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渐新世以来南海北部陆坡区沉积演化及其对构造的响应
Sedimentary evolution in the northern slope of South China Sea since Oligocene and its responses to tectonics

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文摘 通过对南海北部陆坡下部ODP1148站位沉积物中陆源矿物组分的含量、堆积速率、粒度、石英氧同位素及石英扫描电镜的分析,探讨南海沉积演化及其构造响应。结果显示,根据综合指标的变化特征可将南海海盆的沉积演化划分为5个阶段:扩张初期(34~28.5 Ma)、构造活动剧烈期(28.5~23 Ma)、构造活动减弱期(23~16.5 Ma)、热沉降期(16.5?3.5 Ma)和台湾隆升形成期(3.5 Ma?现今)。其中28.5?23 Ma为物源转换期,陆源矿物组成和石英氧同位素值发生了明显改变,对应南海渐新世以来演化过程中构造活动最为活跃的时期。在此之前的渐新世南海扩张初期,研究区的沉积物主要来源于南部(很可能来自巴拉望陆块);随着南海的不断扩张,尤其是南海扩张轴在25?23 Ma发生向南跳跃后,南部巴拉望陆块不断远去,而此时由于青藏高原隆升导致的区域地貌变化还没有波及到云贵高原和华南地区,珠江等大河尚未发育,因此研究区以北的华南大陆的影响还很小或根本没有影响到研究区,结果陆源矿物沉积速率极低。随后由于青藏高原隆升的高度不断增加,河流发育,溯源侵蚀增加,华南内陆古老的沉积岩区成为南海北部主要物源区,南海北部转为以远源沉积为主,直到3.5 Ma前后由于台湾岛的抬升,大量物质进入南海北部,成为主要物源。物源转换期间在南海不断扩张的构造运动背景下由于物源供应匮乏,加上海平面的上升和较强的底流作用导致了ODP1148站位渐新世晚期的沉积间断。
其他语种文摘 We here reconstruct the sedimentary evolution of South China Sea since Oligocene using samples from Ocean Drilling Program (ODP) site 1148 in the northern South China Sea based on a multi-proxy approach including monomineralic quartz oxygen isotope ratios (δ~18O), grain-size of isolated terrigenous materials, terrigenous mineral accumulation rate and SEM analysis of isolated quartz. It was found that the sedimentary evolution of South China Sea Basin could be divided into five stages: period of initial expansion (34~28. 5 Ma), period of intense tectonic activity (28.5~23 Ma), period of reduced tectonic activity (23~16. 5 Ma),period of thermal subsidence (16.5~3.5 Ma) and period of Taiwan uplift (3.5 Ma to present). Terrigenous mineral composition and oxygen isotope values of quartz altered significantly during 28.5~23 Ma which was the period of provenance transition, corresponding to the most active period of South China Sea since Oligocene. Sediment source of ODP Site 1148 was mainly from Palawan during the early spreading period of South China Sea. With the extensive spreading of South China Sea, especially when the spreading axes of South China Sea jump to south during 25~23 Ma, Palawan continental block moved away constantly, and the changes in the regional geomorphic change caused by Tibetan Plateau uplift had not spread to Yunnan-Guizhou Plateau and South China, so Southern China mainland in the north had little or no impact on the study area, as a result, terrigenous mass accumulation rate was very low. Subsequently, owing to the rapid uplift of Qinghai-Tibet Plateau, rivers such as Pearl River developed gradually, so did the headward erosion, as a result, South China turned to be the main source of ODP site 1148, and South China Sea converted to distal deposition. With Taiwan Island uplift since 3.5 Ma, a large amount of terrigenous sediments entered into the northern South China Sea, Taiwan turned to be the major source provenance of the study area. The hiatus of ODP site 1148 in the late Oligocene resulted from the lack of terrigenous material supply, sea level rise and relatively stronger currents during the source transformation.
来源 地球物理学报 ,2011,54(12):3233-3245 【核心库】
DOI 10.3969/j.issn.0001-5733.2011
关键词 南海 ; ODP1148站 ; 渐新世 ; 石英氧同位素比值 ; 陆源矿物 ; 物源
地址

中国科学院海洋研究所, 中国科学院海洋地质与环境重点实验室, 青岛, 266071

语种 中文
文献类型 研究性论文
ISSN 0001-5733
学科 地质学
基金 国家973计划 ;  中国科学院海洋地质与环境重点实验室开放基金项目资助
文献收藏号 CSCD:4415163

参考文献 共 57 共3页

1.  李家彪. 中国边缘海形成演化与资源效应,2008:228-240 CSCD被引 1    
2.  Ben-Avraham Z. The evolution of the China basin and the Mesozoic paleogeography of Borneo. Earth and Planetary Science Letters,1973,18(2):365-376 CSCD被引 49    
3.  Taylor B. The tectonic evolution of the South China Sea Basin. The Tectonic and Geologic Evolution of Southeast Asian Seas and Islands, Part 2,1983:23-56 CSCD被引 6    
4.  Briais A. Updated interpretation of magnetic anomalies and seafloor spreading stages in the South China Sea: implications for the Tertiary tectonics of Southeast Asia. Journal of Geophysical Research,1993,98(B4):6299-6328 CSCD被引 488    
5.  冯志强. 珠江口盆地的构造演化与南海之形成. 地质学报,1982,56(3):212-222 CSCD被引 10    
6.  张文佑. 中国及邻区海陆大地构造,1986:344-356 CSCD被引 5    
7.  姚伯初. 南海海盆新生代的构造演化史. 海洋地质与第四纪地质,1996,16(2):1-13 CSCD被引 121    
8.  姚伯初. 中国南海海域岩石圈三维结构及演化,2006:180-213 CSCD被引 9    
9.  刘昭蜀. 南海地质,2002:494-501 CSCD被引 3    
10.  姚伯初. 中美合作调研南海地质专报GMSCS,1994:1-204 CSCD被引 2    
11.  袁玉松. 琼东南盆地构造沉降史及其主控因素. 地球物理学报,2008,51(2):376-383 CSCD被引 49    
12.  姚伯初. 南海北部陆缘东部的地壳结构. 地球物理学报,1994,37(1):27-35 CSCD被引 77    
13.  Clift P. Erosional response of South China to arc rifting and monsoonal strengthening; a record from the South China Sea. Marine Geology,2002,184(3/4):207-226 CSCD被引 65    
14.  唐松. 南海渐新世以来粘土矿物的演变特征及意义. 沉积学报,2004,22(2):337-342 CSCD被引 26    
15.  庞雄. 白云运动:南海北部渐新统-中新统重大地质事件及其意义. 地质论评,2007,53(2):145-151 CSCD被引 126    
16.  邵磊. 珠江口盆地的沉积充填与珠江的形成演变. 沉积学报,2008,26(2):179-185 CSCD被引 46    
17.  苗卫良. 南海北部渐新世以来的稀土元素地球化学特征及其意义. 海洋地质与第四纪地质,2008,28(2):71-78 CSCD被引 26    
18.  吴国瑄. 南海深海相渐新统孢粉记录. 科学通报,2003,48(17):1868-1871 CSCD被引 24    
19.  Zhao Q H. Late Cainozoic ostracod faunas and paleoenvironmental changes at ODP Site 1148, South China Sea. Marine Micropaleontology,2005,54(1/2):27-47 CSCD被引 8    
20.  Li X H. Geochemical and Nd isotopic variations in sediments of the South China Sea: a response to Cenozoic tectonism in SE Asia. Earth and Planetary Science Letters,2003,211(3/4):207-220 CSCD被引 49    
引证文献 12

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