y A. The global boun-dary stratotype section and point (GSSP) of the Guzhangian Stage (Cambrian) in the Wuling mountains, northwestern Hunan, China [J]. Epithodes, 2009, 32(1): 41–55.
[37] Peng S C, Babcock L E, Robison R A, Lin H L, Rees M N, Saltzman M R. Global standard stratotype-section and point (GSSP) of the Furongian Series and Paibian Stage (Cambrian) [J]. Lethaia, 2004, 37: 365–379.
[38] Wang S F, Zou C N, Dong D Z, Wang Y M, Li X J, Huang J L, Guan Q Z. Multiple controls on the paleoenvironment of the Early Cambrian marine black shales in the Sichuan Basin, SW China: Geochemical and organic carbon isotopic evidence [J]. Mar Pet Geol, 2015, 66: 660–672.
[39] Zhang J P, Fan T L, Algeo T J, Li Y F, Zhang J C. Paleo-marine environments of the Early Cambrian Yangtze Platform [J]. Palaeogeogr Palaeoclimatol Palaeoecol, 2016, 443: 66–79.
[40] 左景勋, 彭善池, 周传明, 燕长海, 刘国印.湘西王村剖面寒武系花桥组浊积岩特征及其大地构造意义[J]. 沉积学报, 2006, 24(2): 35–44.
Zuo Jing-xun, Peng Shan-chi, Zhou Chuan-ming, Yan Chang- hai, Liu Guo-yin. Tectonic significance and sedimentary characteristics of turbidity successions within the Cambrian Huaqiao Formation at Wangcun section in the west Hunan, South China [J]. Acta Sedimentol Sinica, 2006, 24(2): 35–44 (in Chinese with English abstract).
[41] Peng S C, Babcock L E, Zhu M Y. Cambrian System of South China [M]. Hefei: Press of University of Science and Tech-nology of China, 2001: 1–310.
[42] Peng S C. Chronostratigraphic subdivision of the Cambrian of China [J]. Geol Acta, 2003, 1: 135–144.
[43] Peng S C, Zhu X J, Babcock L E, Wang H F. Potential Global Stratotype Sections and Points in China for defining Cambrian stages and series [J]. Geobios, 2004, 37: 253–258.
[44] Babcock L E, Rees M N, Robison R A, Langenburg E S, Peng S C. Potential Global Standard Stratotype-section and Point (GSSP) for a Cambrian stage boundary defined by the first appearance of the trilobite Ptychagnostus atavus, Drum Mountains, Utah, USA [J]. Geobios, 2004, 37: 149–158.
[45] Zuo J X, Peng S C, Qi Y P, Lin H L, Zhu X J, Yang X F. Evolution of carbon and oxygen isotopic composition in the potential boundary stratotype section at Luoyixi, South China, for the base of the global seventh stage of Cambrian system [J]. J China Univ Geosci, 2008, 19(1): 9–22.
[46] Babcock L E, Robison R A, Rees M N, Peng S C, Saltzman M R. The global boundary stratotype section and point of the Drumian Stage (Cambrian) in the Drum Mountains, Utah, USA [J]. Episodes, 2007, 30: 85–95.
[47] Peng S C, Babcock L E, Zuo J X, Lin H L, Chen Y A, Zhu X J, Yang X F, Li Y. Cambrian-Ordovician stratigraphy at Luoyixi and Wangcun, Hunan province, China: Stratotype for bases of the Wangcunian and Youshuian Stage, and candidate stratotype for the base of an unnamed global stage defined by the FAD of Legeopyge laevigata [M] //Peng S C, Babcock L E, Zhu M Y. Cambrian System of China and Korea. Hefei: Press of University of Science and Technology of China, 2005: 117–135.
[48] Zhu M Y, Babcock L E, Peng S C. Advance in Cambrian stratigraphy and paleontology: Integrating correlation techniques, paleobiology, taphonomy and paleoenvironmental recon?struction [J]. Palaeoworld, 2006, 15: 217–222.
[49] Howley R A, Jiang G Q. The Cambrian Drumian carbon isotope excursion (DICE) in the Great Basin, western United States [J]. Palaeogeogr Palaeoclimatol Palaeoecol, 2010, 296: 138–150.
[50] Brasier M D, Sukhov S S. The falling amplitude of carbon isotopic oscillations through the Lower to Middle Cambrian: Northern Siberian data [J]. Can J Earth Sci, 1998, 35: 353–373.
[51] 梅冥相, 马永生, 邓军, 张海, 孟晓庆, 陈永红, 聂瑞贞, 张从. 上扬子区下古生界地层格架的初步研究[J]. 现代地质, 2005, 19(4): 551–562.
Mei Ming-xiang, Ma Yong-sheng, Deng Jun, Zhang Hai, Meng Xiao-qing, Chen Yong-hong, Nie Rui-zhen, Zhang Cong. Sequence-stratigraphic framework for the Early Palaeozoic of the Upper-Yangtze Region [J]. Geoscience, 2005, 19(4): 551–562 (in Chinese with English abstract).


收稿日期(Received): 2017-02-14; 改回日期(Revised): 2017-12-19; 接受日期(Accepted): 2017-12-24
基金项目: 国家自然科学基金(41672028, 40672023, 41672002)
作者简介: 左景勋(1963–), 男, 教授级高级工程师, 从事基础地质研究及矿产勘查工作。
* 通讯作者(Corresponding author): ZUO Jing-xun, E-mail: jxzuo2013@sina.com; Tel: +86-371-60131617

更新日期/Last Update: 2018-09-30