Palaeogeography and palaeoecology of the Ediacaran(Sinian) macrofossil biota in South China
Tang Feng1,2, Gao Linzhi1,2, Wang Ziqiang3,
1 Institute of Geology, Chinese Academy of Geological Sciences, Beijing 100037 2 Key Laboratory of Stratigraphy and Paleontology,Chinese Academy of Geological Sciences,Beijing 100037 3 School of Earth Sciences and Resources, China University of Geosciences(Beijing), Beijing 100083
Abstract Ediacaran(635-542Ma)is the important geological period between the last global glaciation(Marinoan)and the Cambrian “explosion of life”. As a result of the tremendous changes of Neoproterozoic climate and environment, rapid evolution and diversity of many eukaryotic lives, including multicellular organisms arise to adapt significant radiation. The Sinian Doushantuo and Dengying Formations in South China and their coeval strata represent the deposition of this special geological time. The complete stratigraphic record,diverse depositional environments and abundant micro- and macrofossils make South China to be one of the ideal areas for further studies on the Ediacaran(Sinian)stratigraphic division and global correlation, and to explore the early origin and radiation of multicellular organisms of the areas of radiation. In particular, the more abundant macrofossils occurring in the Ediacaran(Sinian)strata in the Yangtze platform marginal facies, contain the more distinct assemblages with significant diversity. The recent researches indicate that the Sinian macrofossil assemblages in South China also include a couple of typical fossils of the Ediacaran Biota in Australia and the White Sea biota in Russian. We synthesize in this paper the previous researches in recent years on the Sinian lithofacies and Palaeogeography in South China; mainly displays some newly collections of the “Wenghui Biota” from Jiangkou, Guizhou and the “Jiangchuan Biota” from Jiangchuan, Yunnan; briefly describe the palaeogeographic locations and several Sinian macrofossil assemblages including “Miaohe Biota”. And hereby we conclude that a variety of Sinian macrofossil assemblages in South China were living and buried in the transitional/slope zone of carbonate rocks and clastic rocks at the margin of the Yangtze platform, the characteristics of each macrofossil assemblage were constrained by its sedimentary microfacies and went on changes regularly. The macrofossil records suggest that in this period, accompanied by significant climatic and environmental changes, a series of important evolution events took place, many macroalgae and metazoan generally appeared a diverse developments and laid an ecological foundation for the huge Cambrian radiation of early animal; and in the southern China, a brand new neritic ecosystem had been formed, the dominant planktonic and benthic eukaryotic algae were very prosperous to be the marine primary producers, especially the abundant multicellular macroscopic algae might be main plants of hydrocarbon generation in the transitional period of Precambrian-Cambrian.
About author: Tang Feng, born in 1965, graduated from Department of Earth Sciences, Nanjing University in 1987, obtained his Ph.D.degree from Chinese Academy of Geological Sciences in 1997. Now he is a professor researcher at the Institute of Geology, Chinese Academy of Geological Sciences, and is engaged in palaeontology and stratigraphy. E-mail: tangf65@263.net, tangfeng@cags.ac.cn.
Cite this article:
Tang Feng,Gao Linzhi,Wang Ziqiang. Palaeogeography and palaeoecology of the Ediacaran(Sinian) macrofossil biota in South China[J]. JOURNAL OF PALAEOGEOGRAPHY, 2009, 11(5): 524-533.
Tang Feng,Gao Linzhi,Wang Ziqiang. Palaeogeography and palaeoecology of the Ediacaran(Sinian) macrofossil biota in South China[J]. JOPC, 2009, 11(5): 524-533.
蔡勋育,韦宝东,赵培荣. 2005. 南方海相烃源岩特征分析[J]. 天然气工业,25(3):20-21. 陈孟莪,陈忆元,钱逸. 1982. 峡东区震旦系—寒武系底部的管状动物化石[J]. 中国地质科学院天津地质研究所所刊,(3):117-124. 陈明,万方,尹福光. 2001. 滇黔桂地区晚震旦世陡山沱期构造—层序岩相古地理[J]. 沉积与特提斯地质,21(1):11-26. 陈孝红,汪啸风. 2002. 湘西震旦纪武陵山生物群的化石形态学特征和归属[J]. 地质通报,21(10):638-645. 陈孝红,汪啸风,王传尚,等. 1999. 湘西震旦系留茶坡组炭质宏化石初步研究[J]. 华南地质与矿产,2:15-30. 崔攀峰,李健,胡海涛,等. 2000. 宏观藻类化石在沉积相研究中的意义[J]. 石油学报,21(5):36-38. 丁莲芳,李勇,胡夏嵩,等. 1992. 扬子地台北缘晚震旦世—早寒武世早期生物群研究[M]. 北京:科学技术文献出版社,1-188. 丁连芳,李勇,胡夏嵩,等. 1996. 震旦纪庙河生物群[M]. 北京:地质出版社,1-221. 丁启秀,陈忆元. 1981. 湖北峡东地区震旦纪软躯体后生动物化石的发现及其意义[J]. 地球科学——中国地质大学学报,16(2):26-31. 杜汝霖, 田立富. 1986. 燕山地区青白口纪宏观藻类[M]. 河北石家庄:河北科学技术出版社,1-114. 冯增昭. 2005. 从定量岩相古地理学谈华南地区海相地层油气勘探[J]. 古地理学报,7(1):1-11. 冯增昭,彭勇民,金振奎,等. 2001. 中国南方寒武纪岩相古地理[J]. 古地理学报,3(1):1-18. 冯增昭,彭勇民,金振奎,等. 2002. 中国早寒武世岩相古地理[J]. 古地理学报,4(1):1-12. 何明华,喻美艺,王约,等. 2006. 黔东北及邻区新元古代陡山沱期岩相古地理特征[J]. 沉积与特提斯地质,26(1):41-46. 黄道香,吴铁铮,王惠琴,等. 2001. 贵州省非金属矿产[M]. 王永勤.中国固体燃料非金属矿产图集. 北京:地质出版社,249-252. 华洪,张录易,张子福,等. 2001. 高家山生物群化石组合面貌及其特征[J]. 地层学杂志, 25(1):13-17. 李伟新,朱仲嘉,刘凤贤. 1982. 海藻学概论[M]. 上海:上海科学技术出版社,1-249. 梁狄刚,郭彤楼,陈建平,等. 2008. 中国南方海相生烃成藏研究的若干新进展(一):南方四套区域性海相烃源岩的分布[J]. 海相油气地质,(2):1-16. 柳永清. 2007. 瓮安生物群的沉积环境、化石保存岩相与控制因素[M]. 尹崇玉,柳永清,高林志,等.震旦(伊迪卡拉)纪早期磷酸盐化生物群:瓮安生物群特征及其环境演化. 北京:地质出版社,51-68. 柳永清,尹崇玉,高林志,等. 2003. 峡东震旦系层型剖面沉积相研究[J]. 地质论评,49(2):187-194. 罗惠麟,武希彻,欧阳麟, 等. 1988. 扬子地台震旦系—寒武系界线剖面地层对比的新认识[J]. 云南地质,7(1):13-27. 梅冥相,周鹏,张海,等. 2006. 上扬子区震旦系层序地层格架及其形成的古地理背景[J]. 古地理学报,8(2):219-231. 孟庆强,秦建中,刘文斌,等. 2008. 多细胞宏观底栖藻类生烃特点实验研究[J]. 石油学报,29(6):822-826. 戎嘉余,方宗杰,周忠和,等. 2006. 生物的起源、辐射与多样性演变——华夏化石记录的启示[M]. 北京:科学出版社,1-962. 唐烽. 2007. 早寒武世宏体碳质压膜化石[M]. 尹崇玉,柳永清,高林志,等.震旦(伊迪卡拉)纪早期磷酸盐化生物群:瓮安生物群特征及其环境演化[M]. 北京:地质出版社,69-79. 唐烽,高林志. 1998. 中国“震旦生物群”[J]. 地质学报,72(3):193-204. 唐烽,尹崇玉,柳永清,等. 2005. 峡东震旦系陡山沱组宏体化石的新发现[J]. 科学通报,50(23):2632-2637. 唐烽,宋学良,尹崇玉,等. 2006. 华南滇东地区震旦(Ediacaran)系顶部Longfengshaniaceae藻类化石的发现及意义[J]. 地质学报,80(11):1643-1649. 唐烽,尹崇玉,刘鹏举,等. 2007. 滇东埃迪卡拉(震旦)系顶部旧城段多样宏体化石群的发现[J]. 古地理学报,9(5):533-540. 唐烽,尹崇玉,刘鹏举,等. 2008. 华南伊迪卡拉纪“庙河生物群”的属性分析[J]. 地质学报,82(5):601-611. 唐烽,尹崇玉,刘鹏举,等. 2009. 华南新元古代宏体化石特征及生物地层序列[J]. 地球学报,30(4):505-522. 腾格尔,秦建中,郑伦举. 2008. 黔南坳陷海相优质烃源岩的生烃潜力及时空分布[J]. 地质学报,82(3):366-372. 王鸿祯. 1985. 中国古地理图集[M]. 北京:地图出版社, 19-22. 王清晨,严德天,李双建. 2008. 中国南方志留系底部优质烃源岩发育的构造—环境模式[J]. 地质学报,82(3):289-297. 王约,王训练. 2006. 黔东北新元古代陡山沱期宏体藻类的固着器特征及其沉积环境意义[J]. 微体古生物学报,23(2):154-164. 王约,何明华,喻美艺,等. 2005. 黔东北震旦纪陡山沱晚期庙河型生物群的生态特征及埋藏环境初探[J]. 古地理学报,7(3):327-335. 王自强,索书田. 1986. 华南地区中、晚元古代阶段古构造及古地理[M]. 见:王鸿祯,杨巍然,刘本培.华南地区古大陆边缘构造史[M]. 湖北武汉:武汉地质学院出版社,16-38. 夏文杰,杜森官,徐新煌. 1994. 中国南方震旦纪岩相古地理与成矿作用[M]. 北京:地质出版社, 50-62. 严德天,王清晨,陈代钊,等. 2008. 扬子及周缘地区上奥陶统—下志留统烃源岩发育环境及其控制因素[J]. 地质学报,82(3):321-327. 袁训来,肖书海,尹磊明,等. 2002. 陡山沱期生物群—早期动物辐射前夕的生命[M]. 安徽合肥:中国科学技术出版社,1-171. 张录易. 1986. 陕西宁强晚震旦世晚期高家山生物群的发现和初步研究[J]. 中国地质科学院西安地质研究所所刊,(13):67-87. 张昀,袁训来. 1995. 元古宙末多细胞红藻有性生殖结构的发现[J]. 中国科学(B辑),25(7):749-754. 赵孟军,张宝民,边立曾,等. 1999. 奥陶系类Ⅲ型烃源岩及其生成天然气的特征[J]. 科学通报,50(21):2333-2336. 赵自强,邢裕盛,丁启秀,等. 1988. 湖北震旦系(中国震旦系建系研究项目成果之二)[M]. 湖北武汉:中国地质大学出版社,1-112. Condon D, Zhu M Y, Bowring S, et al. 2005. U-Pb ages from the Neoproterozoic Doushantuo Formation, China[J]. Science, 308: 95-98. Gnilovskaya M B. 1990. Vendotaenids—Vendian metaphytes[M]. In: Sokolov B S, Iwanowski A B(ed). The Vendian System, Volume 1, Paleontology. Berlin:Springer-Verlag,138-147. Graham L E, Wilcox L E. 2000. Algae[M]. Upper Saddle River, NJ: Prentice Hall,628. Knoll A H, Walter M R, Narbonne G M, et al. 2006. The Ediacaran Period: A new addition to the geologic time scale[J]. Lethaia, 39: 13-30. Liu B J, Xu X S. 1994. Atlas of the Lithofacies and Palaeogeography of South China(Sinian-Triassic)[M]. Beijing: Science Press, 28-33. Steiner M. 1994. Die neoproterozoishen Megaalgen SudChinas[J]. Berliner Geowissrnschaftliche, Abhandlungen, 15(E): 1-146(in German with English abstract). Steiner M, Erdtmann B D, Chen J. 1992. Preliminary assessment of new late Sinian(late Proterozoic)large siphonous and filamentous “megaalgae” from eastern Wulingshan, North-central Hunan, China[J]. Berliner Geowiss, Abh.,(E)3: 305-319. Sun Weiguo. 1986. Late Precambrian pennatulids(sea pens)from the Eastern Yangtze Gorge. China: Paracharnia gen. nov[J]. Precambrian Res., 31: 361-375. Tang Feng,Yin Chongyu, Gao Linzhi. 1997. A new idea of Sinian Doushantuoan Metaphyte fossils from Xiuning, Anhui Province[J]. Acta Geologica Sinica,71(4):491-501. Tang Feng, Song Xueliang, Yin Chongyu, et al. 2007. Discoveries of new Longfengshaniaceae from the uppermost Ediacaran in eastern Yunnan, South China and the significance[J]. Front. Earth Sci. China, 1(2):142-149. Tang Feng, Yin Chongyu, Stefan Bengtson, et al. 2008. Octoradiate spiral organisms in the Ediacaran of South China[J]. Acta Geologica Sinica, 82(1):27-34. Tang Feng, Yin Chongyu, Liu Pengju, et al. 2008. A new diverse macrofossil Lagersttte from the uppermost Ediacaran of southwestern China[J]. Acta Geologica Sinica, 82(6):1095-1103. Xiao S, Yuan X L, Steiner M, et al. 2002. Macroscopic carbonaceous compressions in a terminal Proterozoic shale: A systematic reassessment of the Miaohe biota, South China[J]. Journal of Paleontology, 76(2):345-374. Yin Chongyu, Tang Feng, Liu Yongqing, et al. 2005. U-Pb zircon age from the base of the Ediacaran Doushantuo Formation in the Yangtze Gorges, South China: Constraint on the age of Marinoan glaciation[J]. Episodes, 28(1):48-49. Yuan X L,Li J,Cao R J. 1999. A diverse metaphyte assemblage from the Neoproterozoic black shales of South China[J]. Lethaia, 32:143-155. Yuan X L, Xiao S H, Li J, et al. 2001. Pyritized chuarids with excystment structures from the late Neoproterozoic Lantian formation in Anhui, South China[J]. Precambrian Res., 107:253-263. Zang Wenglong. 1992. Sinian and Early Cambrian Floras and Biostratigraphy on the South China Platform[J]. Palaeontographica, Abt. B., 224: 75-119. Zhang S H, Jiang G Q, Zhang J, et al. 2005. U-Pb sensitive high-resolution ion microprobe ages from the Doushantuo Formation in south China: Constraints on late Neoproterozoic glaciations[J]. Geology, 33(6):473-476. Zhu M Y, Gehling J G, Xiao S H, et al. 2008. Eight-armed Ediacara fossil preserved in contrasting taphonomic windows from China and Australia[J]. Geology, 36: 867-870.
