杨小秋^1,2,3,,
林為人^4,5,
葉恩肇⁶,
许鹤华^1,2,3,
徐子英⁷
1. 中国科学院边缘海与大洋地质重点实验室, 南海海洋研究所, 广州 510301
2. 中国科学院南海生态环境工程创新研究院, 广州 510301
3. 南方海洋科学与工程广东省实验室(广州), 广州 511458
4. Graduate School of Engineering, Kyoto University, Kyoto 615-8540, Japan
5. Kochi Institute for Core Sample Research, Japan Agency for Marine-Earth Science and Technology, Nankoku, Kochi 783-8502, Japan
6. 台湾师范大学地球科学系, 台北 11677
7. 自然资源部海底矿产资源重点实验室, 广州海洋地质调查局, 广州 510075

基金项目: 国家自然科学基金项目（41874099，41474065，41981240687，41606080），日本科学技术研究经费支援项目（JSPS KAKENHI Grant Number JP16H04065），南方海洋科学与工程广东省实验室（广州）人才团队引进重大专项（GML2019ZD0104）及中国台湾科技部项目（MOST 106-2116-M-003-003）资助


详细信息

作者简介: 杨小秋, 男, 1981年, 博士, 研究员, 研究方向为地热地质与同震温度响应机制.E-mail:yxq2081@scsio.ac.cn

中图分类号: P314

收稿日期:2018-11-12
修回日期:2020-02-24
上线日期:2020-04-05

Analysis on the mechanisms of coseismic temperature negative anomaly in fault zones

YANG XiaoQiu^1,2,3,,
LIN Weiren^4,5,
YEH En-Chao⁶,
XU HeHua^1,2,3,
XU ZiYing⁷
1. Chinese Academy of Sciences Key Laboratory of Ocean and Marginal Sea Geology, South China Sea Institute of Oceanology, Guangzhou 510301, China
2. Innovation Academy of South China Sea Ecology and Environmental Engineering, Chinese Academy of Sciences, Guangzhou 510301, China
3. Southern Marine Science and Engineering Guangdong Laboratory(Guangzhou), Guangzhou 511458, China
4. Graduate School of Engineering, Kyoto University, Kyoto 615-8540, Japan
5. Kochi Institute for Core Sample Research, Japan Agency for Marine-Earth Science and Technology, Nankoku, Kochi 783-8502, Japan
6. Department of Earth Sciences, National Taiwan Normal University, Taibei 11677, China
7. Key Laboratory of Marine Mineral Resources, Ministry of Nature Resources, Guangzhou Marine Geological Survey, Guangzhou 510075, China


MSC: P314

--> Received Date: 12 November 2018
Revised Date: 24 February 2020
Available Online: 05 April 2020


摘要
摘要:断裂带同震温度响应，可在震后钻孔测温中获得并识别，为发震断层摩擦特性与发震机制等基础研究提供了非常独特的思路和有效手段.集集、汶川及日本东北大地震后，实施了台湾车笼埔断层钻探项目（TCDP）、汶川地震断裂带科学钻探工程（WFSD）和日本海沟快速钻探计划（JFAST）.钻孔测温结果表明：滑移面上下5~20 m范围内存在温度正异常，这是同震摩擦生热所致，该机制已被广泛认识和接受；同时，距滑移面20~60 m范围内也存在明显的温度负异常，但其成因机制几乎还未被真正关注和认识.虽然温度负异常峰值只有正异常峰值的1/4~1/3，但温度负异常分布范围却是正异常分布范围的3~4倍，即正、负温度异常区对应的总能量基本相当.因此，断裂带震后钻孔测温中的负异常及其成因不容忽视.在详细分析几种可能的同震温度负异常机制后（如岩层热物性分布差异、流体运移、表面自由能增大及同震应力释放），发现能在理论、实验及野外观测上都得到支撑的普适性机制只有同震应力释放.这可能是断裂带震后温度负异常的主要原因.
关键词: 同震温度响应机制/
应力释放/
表面自由能/
摩擦生热/
集集地震/
汶川地震/
日本东北地震

Abstract:The coseismic temperature responses can be recognized in the borehole temperature measurements in fault zones after earthquakes. It provides a unique idea and an effective mean for basic research about the friction features and seismogenic mechanisms of fault zones. Borehole temperature measurement results show that there were both positive and negative temperature anomalies that followed the 1999 Chi-Chi, 2008 Wenchuan and 2011 Tohoku earthquakes. The positive temperature anomaly (within 5~20 m away from fault slip surfaces) has been well known because of the frictional heating that occurred during coseismic faulting. However, the negative temperature anomaly (range of 20~60 m from fault slip surfaces) still has not been noted and expressly addressed. The amplitude of the negative temperature anomaly is 1/4~1/3 of that of the positive temperature anomaly; but the range of the negative temperature anomaly are 3~4 times of that of positive anomaly. In that case, the total of energy in the negative and positive areas is basically the same. Therefore, the negative anomalies in borehole temperature measurement and their causes can no longer be ignored. After a detailed analysis of several possible mechanisms of coseismic temperature negative anomalies (i.e., differences in distribution of thermal properties, fluid migration and increase of surface free energy), it is found that only coseismic stress release is a universal mechanism that can be supported in theory, experiment and field observation. This may be the main reason for the negative temperature anomaly in fault zones after earthquakes.
Key words:The mechanisms of coseismic temperature responses/
Coseismic stress release/
Surface free energy/
Frictional heating/
Chi-Chi earthquake/
Wenchuan earthquake/
Tohoku earthquake



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