南海构造变形分区及成盆过程

雷超; 任建业; 张静

doi:10.3799/dqkx.2015.062

南海构造变形分区及成盆过程

doi: 10.3799/dqkx.2015.062

雷超^{1, 2,},
任建业^{1, 2},
张静^{1, 2}

1.
中国地质大学构造与油气资源教育部重点实验室, 湖北武汉 430074
2.
中国地质大学资源学院, 湖北武汉 430074

基金项目:

国家自然科学基金 41302082

国家自然科学基金 41272121

国家自然科学基金 91028009

国家自然科学基金 41102071

高等学校学科创新引智计划资助 B14031

中国博士后科学基金面上项目 2013M531762

特别资助项目 2014T70755

详细信息

作者简介:
雷超(1984-), 男, 博士, 主要从事沉积盆地动力学、海洋地质和油气地质的教学和研究工作.E-mail: clei@cug.edu.cn

中图分类号: P541
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- 被引次数: 0
出版历程
- 收稿日期: 2014-08-11
- 刊出日期: 2015-04-01

Tectonic Province Divisions in the South China Sea: Implications for Basin Geodynamics

Lei Chao^{1, 2
,},
Ren Jianye^{1, 2},
Zhang Jing^{1, 2}

1.
Key Laboratory of Tectonics and Petroleum Resources of Ministry of Education, China University of Geosciences, Wuhan 430074, China
2.
Faculty of Earth Resources, China University of Geosciences, Wuhan 430074, China

摘要

摘要: 为了系统认识新生代南海沉积盆地形成演化过程和成盆机制, 在对南海及其周缘区域构造和沉积研究进展调研的基础上, 利用覆盖南海主要盆地新近采集和重处理的地震剖面开展详细的构造-地层分析.基于盆地结构构造、演化特征和成盆动力学的差异性, 以红河-越东-Lupar线大型走滑构造带为界, 将南海及其周缘沉积盆地划分为古南海俯冲拖拽构造区沉积盆地群和挤出-逃逸构造区沉积盆地群, 前者主要是古南海俯冲及其所引起的区域构造变形形成的盆地, 包括北部湾、琼东南、珠江口、曾母、北康、文莱-沙巴和礼乐等盆地, 后者是印度-欧亚大陆碰撞导致印支地块挤出和旋转形成的盆地, 如莺歌海、湄公、中建南、万安等盆地.最后, 结合周缘板块动力学事件和本次对盆地构造研究的成果, 特别是盆地中重要界面属性的重新厘定, 建立了南海及其周缘沉积盆地演化过程.
- 南海 /
- 构造变革界面 /
- 古南海 /
- 挤出逃逸构造 /
- 海洋地质
Abstract: In order to better understand the evolution and mechanism of Cenozoic sedimentary basins in the South China Sea, we employed tectono-stratigraphic analysis on the sedimentary basins in the South China Sea. Reviewing the previous studies on the tectonics and sedimentation in the South China Sea and its peripheral regions, we used a compilation of newly acquisition and reprocessed seismic reflection profiles covering the large basins and got a clear result of the basins in the South China Sea with different basin structures, evolutions and mechanism. Considering the nature of the basin developed in the South China Sea, we suggested in our paper that the basins in the South China Sea can be divided into two sedimentary basin groups by a tectonic boundary, which is characterized by a transform boundary of the Red River fault extended south along the Vietnamese margin and joined with the trench along the Lupar line. These two basin groups are collsion-extrusion tectonic province basin group and Proto-South China Sea slab pull tectonic province basin group. The Proto-South China Sea tectonic province basin group is strongly controlled by the southward subduction of Proto-South China Sea. These basins include Beibuwan, Qiongdongnan, Pearl River Mouth, Zengmu, Beikang, Brunei-Sabah, Liyue basins and so on.However, the evolution of the collision-extrusion tectonic province basin group is controlled by the extrusion toward the southeast and rotation of Indochina block, which is as a result of the indentation of rigid India into Asia. This kind of basins mainly includes Yinggehai, Zhongjiannan, Mekong, Wan'an basins and so on. Considering the peripheral plate dynamic events, the tectonics of these basins and significant boundaries refined on the seismic profiles, the evolution of the South China Sea and its peripheral regions is reconstructed in our paper.
- the South China Sea /
- tectonic revolutionary boundary /
- Proto-South China Sea /
- collision-extrusion tectonics /
- marine geology

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图 2 基于南海海底磁异常条带7A、7、6A1和5C恢复南海的扩张历史

据Briais et al.(1993)；Barckhausen and Roeser(2004)；Hsu et al.(2004); Cullen(2010)

Fig. 2. Schematic opening history of the South China Sea oceanic spreading system at Magnetic Anomalies 7A, 7, 6A1, 5C

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图 1 南海及其陆缘主要新生代沉积盆地分布(底图据中国地图，中国地图出版社，2013)

1.莺歌海盆地；2.琼东南盆地；3.北部湾盆地；4.珠江口盆地；5.台西南盆地；6.台西盆地；7.笔架南盆地；8.中建南盆地；9.曾母盆地；10.湄公盆地；11.万安盆地；12.南薇西盆地；13.北康盆地；14.文莱-沙巴盆地；15.南沙海槽盆地；16.礼乐盆地；17.西北巴拉望盆地

Fig. 1. Main Cenozoic sedimentary basins in the South China Sea and its adjacent area

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图 3 南海构造演化两种模式

RRZ.红河断裂带；MPF.Mae Ping断裂带；WBL.西Baram线；EVNF.越东断裂带；a为挤出模式，b为俯冲模型；据Cullen(2010)

Fig. 3. Comparison of two different tectonic models

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图 4 南海及其周缘盆地沉积―构造演化和区域动力学事件

Fig. 4. Tectonosedimentary evolution and regional tectonic events in the South China Sea and its adjacent area

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图 5 古南海俯冲拖拽构造区沉积盆地构造-地层特征

Fig. 5. Structure and stratigraphy characteristics of the sedimentary basins in the Proto-South China Sea slab pull tectonic province

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图 7 南海南部构造演化和主要沉积盆地演化划分

图中婆罗洲演化据Madon, 1999, 南海南部盆地演化和性质确定由作者增加

Fig. 7. Tectonic evolution and sedimentary basin evolution divisions in the southern margin of the South China Sea

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图 6 挤出-逃逸构造区沉积盆地构造-地层特征

Fig. 6. Structure and stratigraphy characteristics of the sedimentary basins in the collision-extrusion tectonic province

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图 8 婆罗洲北部海域文莱-沙巴盆地主要构造界面及其与婆罗洲陆上地质剖面对比

岩性地层特征和图a据Cullen(2010)，图b据Hutchisin et al.(2004)，图c据Clements and Hall(2011)

Fig. 8. Important regional sequence boundaries in the Brunei-Sabah basin and their correlation with the geological profiles on the Boneo block

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图 9 南海及其周缘构造演化过程

Fig. 9. Tectonic evolution in the South China Sea and its periphery area

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