川西峨眉地区古近纪早期气候特征:来自名山组下段地球化学及磁化率的证据<sup>*</sup>

doi:10.7605/gdlxb.2021.03.033

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Abstract The Early Paleogene is a typical “greenhouse climate” period of the Phanerozoic,and also the last warm period prior to the Cenozoic “icehouse climate”. There is a complete set of lacustrine strata of the Paleogene Mingshan Formation in the Emei area,western Sichuan,which can provide useful information about the Cenozoic major geological events and evolution of palaeoclimate. On the basis of previous studies,element ratio,magnetic susceptibility and macroscopic and microscopic characteristics of rocks are used to study the Early Paleogene climate evolution and the formation mechanism of magnetic susceptibility in the Emei area. The results show that the study area had a tropical-subtropical hot and arid climate during the early Paleogene,which was a continuation of the late Cretaceous hot and arid climate,but the dry and heat degree significantly reduced compared with that in the Late Cretaceous. Moreover,there were some cycles of hot and arid-warm and humid climate,and severe climatic fluctuation stage during the Early Paleogene. The dry and wet change of the climate is the main reason for the variability in the magnetic susceptibility of the strata in the study area. Its high values reflect the humid climate,and low values reflect increase of drought. The position where the magnetic susceptibility fluctuates obviously in the strata may correspond to the period when the East Asian monsoon began to affect the Emei area.

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	Tai Zi-Han
	Xiang Fang
	Chen Zhuo-Hua
	Li Lei
	Yu Xian-Tao

Key words： Emei area Paleogene lithological characteristics element ratio magnetic susceptibility palaeoclimate

Received: 07 April 2020

ZTFLH:

P534

Fund:National Natural Science Foundation of China(Nos. 41972101,41572093)

Corresponding Authors: Xiang Fang,born in 1974,is a professor and doctoral supervisor. She is mainly engaged in researches on sedimentary petrology,lithofacies palaeogeography,and Quaternary geomorphology. E-mail: cdxiangfang@126.com.

About author: Tai Zi-Han,born in 1993,is a postgraduate student. His major is Quaternary geology. E-mail: 1079621875@qq.com.

Cite this article:

Tai Zi-Han,Xiang Fang,Chen Zhuo-Hua et al. Early Paleogene climatic features in Emei area,western Sichuan: evidence from geochemistry and magnetic susceptibility in the lower part of the Mingshan Formation[J]. JOPC, 2021, 23(3): 555-564.

URL:

http://journal09.magtechjournal.com/gdlxb/EN/10.7605/gdlxb.2021.03.033 OR http://journal09.magtechjournal.com/gdlxb/EN/Y2021/V23/I3/555

[1] 曹珂. 2007. 四川盆地晚中生代红层与古气候. 成都理工大学硕士学位论文.
[Cao K.2007. Late Mesozoic red beds and paleoclimate in Sichuan Basin. Masteral dissertation of Chengdu University of Technology]
[2] 曹珂,李祥辉,王成善. 2008. 四川盆地白垩系黏土矿物特征及古气候探讨. 地质学报, 82(1): 115-123.
[Cao K,Li X H,Wang C S.2008. The Cretaceous clay minerals and palaeoclimate in Sichuan Basin. Acta Geologica Sinica, 82(1): 115-123]
[3] 陈海霞. 2009. 川西雅安地区白垩纪古环境古气候研究. 成都理工大学硕士学位论文.
[Chen H X.2009. Research of paleoenvironment and Paleoclimate of Cretaceous in Ya’an area of western Sichuan Basin. Masteral dissertation of Chengdu University of Technology]
[4] 陈敬安,万国江. 1999. 云南洱海沉积物粒度组成及其环境意义辨识. 矿物学报, 19(2): 175-182.
[Chen J A,Wan G J.1999. Sediment particle size distribution and its environmental significance in lake Erhai,Yunnan Province. Acta Mineralogica Sinica, 19(2): 175-182]
[5] 崔晓庄,江新胜,伍皓,熊国庆,卓皆文,陆俊泽. 2012. 青藏高原东缘盐源盆地古近纪风成沙丘及其古地理意义. 古地理学报, 14(5): 571-582.
[Cui X Z,Jiang X S,Wu H,Xiong G Q,Zhuo J W,Lu J Z.2012. The Paleogene aeolian dunes and their palaeogeographic significance in Yanyuan Basin,eastern margin of the Tibetan Plateau. Journal of Palaeogeography(Chinese Edition), 14(5): 571-582]
[6] 陈晓慧,陆廷清. 2009. 峨眉山地区地质实习与考察指南. 北京: 石油工业出版社.
[Deng X H,Lu T Q.2009. Geological Practice and Investigation Guide in Emeishan Area. Beijing: Petroleum Industry Press]
[7] 杜晨,张兵,张世涛,孙琦森,李超. 2012. 浅谈湖泊沉积环境演变中元素地球化学的应用及原理. 地质与资源, 21(5): 487-492.
[Du C,Zhang B,Zhang S T,Sun Q S,Li C.2012. Application and principle of element geochemistry in the evolution of lake sedimentary environment. Geology and Resources, 21(5): 487-492]
[8] 邓江红,张燕,邓斌. 2013. 峨眉山地质认识实习教程. 北京: 地质出版社.
[Deng J H,Zhang Y,Deng B.2013. Practice Course of Geological Understanding in Emeishan. Beijing: Geological Publishing House]
[9] 韩德亮. 2001. 莱州湾E孔中更新世末期以来的地球化学特征. 海洋学报, 23(2): 79-85.
[Han D L.2001. Geochemistry of core E in the Laizhou bay since late stage of middle Pleistocene. Acta Oceanologica Sinica, 23(2): 79-85]
[10] 胡守云,王苏民,Appel E,吉磊. 1998. 呼伦湖湖泊沉积物磁化率变化的环境磁学机制. 中国科学(D辑), 28(4): 334-339.
[Hu S Y,Wang S M,Appel E,Ji L.1998. Environmental magnetic mechanism of magnetic susceptibility changes in Hulun lake sediments. Science in China(Series D), 28(4): 334-339]
[11] 吉云平,夏正楷. 2007. 不同类型沉积物磁化率的比较研究和初步解释. 地球学报, 28(6): 541-549.
[Ji Y P,Xia Z K.2007. Camparison and primarily interpretation of magnetic susceptibilities in different sediments. Acta Geoscientica Sinica, 28(6): 541-549]
[12] 金章东,张恩楼. 2002. 湖泊沉积物Rb/Sr比值的古气候含义. 科学技术与工程, 2(3): 20-22.
[Jin Z D,Zhang E L.2002. Paleoclimate implication of Rb/Sr ratios from lake sediments. Science Technology and Engineering, 2(3): 20-22]
[13] 江湉,贾建忠,邓丽君,万晓樵. 2012. 古近纪重大气候事件及其生物响应. 地质科技情报, 31(3): 31-38.
[Jiang T,Jia J Z,Deng L J,Wang X Q.2012. Significant climate events in Paleogene and their biotic response. Geological Science and Technology Information, 31(3): 31-38]
[14] 江新胜,崔晓庄,伍皓,熊国庆,卓皆文,陆俊泽,江卓斐. 2012. 青藏高原东缘古近纪沙漠及其对季风起源的启示. 沉积与特提斯地质, 32(3): 54-63.
[Jiang X S,Cui X Z,Wu H,Xiong G Q,Zhuo J W,Lu J Z,Jiang Z F.2012. The Paleogene deserts and their implications for the origin of monsoons on the eastern margin of the Qinghai-Xizang Plateau,SW China. Sedimentary Geology and Tethyan Geology, 32(3): 54-63]
[15] 江卓斐,伍皓,崔晓庄,卓皆文. 2013. 四川盆地古近纪古风向恢复与大气环流样式重建. 地质通报, 32(5): 734-741.
[Jiang Z F,Wu H,Cui X Z,Zhuo J W.2013. The reconstruction of Paleogene wind direction and general atmospheric circulation style in Sichuan Basin, southwestern China. Geological Bulletin of China, 32(5): 734-741]
[16] 罗攀,郑卓,杨小强. 2006. 海南岛双池玛珥湖全新世磁化率及其环境意义. 热带地理, 26(3): 211-217.
[Luo P,Zheng Z,Yang X Q.2006. Holocene magnetic susceptibility from Shuangchi Maar lake Hainan island and its environmental significance. Tropical Geography, 26(3): 211-217]
[17] 刘秀铭,刘东生,Friedrich H,许同春. 1992. 中国黄土磁化率与第四纪古气候研究. 地质科学,27(增刊): 279-285.
[Liu X M,Liu D S,Friedrich H,Xu T C.1992. Study on magnetic susceptibility of loess and Quaternary climate in China. Scientia Geologica Sinica,27(S1):279-285]
[18] 刘志飞,Colin C,黄维,陈忠,Trentesaux A,陈建芳. 2007. 珠江流域盆地表层沉积物的粘土矿物及其对南海沉积物的贡献. 科学通报, 52(4): 448-456.
[Liu Z F,Colin C,Huang W,Chen Z,Trentesaux A,Chen J F.2007. Clay minerals in surface sediments of Pearl River Basin and their contribution to South China Sea sediments. Chinese Science Bulletin, 52(4): 448-456]
[19] 刘立安,姜在兴. 2011. 四川盆地古近纪沙漠沉积特征及古风向意义. 地质科技情报, 30(2): 63-68.
[Liu L A,Jiang Z X.2011. Depositional features of the desert in the Paleogene Sichuan Basin and the significance for the reconstruction of palaeowind direction. Geological Science and Technology Information, 30(2): 63-68]
[20] 申改慧,丁国强,阳小兰,张茹春,李月丛,李冰. 2018. 白洋淀地区全新世以来的气候环境变化. 第四纪研究, 38(3): 756-768.
[Shen G H,Ding G Q,Yang X L,Zhang R C,Li Y C,Li B.2018. Holocene cliamte and enviromental change in the Baiyangdian area. Quaternary Sciences, 38(3): 756-768]
[21] 沈吉,张恩楼,夏威岚. 2001. 青海湖近千年来气候环境变化的湖泊沉积记录. 第四纪研究, 21(6): 508-513.
[Shen J,Zhang E L,Xia W L.2001. Records from lake sediments of the Qinghai lake to mirror climatic and environmental changes of the past about 1000 years. Quaternary Sciences, 21(6): 508-513]
[22] 史忠生,陈开远,史军,柳保军,何胡军,刘刚. 2003. 运用锶钡比判定沉积环境的可行性分析. 断块油气田, 10(2): 12-16.
[Shi Z S,Chen K Y,Shi J,Liu B J,He H J,Liu G.2003. Feasibility analysis of the application of the ratio of strontium to barium on the identifying sedimentary environment. Fault-Block Oil & Gas Field, 10(2): 12-16]
[23] 田晓雪,雒昆利,谭见安,李日邦. 2005. 黑龙江嘉荫地区白垩系与古近系界限附近的古气候分析. 古地理学报, 7(3): 425-432.
[Tian X X,Luo K L,Tan J A,Li R B.2005. Analysis on palaeoclimate neighboring the Cretaceous and Paleogene boundary in Jiayin area,Heilongjiang Province. Journal of Palaeogeography(Chinese Edition), 7(3): 425-432]
[24] 魏乐军,郑绵平,蔡克勤,葛文胜. 2002. 西藏洞错全新世早中期盐湖沉积的古气候记录. 地学前缘, 9(1): 129-135.
[Wei L J,Zheng M P,Cai K Q,Ge W S.2002. Early-Middle Holocene palaeoclimate record from saline lake sediments in Tontso,Tibet. Earth Science Frontiers, 9(1): 129-135]
[25] 肖渊甫,郑荣才,邓江红. 2009. 岩石学简明教程(第三版). 北京: 地质出版社.
[Xiao Y F,Zheng R C,Deng J H.2009. Concise Course of Petrology(Third Edition). Beijing: Geological Publishing House]
[26] 袁海军,赵兵. 2012. 川西雅安—名山地区白垩系泥岩的地球化学特征及古气候探讨. 沉积与特提斯地质, 32(1): 78-83.
[Yuan H J,Zhao B.2012. Geochemical and palaeoclimatic approaches to the Cretaceous mudstones in the Ya’an-Mingshan zone,western Sichuan. Sedimentary Geology and Tethyan Geology, 32(1): 78-83]
[27] 严亮. 2015. 川西古近纪地层划分对比—沉积体系及古气候分析. 成都理工大学硕士学位论文.
[Yan L.2015. Study of stratigraphic classification,the sedimentary system and the ancient climate of the Paleogene Period in west area of Sichuan Province. Masteral dissertation of Chengdu University of Technology]
[28] 张来明. 2016. 白垩纪—古近纪古气候演化与生物灭绝: 来自中国东部若干陆相盆地的证据. 中国地质大学(北京)博士学位论文.
[Zhang L M.2016. Paleoclimatic evolution and mechanism of the mass extinction during the K-Pg boundary: evidences from several terrestrial basins in East China. Doctoral Dissertation of China University of Geosciences(Beijing)]
[29] 曾允孚,夏文杰. 1986. 沉积岩石学. 北京: 地质出版社.
[Zeng Y F,Xia W J.1986. Sedimentary Petrology. Beijing: Geological Publishing House]
[30] Bralower T J,Silva I P,Malone M J.2002. New evidence for abrupt climate change in the Cretaceous and Paleogene: an ocean drilling program expedition to Shatshy Rise,northwest Pacific. GSA Today, 11: 4-10.
[31] Shen C D,Beer J,Kubik P W,Suter M,Borkovec M,Liu T S.2004. ¹⁰Be content and magnetic susceptibility of micrometer-nanometer loess materials. Nuclear Instruments and Methods in Physics Research Section B: 613-617.
[32] Drummond C N,Wilkinson B H,Lohmann K C,Smith G R.1993. Effect of regional topography and hydrology on the lacustrine isotopic record of Miocene palaeoceology in the Rocky Mountains. Palaeogeography,Palaeoclimatology, Palaeoceology, 101: 67-79.
[33] Lerman A.1978. Lakes: Chemistry,Geology,Physics. Berlin: Springer.
[34] Peck J A,King J W,Colman S M,Kravchinsky V A.1994. A rock-magnetic record from lake Baikel,Siberia: evidence for late Quaternary climate change. Earth & Planetary Science Letters, 122: 221-238.
[35] Qi L,Hu J,Gregorie D C.2000. Determination of trace elements in granties by inductively couple plasma mass spectrometry. Talanta, 51(3): 507-513.
[36] Thouveny N,Beaulieu J L,Bonifay E,Creer K M,Gulot J,Icole M,Johnsen S,Jouzel J,Reille M,Williams T,Williamson D.1994. Climate variations in Europe over the past 140 kyr deduced from rock magnetism. Nature, 371: 503-506.