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走滑断层研究进展及启示

肖坤泽 童亨茂

肖坤泽, 童亨茂, 2020. 走滑断层研究进展及启示. 地质力学学报, 26 (2): 151-166. DOI: 10.12090/j.issn.1006-6616.2020.26.02.015
引用本文: 肖坤泽, 童亨茂, 2020. 走滑断层研究进展及启示. 地质力学学报, 26 (2): 151-166. DOI: 10.12090/j.issn.1006-6616.2020.26.02.015
XIAO Kunze, TONG Hengmao, 2020. Progress on strike-slip fault research and its significance. Journal of Geomechanics, 26 (2): 151-166. DOI: 10.12090/j.issn.1006-6616.2020.26.02.015
Citation: XIAO Kunze, TONG Hengmao, 2020. Progress on strike-slip fault research and its significance. Journal of Geomechanics, 26 (2): 151-166. DOI: 10.12090/j.issn.1006-6616.2020.26.02.015

走滑断层研究进展及启示

doi: 10.12090/j.issn.1006-6616.2020.26.02.015
基金项目: 

国家油气重大专项 2016ZX05024-005-004

国家自然科学基金项目 41272160

详细信息
    作者简介:

    肖坤泽(1995-), 男, 在读硕士, 构造地质学。E-mail:x_kunze@163.com

    通讯作者:

    童亨茂(1967-), 男, 教授, 博士生导师, 主要从事盆地构造研究和教学工作。E-mail:tonghm@cup.edu.cn

  • 中图分类号: P542

Progress on strike-slip fault research and its significance

  • 摘要: 自走滑断层概念提出之后,走滑断层在地质科学研究上的重要性逐渐体现出来,并在几何学、运动学、动力学及其构造意义等方面取得了重要的认识,使得走滑断层的研究得到快速的发展,但其分类及其成因机制分析还存在一定的局限性。在走滑断层相关文献调研的基础上,文章对走滑断层原理、概念和相关术语发展历程进行了归纳总结,同时也对走滑断层的位移特征、识别标志、力学性质、走滑派生或伴生构造、走滑盆地特征、走滑断层分类及走滑断层实例等研究成果进行了系统性研究分析。在此基础上,结合走滑断层的力学机制,提出走滑断层新分类方式,并运用新的分类方式进一步对美国西海岸圣安德列斯断层、新西兰的阿尔卑斯断层和中国著名的郯庐断裂带以及阿尔金断裂带等典型断层进行简要分析。

     

  • 图  1  走滑断层与地层交互关系示意图(据Sylvester,1988修改)

    a—地层走向与断层走向一致;b—地层走向与断层走向斜交

    Figure  1.  ematic diagram of the interactive relationship between strike-slip fault and stratum(modified after Sylvester, 1988)

    图  2  花状构造示意图(据Christie-Blick and Biddle, 1985修改)

    a—负花状构造;b—正花状构造图

    Figure  2.  Schematic diagram of flower structure (modified after Christie-Blick and Biddle, 1985)

    图  3  海豚效应和丝带效应示意图(据Zolnai, 1991修改)

    Figure  3.  Schematic diagram of dolphin effect and dextral ribbon effect (modified after Zolnai, 1991)

    图  4  右行走滑断层特征

    a—右行力偶产生的走滑应变椭圆(据Harding, 1974修改);b—右行走滑断层主位移带(PDZ)构造组合(据Allen and Allen, 2005修改)

    Figure  4.  The features of the right-lateral (dextral) strike-slip fault (modified after Harding, 1974; Allen and Allen, 2005)

    图  5  简单剪切下雁型褶皱图(据Sylvester, 1988修改)

    a—右旋简单剪切下雁型褶皱;b—左旋简单剪切下雁型褶皱

    Figure  5.  Geometry of en echelon folds of a simple shear (modified after Sylvester, 1988)

    图  6  右旋走滑盆地沉积中心迁移示意图(据Crowell, 1982修改)

    Figure  6.  Schematic diagram of sedimentary center migration in the right-lateral strike-slip basin(modified after Crowell, 1982)

    图  7  走向N36°W直立走滑断层相关构造平面图(据Aydin et al., 1984Sylvester, 1988修改)

    a—纯剪切;b—简单剪切

    Figure  7.  Plan view of geometric relations among structures according to a vertical strike-slip fault which strikes N36°W(modified after Aydin et al., 1984; Sylvester, 1988)

    表  1  走滑断层新的分类方案

    Table  1.   A new classification method of strike-slip faults

    Ⅰ级类型Ⅱ级类型Ⅲ级类型实例分析
    主动走滑断层塔里木盆地塔北隆起共轭走滑断裂系(吴涛等,2007)
    被动走滑断层转换断层圣安德列斯断层(Crowell,1962)
    变换断层单式变换断层Morley et al.(1990)变换带分类方案中的类型
    复式变换断层琼东南盆地宝岛变换带(童亨茂等,2015)
    下载: 导出CSV
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  • 收稿日期:  2019-05-16
  • 修回日期:  2019-10-16
  • 刊出日期:  2020-04-28

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