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秦祁接合带造山缝合带磁组构特征及其构造意义
引用本文:梁文天, 张国伟, 鲁如魁, 裴先治, 靳春胜, 王建其. 秦祁接合带造山缝合带磁组构特征及其构造意义[J]. 地球物理学报, 2009, 52(1): 140-149,
作者姓名:梁文天  张国伟  鲁如魁  裴先治  靳春胜  王建其
作者单位:大陆动力学国家重点实验室,西北大学地质学系,西安,710069;长安大学地球科学与国土资源学院,西安,710054;中国科学院地质与地球物理研究所,北京,100029
基金项目:国家自然科学基金重点项目 
摘    要:结合构造及磁化率各向异性研究详细解剖了秦祁接合带唐藏—关子镇—武山和新阳—元龙造山缝合带的应变及岩组特征.41个采点168个构造岩样品的平均磁化率全部较低,磁化率椭球形态分析表明其以平面和压扁应变为主,磁化率各向异性度普遍较高,属强变形岩石组构类型,结合野外观察认为其与变形强度明显正相关.此外,磁化率各向异性参数T、P′可能受岩石类型一定程度的影响.磁化率椭球主轴方位与变形密切相关,提供了丰富的岩组信息.两构造带具有类似的岩组特征,磁面理大致分为呈共轭形态的两组,暗示高应变剪切带在平面上可能以网格状形态出露;高倾伏角磁面理与占优势的低倾伏角、近水平磁线理表明了构造带明显的走滑特征,部分高角度磁线理可能与构造带的挤压和(或)转换挤压相关;磁组方法不能简单用于判别复杂强变形带的运动指向,糜棱面理的复杂变化及Kmin与构造带夹角过高使其判别结果意义不明,而野外及显微构造观察都表明了构造带的右行走滑特征.上述结果表明,沿缝合带大规模的右行转换挤压形成了秦祁接合带反“S”型的平面构造形态,暗示在南北板块拼合过程中,西秦岭诸中、小块体一定程度的向西挤逸.

关 键 词:新阳-元龙  唐藏-关于镇-武山  磁组构(AMS)  缝合带  剪切带  秦祁接合带
收稿时间:2008-03-10
修稿时间:2008-06-20

Magnetic fabric study and its tectonic significance of suture zones in joint area of Qinling and Qilianshan
LIANG Wen-Tian, ZHANG Guo-Wei, LU Ru-Kui, PEI Xian-Zhi, JIN Chun-Sheng, WANG Jian-Qi. Magnetic fabric study and its tectonic significance of suture zones in joint area of Qinling and Qilianshan[J]. Chinese Journal of Geophysics (in Chinese), 2009, 52(1): 140-149,
Authors:LIANG Wen-Tian  ZHANG GUO-Wei  LU Ru-Kui  PEI Xian-Zhi  JIN Chun-Sheng  WANG Jian-Qi
Affiliation:1 Key laboratory of Continental Dynamics, Northwest University, Xi′an 710069, China; 2 College of Earth Science and Land Resources, Chang′an University, Xi′an 710054, China; 3 Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing 100029, China
Abstract:Tangzang-Guanzizhen-Wushan and Xinyang-Yuanlong tectonic zones are the major suture zones in joint area of Qinling and Qilianshan mountains. Structure analysis and the anisotropy of low-field magnetic susceptibility (AMS) of 168 samples from 41 sites was measured to determine the strain and fabric of the high strain shear zone in the suture zones. Most of the mean susceptibilities (Km) are low. Magnetic ellipsoid analysis displays that most of the samples are dominated by shear and oblate compressional fabric, and have high values of anisotropy magnitude which increases with the intensity of deformation. Caution should be exercised when use T and P′ to deduce the shape of magnetic ellipsoid and the deformation intensity for they are also affected by rock types. The directions of principle susceptibilities are closely related to deformation, the magnetic foliations defined by Kmax and Kint are divided into two conjugate groups that imply the gridding configuration of high strain shear zone; clustered foliation and more scattered lineation are attributed to the shearing and flattening regime. Most of the samples have steep magnetic foliations and subhorizontal magnetic lineations and others have steep lineation, which demonstrate the transpressional characteristics of the shear zone. And shear sense of complex high strain zone inferred from magnetic fabric may be unreliable or even wrong for variation of the foliation attitude across the shear zone and great angle between Kmin and the striking of shear zone.
Keywords:Xinyang-Yuanlong zone   Tangzang-Guanzizhen-Wushan zone   Magnetic fabric (AMS)   Suture zone   Shear zone   Joint area of Qinling and Qilianshan
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