南海东部海盆沉积物源与东亚季风演化:IODP U1431站地球化学与黏土矿物记录OA
Sediment sources and the evolution of the East Asian monsoon in the eastern South China Sea basin:geochemical and clay mineral records from IODP Site U1431
南海巨厚的新生代沉积物是研究青藏高原东缘"源-汇"过程和季风气候演化的关键载体.目前,对于南海沉积物源及季风气候的研究大多集中在浅海盆地,对于深海盆地研究相对匮乏,制约了对南海沉积物源及季风气候演化的整体认识.本文以南海东部海盆 IODP U1431站位沉积物为主要研究对象,该钻孔首次钻取到东部深海盆地的长时间连续沉积序列.分别选取 34和 31件泥岩样品进行主量元素和黏土组分(<2 μm)矿物学分析,对南海东部海盆深海平原沉积物源演化及东亚季风演化的响应进行了探讨.通过与北缘珠江口盆地对比,揭示南海不同构造单元沉积物供给的时空差异.综合主量元素、Sr-Nd同位素和碎屑锆石 U-Pb年龄数据分析表明,南海北缘珠江口盆地早期沉积物为华南大陆边缘岩体的近源剥蚀;25 Ma以来,随着珠江等华南沿海水系逐渐向华南内陆袭夺,华南大陆边缘岩体已成为珠江口盆地的主要物源,物源相对单一;而东部海盆深海平原U1431站位沉积物在12.8~6.5 Ma主要受到南海扩张后岩浆活动影响,越南东部及珠江为深海平原提供了部分陆源碎屑.晚中新世以来(~6.5 Ma),U1431站位沉积物主要来自于珠江、越南东部及台湾,物源更为复杂.黏土矿物分析结果表明,U1431钻孔泥岩中黏土矿物以伊利石和蒙脱石为主,绿泥石和高岭石的丰度较小.沉积物化学蚀变指数(CIA)和蒙脱石/(伊利石+绿泥石)比值表明,东亚季风在 8~6 Ma 相对较强,冬、夏季风同时增强;6~3 Ma,东亚季风强度有所减弱,冬季风相对夏季风更为减弱,夏季风保持相对稳定;约 3 Ma以来,东亚季风又有逐渐增强的趋势,夏季风减弱,冬季风相对夏季风明显增强.
The thick Cenozoic sediments in the South China Sea are the key carriers for the study of the"source-sink"process and monsoon climate evolution in the eastern margin of the Tibetan Plateau.At present,most of the studies on sediment sources and monsoon climate in the South China Sea focus on shallow basins.Studies on deep basins are relatively lack,which constrains our understanding of the sediment transport system and monsoon cli-mate evolution in the South China Sea.In this study,the deep-sea drill core from IODP Site U1431 in the eastern basin of the South China Sea was used as the main research object.The well was drilled for the first time into a long-time continuous sedimentary sequence in the eastern deep-sea basin.We selected 34 and 31 mudstone samples for mineralogical analyses of major elements and clay fractions(<2 μm),respectively,to explore the sediment source and the evolution of the deep-sea plains in the eastern South China Sea Basin and its response to the evolution of the East Asian monsoon.In addition,by comparing the material sources between the Pearl River Estuary Basin at the northern margin and the eastern basin,we revealed the spatial and temporal differences in sediment supply from different tectonic units in the South China Sea.The integrated principal elements,Sr-Nd isotopes,and detrital zircon U-Pb age data indicated that the early sediments in the Pearl River Mouth Basin at the northern margin of the South China Sea were the proximal sources of eroded continental margin rocks surround-ing the South China;since~25 Ma,the coastal water systems of South China,such as the Pearl River,gradually took inland rivers of South China,and subsequently the eroded continental margin became the main source of ma-terial to the Pearl River Estuary Basin in relatively simple composition.On the other hand,the sediment source at station U1431 in the abyssal plain of the eastern basin was mainly affected by the magmatic activity due to the ex-pansion of the South China Sea at 12.8-6.5 Ma,and the eastern part of Vietnam and the Pearl River contributed partial terrestrial detritus to the abyssal plain.Since~6.5 Ma,the sediments at station U1431 were mainly from the Pearl River,eastern Vietnam,and Taiwan,and the sources were more complicated.Clay mineral analyses showed that the clay mineral contents in the mudstone of U1431core are dominated by illite and smectite,and less abund-ant chlorite and kaolinite.The sediment chemical alteration index(CIA)and smectite/(illite+chlorite)ratio indic-ate that the East Asian monsoon was relatively strong from 8 to 6 Ma,and the winter and summer winds were strengthened at the same time.From 6 to 3 Ma,the East Asian monsoon was weakened.The winter winds were more weakened than the summer winds,while the summer winds remained relatively stable.Since~3 Ma,the East Asian monsoon was gradually strengthened again;the summer winds weakened,while winter winds were signific-antly strengthened in comparison to the summer winds.
刘兰;闫义;赵奇;孙永强;苟诗皓;刘文琪
中国科学院广州地球化学研究所深地过程与战略矿产资源全国重点实验室,广州 510640||中国科学院大学地球与行星科学学院,北京 100049中国科学院广州地球化学研究所深地过程与战略矿产资源全国重点实验室,广州 510640中国科学院广州地球化学研究所深地过程与战略矿产资源全国重点实验室,广州 510640中国科学院广州地球化学研究所深地过程与战略矿产资源全国重点实验室,广州 510640||中国科学院大学地球与行星科学学院,北京 100049中国科学院广州地球化学研究所深地过程与战略矿产资源全国重点实验室,广州 510640||中国科学院大学地球与行星科学学院,北京 100049中国地质大学(北京)地球物理与信息技术学院,北京 100083
海洋科学
东亚季风南海东部次海盆U1431钻孔黏土矿物化学蚀变指数
East Asian monsooneastern subbasin of the South China SeaSite U1431clay mineralsChemical Index of Alteration
《海洋地质前沿》 2026 (4)
16-27,12
国家重点研发计划"亚洲边缘海风化沉积记录及对构造与气候环境演化的响应"(2022YFF0800503)
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