机构地区:[1]中国地震局地质研究所地震动力学国家重点实验室,北京100029 [2]中国地质科学院地质研究所、大陆构造与动力学国家重点实验室,北京100037
出 处:《地震地质》2014年第3期882-895,共14页Seismology and Geology
基 金:国家自然科学基金(40972146);地震动力学国家重点实验室自主课题(LED2009A01)共同资助
摘 要:汶川地震发震断层为高角度逆断层,这种断层滑动和发生强震需要断层深部具备特殊的力学条件.发震断层地区地表出露若干韧性剪切带,其中不同类型石英变形具有不同的变形温度.细粒糜棱岩中的石英表现为高温位错蠕变,变形温度为500~ 700℃;含残斑初糜棱岩中的石英表现为中温位错蠕变,其变形温度为400 ~ 500℃;早期石英脉中的石英表现为低温位错蠕变,变形温度为280~ 400℃;晚期石英脉以碎裂变形为主,其变形温度为150~ 250℃.石英的这些变形特征显示出断层带经历了多期脆-塑性转化.根据糜棱岩中的重结晶石英的粒度估计的断层塑性流动应力为15 ~ 80MPa.石英和长石内的微量水以晶体缺陷水、颗粒边界水和流体包裹体水的形式存在,水含量随岩石的应变增加而升高,变化范围为0.01~0.15wt%.断层脆-塑性转化带内石英含有大量与裂隙愈合相关的次生流体包裹体,其捕获温度为330~350℃,流体压力为70~405MPa,估计的流体压力系数为0.16~0.9,代表强震发生后,断层带内产生的大量微裂隙逐渐愈合过程中的流体特征.在考虑断层带流体压力和应变速率变化条件下,利用石英流变参数建立了从间震期到地震成核阶段断层脆-塑性转化带流变结构和震后快速蠕滑阶段断层脆-塑性转化带流变结构.结果表明,在间震期、地震成核阶段、震后快速滑动阶段,断层强度和脆-塑性转化深度随应变速率和流体压力变化而变化,且脆-塑性转化特征与石英的变形机制、断层速度弱化和强化转化深度、汶川地震震源深度等吻合,显示映秀-北川断层具备摩擦滑动速度弱化和地震成核的基础,而断层带内存在高压流体可能是触发高角度逆断层滑动和汶川地震发生的主要机制.The seismogenic fault of Wenchuan earthquake is a high-angle reverse-slip fault.It is necessary for the sliding of such a high-angle reverse fault and the triggering of the Wenchuan earthquake on it to have special mechanical conditions at the deep part of fault.In this study,we investigated the deformation mechanism of cataclastic-mylonite rocks in ductile shear zones found in the Yingxiu-Beichuan Fault.The deformation temperature and the flow stress of brittle-plastic transition of fault were estimated by the deformation fabrics of quartz.The water contents and the distribution of major minerals in mylonite were measured using Fourier transform infrared spectroscopy (FTIR).The fluid inclusions were measured using Raman and microprobe.The rehological structures of brittle-plastic transition of the Longmenshan Fault zone under different fluid pressure and strain rate conditions were constructed to discuss the role of the high fluid pressure in the seismogenic and occurrence mechanics of Wenchuan earthquake.The studies showed that inhomogeneous ductile deformation occurred in the brittle-plastic transition of the Yingxiu-Beichuan Fault.The complex deformation characters of quartz display different deformation temperatures in the ductile shear zone.The quartz in fine-grained mylonite was deformed by the grain boundary migration and recrystallization,implying the deformation temperature is from 500 to 700℃.The quartz in porphyroclastic mylonite was deformed by the subgrain rotation and recrystallization,implying the deformation temperature is from 400 to 500℃.The earlier quartz veins and healed cracks were deformed by the bulges and recrystallization,implying the deformation temperature is from 280 to 400℃.The later quartz veins which cut the earlier quartz veins were deformed by the cataclastics,indicating the deformation temperature is from 150 to 250℃.The deformation of quartz shows that the ductile shcar zone experienced multi-phase brittle-ductile transitions.Based on the grain size of recrystallize
分 类 号:P313[天文地球—固体地球物理学]
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