Detection of Seismic Microwave Radiation Anomalies in Snow-Covered Mountainous Terrain: Insights From Two Recent Earthquakes in the Pamir–Tien Shan Region

IF 4.7 2区 地球科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing Pub Date : 2024-10-01 DOI:10.1109/JSTARS.2024.3472045
Feng Jing;Meng Jiang;Ramesh P. Singh
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Abstract

When earthquakes occur in high-mountain areas during the winter season, the epicentral region is often covered by a snow layer, which can be either thin or thick. The presence of snow and/or ice layers affects the detection of thermal anomalies associated with seismic signals. Taking into account the penetration capabilities of microwaves, microwave brightness temperature data were analyzed by using the index of microwave radiation anomaly to study the response of the epicentral region associated with two recent strong earthquakes in Central Asia, which occurred in snow-covered mountainous areas. Increased microwave radiation was observed within one week prior to the earthquakes. By conducting a comparative analysis of different frequencies and a comprehensive examination of meteorological parameters, we distinguished anomalies caused by tectonic activity from those induced by atmospheric water vapor. A robustness analysis from the periods of seismic tranquility and seismic disturbance has been conducted to validate our results. Our findings suggest that regions with less snow cover or shallow snow depth may exhibit high sensitivity to seismic microwave radiation anomalies in high-altitude mountainous areas during the cold season, which can be detected through passive microwave remote sensing. Combined with a further analysis from microwave polarization difference index and distribution of regional lithology, we proposed that the theory of positive holes may be the dominant mechanism for enhanced microwave radiation.
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在积雪覆盖的山区地形中探测地震微波辐射异常:帕米尔-天山地区最近两次地震的启示
冬季在高山地区发生地震时,震中地区往往被薄或厚的雪层覆盖。雪层和/或冰层的存在会影响与地震信号相关的热异常的探测。考虑到微波的穿透能力,利用微波辐射异常指数对微波亮度温度数据进行了分析,以研究与中亚最近发生在积雪覆盖山区的两次强震相关的震中地区的反应。在地震发生前一周内观测到微波辐射增加。通过对不同频率的比较分析和对气象参数的全面研究,我们区分了由构造活动引起的异常和由大气水汽引起的异常。为了验证我们的结果,我们对地震平静期和地震扰动期进行了稳健性分析。我们的研究结果表明,在寒冷季节,积雪覆盖较少或积雪深度较浅的地区可能对高海拔山区的地震微波辐射异常表现出较高的灵敏度,这可以通过被动微波遥感探测到。结合微波极化差指数和区域岩性分布的进一步分析,我们提出正洞理论可能是微波辐射增强的主导机制。
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来源期刊
CiteScore
9.30
自引率
10.90%
发文量
563
审稿时长
4.7 months
期刊介绍: The IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing addresses the growing field of applications in Earth observations and remote sensing, and also provides a venue for the rapidly expanding special issues that are being sponsored by the IEEE Geosciences and Remote Sensing Society. The journal draws upon the experience of the highly successful “IEEE Transactions on Geoscience and Remote Sensing” and provide a complementary medium for the wide range of topics in applied earth observations. The ‘Applications’ areas encompasses the societal benefit areas of the Global Earth Observations Systems of Systems (GEOSS) program. Through deliberations over two years, ministers from 50 countries agreed to identify nine areas where Earth observation could positively impact the quality of life and health of their respective countries. Some of these are areas not traditionally addressed in the IEEE context. These include biodiversity, health and climate. Yet it is the skill sets of IEEE members, in areas such as observations, communications, computers, signal processing, standards and ocean engineering, that form the technical underpinnings of GEOSS. Thus, the Journal attracts a broad range of interests that serves both present members in new ways and expands the IEEE visibility into new areas.
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