豫西登封地区寒武系第二统朱砂洞组古气候演变记录<sup>*</sup>

doi:10.7605/gdlxb.2020.09.090

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Abstract The complete early Cambrian Zhushadong Formation is developed in Dengfeng area,Henan Province,which record important information of paleoclimate variation. The lithology,element geochemistry,sedimentology and palaeontology are investigated to have a closer insight into the paleoclimate and environmental variations during deposition of the early Cambrian Zhushadong Formation of the western Henan. The results show that the Zhushadong Formation can be divided into three lithological members: Lower laminated dolomite Member,the upper leopard limestone Member and the top laminated dolomite Member. The paleoclimate variations are reflected by stratified dissolved pores,chert and gypsum in the laminated dolomites,intensive bioturbation in leopard limestones and multiple geochemical parameters,including Mn concentration,and the ratios of Sr/Cu,Rb/Sr and MgO/CaO. It displays a clear change from hot and arid climate of the lower laminated dolomite Member,to warm and humid climate of the upper leopard limestone Member,and back to hot and arid climate of the top laminated dolomite Member. The contemporaneous sediments in North China show the similar paleoclimate variations to the Zhushadong Formation in western Henan Province.

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	Articles by authors
	Fan Yu-Chao
	Qi Yong-An
	Dai Ming-Yue
	Qing Guo-Shuai
	Liu Bing-Chen
	Bai Wan-Bei

Key words： element geochemistry paleoclimate evolution Zhushadong Formation Dengfeng area

Received: 04 September 2019

ZTFLH:	P532
	P588.24+5

Fund:Financially supported by the National Natural Science Foundation of China(No.41872111)

Corresponding Authors: Qi Yong-An,born in 1963,professor,is engaged in researches on trace fossils and geobiology. E-mail: qiya@hpu.edu.cn.

About author: Fan Yu-Chao,born in 1987,a Ph.D. candidate,is engaged in research on geobiology. E-mail: fanyuchao1126@163.com.

Cite this article:

Fan Yu-Chao,Qi Yong-An,Dai Ming-Yue et al. Paleoclimate evolution recorded in the Cambrian Epoch 2 Zhushadong Formation from Dengfeng area, western Henan Province[J]. JOPC, 2020, 22(2): 367-376.

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http://journal09.magtechjournal.com/gdlxb/EN/10.7605/gdlxb.2020.09.090 OR http://journal09.magtechjournal.com/gdlxb/EN/Y2020/V22/I2/367

[1] 常玉光,齐永安,郑伟,孙凤余. 2012. 河南登封寒武系叠层石组合类型及其控制因素. 微体古生物学报, 29(4): 341-351.
[Chang Y G,Qi Y A,Zheng W,Sun F Y.2012. Assemblages and controlling factors of the Cambrian stromatolites in Dengfeng,Henan Province. Acta Micropalaeontologica Sinica, 29(4): 341-351]
[2] 陈松,桂和荣,孙林华,王晓. 2013. 安徽宿州寒武纪猴家山组灰岩微量元素地球化学特征. 矿物岩石, 33(1): 69-76.
[Chen S,Gui H R,Sun L H,Wang X.2013. Geochemical characteristics of trace elements in limestone of Houjiashan Formation from Suzhou,Anhui Province. Journal of Mineralogy and Petrology, 33(1): 69-76]
[3] 陈荣坤,孟祥化. 1993. 华北地台早古生代沉积建造及台地演化. 沉积与特提斯地质, 13(4): 46-55.
[Chen R K,Meng X H.1993. Early Palaeozoic sedimentary suites and the evolution of the North China Platform. 1993. Sedimentary Geology and Tethyan Geology, 13(4): 46-55]
[4] 邓宏文,钱凯. 1993. 沉积地球化学与环境分析. 甘肃兰州: 甘肃科学技术出版社,4-10.
[Deng H W,Qian K.1993. Sedimentary Geochemistry and Environmental Analysis. Gansu Lanzhou: Gansu Science and Technology Press,4-10]
[5] 冯增昭,彭勇民,金振奎,鲍志东. 2002. 中国中寒武世岩相古地理. 古地理学报, 4(1): 1-12.
[Feng Z Z,Peng Y M,Jin Z K,Bao Z D.2002. Lithofacies palaeogeography of the Early Cambrian in China. Journal of Palaeogeography(Chinese Edition), 4(1): 1-12]
[6] 洪作民,杨雅君,刘效良. 1990. 辽东半岛南部寒武系下统碱厂组古杯化石. 地质论评, 36(6): 558-563.
[Hong Z M,Yang Y J,Liu X L.1990. Archaeocyathid fossils from the lower Cambraian Jianchang Formation of the southern Liaoning peninsula. Geological Review, 36(6): 558-563]
[7] 梁文君,肖传桃,肖凯,林婉. 2015. 藏北安多晚侏罗世古环境、古气候与地球化学元素关系研究. 中国地质, 42(4): 1079-1091.
[Liang W J,Xiao C T,Xiao K,Lin W.2015. The relationship of late Jurassic paleoenvironment and paleoclimate with geochemical elements in Amdo country of northern Tibet. Geology in China, 42(4): 1079-1091]
[8] 刘群,马丽芳,祝有海. 1994. 华北早寒武世岩相古地理与膏盐沉积. 北京: 地质出版社,57-59.
[Liu Q,Ma L F,Zhu Y H.1994. Early Cambrian Lithofacies Paleogeography and Salt Deposits in North China .Beijing: Geological Publishing House,57-59]
[9] 刘英俊,曹励明,李兆麟,王鹤年,褚同庆. 1984. 元素地球化学. 北京: 科学出版社,360-372.
[Liu Y J,Cao L M,Li Z L,Wang H N,Chu T Q.1984. Elemental Geochemistry .Beijing: Science Press,360-372]
[10] 孟昊,任影,钟大康,高崇龙,王点,姜杨锦丰,李谨杰. 2016. 四川盆地东部寒武系龙王庙组地球化学特征及其古环境意义. 天然气地球科学, 27(7): 1299-1311.
[Meng H,Ren Y,Zhong D K,Gao C L,Jiang Y J F,Li J J.2016. Geochemical characteristic and its paleoenvironmental implication of Cambrian Longwangmiao Formation in eastern Slichuan Basin,China. Natural Gas Geoscience, 27(7): 1299-1311]
[11] 裴放,张海清,闫国顺. 2008. 河南省地层古生物研究第3分册早古生代(华北型). 河南郑州: 黄河水利出版社,5-7.
[Pei F,Zhang H Q,Yan G S.2008. The Third Paleozoic Study of Stratigraphic Paleontology in Henan Province,Early Paleozoic(North China) .Henan Zhengzhou: Yellow River Water Conservancy Press,5-7]
[12] 齐永安,孟瑶,代明月,李妲. 2014. 豫西登封地区寒武系第二统朱砂洞组生物成因的豹斑构造. 地质科技情报, 33(5): 1-8.
[Qi Y A,Meng Y,Dai M Y,Li D.2014. Biogenic Leopard patch structures from the Zhushadong Formation(Cambrian Series 2),Dengfeng area,Western Henan. Geological Science and Technology Information, 33(5): 1-8]
[13] 宋明水. 2005. 东营凹陷南斜坡沙四段沉积环境的地球化学特征. 矿物岩石, 25(1): 67-73.
[Song M S.2005. Sedimentary environment geochemistry in the Shansi section of southern ramp Dongying depression. Journal of Mineralogy and Petrology, 25(1): 67-73]
[14] 谭聪,袁选俊,于炳松,刘策,李雯,崔景伟. 2019. 鄂尔多斯盆地南缘上二叠统—中下三叠统地球化学特征及其古气候、古环境知识意义. 现代地质, 33(3): 615-628.
[Tan C,Yuan X J,Yu B S,Liu C,Li W,Cui J W.2019. Geochemical characteristics and paleoclimatic implications of the Upper Permian and Middle-Lower Triassic strata in Southern Ordos Basin. Geoscience, 33(3): 615-628]
[15] 田洋,赵小明,王令占,涂冰,谢国刚,曾波夫. 2014. 重庆石柱二叠纪栖霞组地球化学特征及其环境意义. 沉积学报, 32(6): 1035-1045.
[Tian Y,Zhao X M,Wang L Z,Tu B,Xie G G, Zeng B F.2014. Geochemical characteristics and its paleoenvironment implication of Permian Qixia formation in Shizhu,Chongqing,Acta Sedimentologica Sinica, 32(6): 1035-1045]
[16] 吴灿灿,陈松,李俊,郭锤. 2018. 皖北宿州地区寒武系豹皮灰岩地球化学特征及其地质意义. 地质与勘探, 54(1): 90-101.
[Wu C C,Chen S,Li J,Guo C.2018. Geochemical characteristics of the Cambrian leopard limestone in the Suzhou area,northern Anhui Province and its geological implications. Geology and Exploration, 54(1): 90-101]
[17] 王德有,张恩惠,阎国顺. 1992. 河南省早寒武世岩相古地理及铅锌矿控矿环境研究. 湖北武汉: 中国地质大学出版社,64-65.
[Wang D Y,Zhang E H,Yan G S.1992. Lithofacies-Paleogeography and environment control over the Lead-Zinc ore deposits in Henan Province during Early Cambrian .Hubei Wuhan: Press of China University of Geosciences,64-65]
[18] 王琳霖,浮昀,方诗杰. 2018. 鄂尔多斯盆地东缘马家沟组元素地球化学特征及古沉积环境. 石油实验地质, 40(4): 519-525.
[Wang L L,Fu Y,Fang S J.2018. Elemental geochemical characteristics and geological significance of Majiagou Formation,eastern Ordos Basin. Petroleum Geology & Experiment, 40(4): 519-525]
[19] 汪凯明,罗顺社. 2009. 燕山地区中元古界高于庄组和杨庄组地球化学特征及环境意义. 矿物岩石地球化学通报, 28(4): 356-364.
[Wang K M,Luo S S.2009. Geochemical characteristics and environmental significance of Gaoyuzhuang and Yangzhuang formations in Yanshan region. Bulletin of Mineralogy,Petrology and Geochemistry, 28(4): 356-364]
[20] 王随继,黄杏珍,妥进才,邵宏舜,阎存凤,王寿庆,何祖荣. 1997. 泌阳凹陷核桃园组微量元素演化特征及其古气候意义. 沉积学报, 15(1): 65-70.
[Wang S J,Huang X Z,Sui C J,Shao H S,Yan C F,Wang S Q,He Z R.1997. Evolutional characteristics and their paleoclimate significance of trace elements in the Hetaoyuan formation,Biyang depression. Acta Sedimentologica Sinica, 15(1): 65-70]
[21] 温同想,徐松绿. 1997. 河南省华北地台区成盐条件及找盐远景. 河南地质, 15(4): 241-251.
[Wen T X,Xu S L.1997. Salt-forming conditions and salt-exploring prospects in North China Platform Region of Henan Province. Henan Geology, 15(4): 241-251]
[22] 谢尚克,汪正江,王剑,卓皆文. 2010. 綦江观音桥中上奥陶统微量元素地球化学特征. 沉积与特提斯地质, 30(4): 60-65.
[Xie S K,Wang Z J,Wang J,Zhuo J W.2010. Trace element geochemistry of the middle and upper Ordovician strata in the Guanyingqiao section,Qijiang,Chongqing. Sedimentary Geology and Tethyan Geology, 30(4): 60-65]
[23] 徐立恒,陈践发,李玲,马广宇,刘钰丹. 2009. 普光气藏长兴—飞仙关组碳酸盐岩C、O同位素、微量元素分析及古环境意义. 地球学报, 30(1): 103-110.
[Xu L H,Chen J F,Li L,Ma G Y,Liu Y D.2009. Carbon,oxygen isotope and trace element characteristics of carbonate rocks in Changxin-feixianguan formation of Puguang gas pool and its palaeoenvironment significance. Earth Science, 30(1): 103-110]
[24] 颜佳新,伍明. 2006. 显生宙海水成分、碳酸盐沉积和生物演化系统研究进展. 地质科技情报, 25(3): 1-7.
[Yan J X,Wu M.2006. Synchronized oscillations in Phanerozoic chemical composition of seawater,carbonate sedimentation and biotic evolution: Progresses and rospects. Geological Science and Technology Information, 25(3): 1-7]
[25] 杨振宇,沈渭洲,郑连弟. 2009. 广西来宾蓬莱滩二叠纪瓜德鲁普统—乐平统界线剖面元素和同位素地球化学研究及地质意义. 地质学报, 83(1): 1-15.
[Yang Z Y,Shen W Z,Zheng L D.2009. Elements and isotopic geochemistry of Guadalupian-Lopingian boundary profile at Penglaitan section of Laibin,Guangxi Province,and its geological implications. Acta Geologica Sinica, 83(1): 1-15]
[26] 张国仁,陈建强,胡明花,顾德林. 1996. 山东沂水地区早中寒武世露头层序地层及地层格架. 国土资源,(3): 195-216.
[Zhang G R,Chen J Q,Hu M H,Gu D L.1996. Sequence stratigraphy and stratigraphic framework of Middle Cambrian outcrops in Yishui area,Shandong Province. Land & Resources,(3): 195-216]
[27] 张国仁. 1997. 华北地台东部早中寒武世古气候的识别标志及变化旋回. 国土资源,(4): 282-290.
[Zhang G R.1997. Recognition marks and variation cycle of Early-Middle Cambrain paleoclimate in the east of North China Platform. Land & Resources,(4): 282-290]
[28] 赵锡文. 1992. 古气候学概论. 北京: 地质出版社,27-28.
[Zhao X W.1992. Introduction to Paleoclimatology .Beijing: Geological Publishing House,27-28]
[29] Cao H S,Guo W,Shan X L,Lin M,Sun P C.2015. Paleolimnlolgical environments and organic accumulation of the Nenjiang Formation in the Southeastern Songliao Basin,China. Oil Shale, 32(1): 5-24.
[30] Derryla,Kaufman A J,Jacobsen S B.1992. Sedimentary cycling and environmental change in the Late Proterozoic: Evidence from stable and radiogenic isotopes. Geochimica et Cosmochimica Acta, 56(3): 1317-1329.
[31] Huang B,Zhu R,Otofuji Y,Yang Z.2000. The Early Paleozoic paleogeography of the North China block and the other major blocks of Chinese. China Science Bulletin, 45: 1057-1065.
[32] Jacobsen S B,Kaufman A J.1999. The Sr,C and O isotopic evolution of Neoproterozoic seawater. Chemical Geology,161(1/3): 37-57.
[33] Kaufman A J,Knoll A H.1995. Neoproterozoic variations in the C-isotopic composition of seawater: Stratigraphic and biogeochemical implications. Precambrian Research, 73(1-4): 27-49.
[34] Stamhuis E J,Schreurs C E,Videler J J.1997. Burrow architecture and turbative activity of the thalassinid shrimp Callianassa subterranea from the central North Sea. Marine Ecology Progress Series, 151: 155-163.
[35] Taylor S R,McLennan S M.1995. The geochemical evolution of the continental crust. Reviews of Geophysics, 33: 241-265.
[36] Yang Z,Otofuji Y,Sun Z,Huang B.2002. Magnetostratigraphic constraints on the Gondwanan origin of North China: Cambrian/Ordovician boundary results. Geophysical Journal International, 151: 1-10.
[37] Zhang L J,Qi Y A,Buatois L A,Mángano M G,Meng Y,Li D.2017. The impact of deep-tier burrow systems in sediment mixing and ecosystem engineering in early Cambrian carbonate settings. Scientific Reports, 7: 1-9.
[38] Zhao X,Coe R S,Liu C,Zhou Y.1992. New Cambrian and Ordovician paleomagnetic poles for the North China Block and their paleogeographic implications. Geophysical Journal International, 97: 1767-1788.