Changing provenance of late Cenozoic sediments in the Jianghan Basin 被引量：4

Changing provenance of late Cenozoic sediments in the Jianghan Basin

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摘要 The Yangtze River is one of the most important components of the East Asia river system. In this study, sediments in the Jianghan Basin, middle Yangtze River, were selected for trace element and rare earth element （REE） measurements, in order to decipher information on the change of sediment provenance and evolution of the Yangtze River. According to the elemental variations, the late Cenozoic sediments of the Jianghan Basin could be divided into four parts. During 2.68-2,28 Ma and 1.25-0 Ma, proveJ nance of the sediments was consistent, whereas sediments were derived from variable sources during 2.28-1.25 Ma. Comparison of the elemental compositions between the Pliocene and Quaternary sediments revealed a change in sediment source from a more felsic source area to a more basic source area around the Pliocene--Quaternary boundary. Input from the Emeishan LIP should account for this provenance change, Based on the provenance analysis of sediments in the Jianghan Basin, we infer that the Yangtze River developed into a large river with its drainage basin extended to the Emeishan LIP no later than the Pliocene-Quaternary boundary. The Yangtze River is one of the most important components of the East Asia river system. In this study, sediments in the Jianghan Basin, middle Yangtze River, were selected for trace element and rare earth element （REE） measurements, in order to decipher information on the change of sediment provenance and evolution of the Yangtze River. According to the elemental variations, the late Cenozoic sediments of the Jianghan Basin could be divided into four parts. During 2.68-2,28 Ma and 1.25-0 Ma, proveJ nance of the sediments was consistent, whereas sediments were derived from variable sources during 2.28-1.25 Ma. Comparison of the elemental compositions between the Pliocene and Quaternary sediments revealed a change in sediment source from a more felsic source area to a more basic source area around the Pliocene--Quaternary boundary. Input from the Emeishan LIP should account for this provenance change, Based on the provenance analysis of sediments in the Jianghan Basin, we infer that the Yangtze River developed into a large river with its drainage basin extended to the Emeishan LIP no later than the Pliocene-Quaternary boundary.

作者 Lei Shao Shengyuan Yuan Chang'an Li Chunguo Kang Wenjing Zhu Yindi Liu Jietao Wang

机构地区 Wuhan Center of Geological Survey Faculty of Earth Sciences College of Urban Planning & Environment Science State Key Laboratory of Biogeology and Environmental Geology Institute of Geophysics & Geomatics Hubei Institute of Geological Sciences

出处《Geoscience Frontiers》 SCIE CAS CSCD 2015年第4期605-615,共11页 地学前缘（英文版）

基金 supported by the National Natural Science Foundation of China(Grants Nos.40971008 and 40771213) the Open Research Program of State Key Laboratory of Loess and Quaternary Geology(Grant No.SKLLQG0908)

关键词 Yangtze River Jianghan Basin Trace element REE Provenance Yangtze River Jianghan Basin Trace element REE Provenance

分类号 P534.6 [天文地球—古生物学与地层学]

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参考文献8

1ZHANG YuFen,LI Chang'An,WANG QiuLiang,CHEN Liang,Ma YongFa,KANG ChunGuo.Magnetism parameters characteristics of drilling deposits in Jianghan Plain and indication for forming of the Yangtze River Three Gorges[J].Chinese Science Bulletin,2008,53(4):584-590. 被引量：39
2杨守业,韦刚健,夏小平,孙敏,唐珉.长江口晚新生代沉积物的物源研究:REE和Nd同位素制约[J].第四纪研究,2007,27(3):339-346. 被引量：86
3张德厚.江汉盆地新构造与第四纪环境变迁[J].地壳形变与地震,1994,14(1):74-80. 被引量：20
4郑洪波,贾军涛.大河的地质演化与构造控制[J].第四纪研究,2009,29(2):268-275. 被引量：15
5李长安,张玉芬.中国主要水系贯通和洪灾形成的地学因素分析[J].大自然探索,1997,16(1):61-65. 被引量：33
6黄湘通,郑洪波,杨守业,谢昕.长江三角洲DY03孔沉积物元素地球化学及其物源示踪意义[J].第四纪研究,2009,29(2):299-307. 被引量：31
7YANG ShouYe1?, JIANG ShaoYong2, LING HongFei2, XIA XiaoPing3, SUN Min3 & WANG DeJie4 1 State Key Laboratory of Marine Geology, Tongji University, Shanghai 200092, China,2 State Key Laboratory for Mineral Deposit Research, Nanjing University, Nanjing 210093, China,3 Departmen of Earth Sciences, The University of Hong Kong, Hong Kong SAR, China,4 Development Research Center, China Geological Survey, Beijing 100083, China.Sr-Nd isotopic compositions of the Changjiang sediments: Implications for tracing sediment sources[J].Science China Earth Sciences,2007,50(10):1556-1565. 被引量：35
8贾军涛,郑洪波,黄湘通,吴福元,杨守业,王可,何梦颖.长江三角洲晚新生代沉积物碎屑锆石U-Pb年龄及其对长江贯通的指示[J].科学通报,2010,55(4):350-358. 被引量：41

二级参考文献147

1朱迎堂,郭通珍,彭伟,杨延兴,陈海清,史连昌,王永文,保光普,陈建,韩海臣.可可西里湖幅地质调查新成果及主要进展[J].地质通报,2004,23(5):543-548. 被引量：18
2Yokoyama Kazumi.Monazite age spectra in the Late Cenozoic strata of the Changjiang delta and its implication on the Changjiang run-through time[J].Science China Earth Sciences,2005,48(10):1718-1727. 被引量：18
3马英军,刘丛强.Sr isotope evolution during chemical weathering of granites——impact of relative weathering rates of minerals[J].Science China Earth Sciences,2001,44(8):726-734. 被引量：10
4宋彪,张玉海,万渝生,简平.锆石SHRIMP样品靶制作、年龄测定及有关现象讨论[J].地质论评,2002,48(S1):26-30. 被引量：1186
5俞立中.利用磁信息追踪沉积物物质来源的定量方法[J].苏州科技学院学报（社会科学版）,1992(S1):55-68. 被引量：5
6万渝生,刘敦一,简平.独居石和锆石SHRIMPU-Pb定年对比[J].科学通报,2004,49(12):1185-1190. 被引量：25
7李从先,杨守业,范代读,赵娟.三峡大坝建成后长江输沙量的减少及其对长江三角洲的影响[J].第四纪研究,2004,24(5):495-500. 被引量：55
8覃军干,吴国瑄,郑洪波,李从先.从孢粉、藻类化石组合看长江三角洲第一硬质粘土层的成因及其古环境意义[J].第四纪研究,2004,24(5):546-554. 被引量：42
9王中良,刘丛强.长江河口区水体的锶同位素地球化学——对水与沉积物相互作用过程的反映[J].地球与环境,2004,32(2):26-30. 被引量：16
10范代读,李从先,K.Yokoyama,周保春,李保华,王强,杨守业,邓兵,吴国瑄.长江三角洲晚新生代地层独居石年龄谱与长江贯通时间研究[J].中国科学（D辑）,2004,34(11):1015-1022. 被引量：40

共引文献216

1Yuanli Hou,Weilin Zhu,Peijun Qiao,Chi-Yue Huang,Yuchi Cui,Xianbo Meng.Sediment source and environment evolution in Taiwan Island during the Eocene–Miocene[J].Acta Oceanologica Sinica,2021,40(2):114-122. 被引量：2
2陈育芝,武仙竹.长江三峡及周边地区早期人类的生存环境与生存行为[J].人类学学报,2024,43(2):287-297.
3张凌,王平,陈玺赟,殷勇.碎屑锆石U-Pb年代学数据获取、分析与比较[J].地球科学进展,2020(4):414-430. 被引量：21
4李超,杨守业.长江沉积物中赤铁矿和针铁矿的漫反射光谱分析[J].地球科学（中国地质大学学报）,2012,37(S1):11-19. 被引量：13
5杨建,李长安,张玉芬,康春国,邵磊.江汉平原沉积物中含钛普通辉石对长江演化的示踪[J].地球科学（中国地质大学学报）,2012,37(S1):43-49. 被引量：3
6JIANG FuQing,ZHOU XiaoJing,LI AnChun,LI TieGang.Quantitatively distinguishing sediments from the Yangtze River and the Yellow River using δEu_N-ΣREEs plot[J].Science China Earth Sciences,2009,52(2):232-241. 被引量：15
7WU WeiHua1, YANG JieDong2, XU ShiJin1, LI GaoJun1, YIN HongWei1 & TAO XianCong2 1 School of Earth Sciences and Engineering, Nanjing University, Nanjing 210093, China 2 Center of Modern Analysis Nanjing University, Nanjing 210093, China.Sr fluxes and isotopic compositions of the eleven rivers originating from the Qinghai-Tibet Plateau and their contributions to ^(87)Sr/^(86)Sr evolution of seawater[J].Science China Earth Sciences,2009,52(8):1059-1067. 被引量：1
8赵梦,邵磊,梁建设,乔培军,向绪洪.古红河沉积物稀土元素特征及其物源指示意义[J].地球科学（中国地质大学学报）,2013,38(S1):61-69. 被引量：19
9范代读,李从先,K.Yokoyama,周保春,李保华,王强,杨守业,邓兵,吴国瑄.长江三角洲晚新生代地层独居石年龄谱与长江贯通时间研究[J].中国科学（D辑）,2004,34(11):1015-1022. 被引量：40
10袁丽.浅谈江汉～洞庭盆地的防灾管理[J].资源环境与工程,2004,18(3):64-67.

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1沈传波,梅廉夫,徐振平,汤济广,田鹏.大巴山中—新生代隆升的裂变径迹证据[J].岩石学报,2007,23(11):2901-2910. 被引量：65
2舒强,张茂恒,赵志军,陈晔,李吉均.苏北盆地XH-1钻孔晚新生代沉积记录特征及其与长江贯通时间的关联[J].地层学杂志,2008,32(3):308-314. 被引量：15
3杨秉赓,孙肇春,吕金福.松辽水系的变迁[J].地理研究,1983,2(1):48-56. 被引量：22
4杨建,李长安,张玉芬,康春国,邵磊.江汉平原沉积物中含钛普通辉石对长江演化的示踪[J].地球科学（中国地质大学学报）,2012,37(S1):43-49. 被引量：3
5XU YaJun,DU YuanSheng,YANG JiangHai,HUANG Hu.Sedimentary geochemistry and provenance of the Lower and Middle Devonian Laojunshan Formation,the North Qilian Orogenic Belt[J].Science China Earth Sciences,2010,53(3):356-367. 被引量：7
6刘祥,候兰英.长岭隆起与松辽水系变迁[J].内蒙古农牧学院学报,1993,14(4):55-60. 被引量：6
7汪品先.新生代亚洲形变与海陆相互作用[J].地球科学（中国地质大学学报）,2005,30(1):1-18. 被引量：72
8向芳,朱利东,王成善,李永昭,杨文光.长江三峡阶地的年代对比法及其意义[J].成都理工大学学报（自然科学版）,2005,32(2):162-166. 被引量：43
9王书兵,赵志中,乔彦松,蒋复初.泸定昔格达组时代认定与古环境[J].第四纪研究,2006,26(2):257-264. 被引量：36
10李勇,黎兵,Steffen D,DensmoreAL,RichardsonNJ,周荣军,Ellis M A,张毅.青藏高原东缘晚新生代成都盆地物源分析与水系演化[J].沉积学报,2006,24(3):309-320. 被引量：39

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1吴鹏,谢远云,康春国,迟云平,魏振宇,王嘉新,张曼,张月馨,刘璐.早更新世晚期松花江水系袭夺:地球化学和沉积学记录[J].地质学报,2020,94(10):3144-3160. 被引量：10
2林旭,吴中海,赵希涛,张洋,陈济鑫,刘海金.江汉盆地河流碎屑锆石U-Pb年龄特征及其对物源研究的启示[J].地球学报,2022,43(1):73-81. 被引量：3
3代彬,刘彧,王世杰,胡传辉.长江三峡地区数字地貌特征及对古分水岭位置的指示[J].地球与环境,2022,50(5):676-690. 被引量：2
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10刘警阳,刘宗堡,曹兰柱,刘性全,胡赛寅,潘国辉,刘芳.松花江干流中下游河型转化控制因素研究[J].沉积学报,2023,41(2):485-497. 被引量：3

1LU HuaYu,GUO ZhengTang.Evolution of the monsoon and dry climate in East Asia during late Cenozoic:A review[J].Science China Earth Sciences,2014,57(1):70-79. 被引量：30
2MENG Xiangang,ZHU Dagang,SHAO Zhaogang,YANG Chaobin,HAN Jianen,YU Jia,MENG Qingwei,LU Rongping.Late Cenozoic Stratigraphy and Paleomagnetic Chronology of the Zanda Basin,Tibet, and Records of the Uplift of the Qinghai-Tibet Plateau[J].Acta Geologica Sinica(English Edition),2008,82(1):63-72. 被引量：7
3HU Ying,LU Shuangfang,LI Wenhao,ZHANG Pengfei,LI Qian,ZHANG Han.Research on Micro Pore Structure of the Shale Oil Reservoirs in Xingouzui Formation in the Jianghan Basin[J].Acta Geologica Sinica(English Edition),2015,89(A01):37-38.
4XIANG Fang,WANG Yuwan,ZHANG Yao,LI Shuxia,WANG Jinyuan,FEN Qin.Provenance of Detrital Magnetites from Quaternary Sediments in the Yichang Area and its Significance to the Birth of the Three Gorges, Yangtze River[J].Acta Geologica Sinica(English Edition),2016,90(3):1063-1064. 被引量：3
5Jing Chen,Zhang-Hua Wang,Tao-Yuan Wei,Bao-Cheng Zhao,Zhong-Yuan Chen.Clay minerals in the Pliocene-Quaternary sediments of the southern Yangtze coast, China: Sediment sources and palaeoclimate implications[J].Journal of Palaeogeography,2014,3(3):297-308. 被引量：2
6WANG Zhe,WANG Xin.Late Cenozoic Deformation Sequence of a Thrust System along the Eastern Margin of Pamir,Northwest China[J].Acta Geologica Sinica(English Edition),2016,90(5):1664-1678. 被引量：3
7LI Lei,SU Jinbao,RAO Wenbo,WANG Yigang.Using Geochemistry of Rare Earth Elements to Indicate Sediment Provenance of Sand Ridges in Southwestern Yellow Sea[J].Chinese Geographical Science,2017,27(1):63-77. 被引量：5
8梅廉夫,徐思煌,倪昌祥,徐文凯,刘安林,陈清琳,李春梅.Fracturing and Hydrocarbon Migration in Wangchang Area, Jianghan Basin[J].Chinese Science Bulletin,1994,39(19):1624-1628.
9DENG Tao.Linxia Basin:An Ancient Paradise for Late Cenozoic Rhinoceroses in North China[J].Bulletin of the Chinese Academy of Sciences,2010,24(2):103-106.
10WANG Chunlian,LIU Chenglin,YU Xiaocan,LI Haonan,LIU Jinlei.The Extremely Hot and Dry Climatic Events and Potash Enrichment in Salt Lakes of the Jiangling Depression, Jianghan Basin[J].Acta Geologica Sinica(English Edition),2016,90(2):769-770. 被引量：7

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