Advances in understanding of the mechanism for generation of earthquake thermal precursors detected by satellites |
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Authors: | Arun K Saraf Vineeta Rawat Swapnamita Choudhury Sudipta Dasgupta Josodhir Das |
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Institution: | 1. Department of Earth Sciences, Indian Institute of Technology Roorkee, Roorkee 247667, India;2. Wadia Institute of Himalayan Geology, Dehradun, India;3. Reliance Industries Limited, Navi Mumbai, India;4. Department of Earthquake Engineering, Indian Institute of Technology Roorkee, Roorkee 247667, India |
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Abstract: | Stresses building up during an earthquake preparation phase also manifest themselves in the form of a so called increased land surface temperature (LST) leading to a thermal precursor prior to the earthquake event. This phenomenon has now been validated by our observations of short-term thermal anomalies detected by infrared satellite sensors for several recent past earthquakes around the world. The rise in infrared radiance temperature was seen to vary between 5 and 12 °C for different earthquakes. We discuss in this paper different explanations for the generation of such anomalies that have been offered. Emission of gases due to the opening and closure of micropores upon induced stresses and also the participation of ground water have been propounded as a possible cause for generation of thermal anomalies. Seismo-ionosphere coupling, by which gases like radon move to the earth–atmosphere interface and cause air ionization thus bringing about a change in air temperature, relative humidity, etc., has been put forth by some workers. A mechanism of low frequency electromagnetic emission was tested and experimented by scientists with rock masses in stressed conditions as those that exist at tectonic locations. The workers proposed the positive hole pair theory, which received support from several scientific groups. Positive holes (sites of electron deficiency) are activated in stressed rocks from pre-existing yet dormant positive hole pairs (PHPs) and their recombination at rock–air interface leads to a LST rise. A combination of remote sensing detection of rock mechanics behavior with a perception of chemistry and geophysics has been applied to propose the remote sensing rock mechanics theory. Remote sensing detections of such anomalies confirm so far proposed lab theories for such a hotly debated field as earthquake precursor study by providing unbiased observations with consistency in time and space distribution. |
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Keywords: | Earthquake Land surface temperature Thermal infrared anomaly Positive hole theory |
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