Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes

Pre-earthquake physical and chemical interactions in the earth’s ground may cause anomalies in latent heat flux, air and surface temperature. Earthquakes occur when the energy accumulated in rocks releases. Sometimes, the movements of the ground cause ruptures in the earth’s surface and sometimes th...

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Main Authors: Alvan, Habibeh Valizadeh, Azad, Farid Haydari, Mansor, Shattri
Format: Article
Language:English
Published: Committee on Space Research 2013
Online Access:http://psasir.upm.edu.my/id/eprint/28881/1/Latent%20heat%20flux%20and%20air%20temperature%20anomalies%20along%20an%20active%20fault%20zone%20associated%20with%20recent%20Iran%20earthquakes.pdf
http://psasir.upm.edu.my/id/eprint/28881/
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spelling my.upm.eprints.288812015-09-03T03:58:22Z http://psasir.upm.edu.my/id/eprint/28881/ Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes Alvan, Habibeh Valizadeh Azad, Farid Haydari Mansor, Shattri Pre-earthquake physical and chemical interactions in the earth’s ground may cause anomalies in latent heat flux, air and surface temperature. Earthquakes occur when the energy accumulated in rocks releases. Sometimes, the movements of the ground cause ruptures in the earth’s surface and sometimes the two sides of an existing fault shift towards each other. In a structurally complex and inhomogeneous collision region such as the Iranian Plateau, seismicity is not the result of activity of a single fault but is due to energy discharge in fault zones hundreds of kilometers wide. Changes in latent heat flux and temperature, on and above the earth’s surface can be detected with thermal infrared (TIR) sensors such as NOAA-AVHRR, Terra/Aqua-MODIS, etc. Spatio-temporal distributions of surface latent heat flux (SLHF) and air temperature before and after two recent earthquakes in Iran have been studied. Anomalous patterns of higher SLHF formed a few days before the earthquakes of 20 Dec 2010 (6M) and 27 Jan 2011(6.5M) occurred in Kerman province and disappeared after the main events. Data analyses revealed at least 2–4 °C rises in air temperature along the nearby fault zone, as well. These changes were also in accordance with the abnormal relative humidity over the region. Significant rises in SLHF and air temperature may lead us to understand the energy exchange mechanism during the earthquakes. These anomalies prior to impending earthquakes can be attributed to the thermodynamic, degassing and ionization processes which are believed to be activated by the accumulated stress in the ground, insensible movements of the tectonic blocks, and micro-fracturing in the rocks especially along area’s active faults. Continuous monitoring of these potential precursors helps in differentiating earthquake related variations from seasonal changes and atmospheric effects. Committee on Space Research 2013-11 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/28881/1/Latent%20heat%20flux%20and%20air%20temperature%20anomalies%20along%20an%20active%20fault%20zone%20associated%20with%20recent%20Iran%20earthquakes.pdf Alvan, Habibeh Valizadeh and Azad, Farid Haydari and Mansor, Shattri (2013) Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes. Advances in Space Research, 52 (9). pp. 1678-1687. ISSN 0273-1177 10.1016/j.asr.2013.08.002
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
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country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Pre-earthquake physical and chemical interactions in the earth’s ground may cause anomalies in latent heat flux, air and surface temperature. Earthquakes occur when the energy accumulated in rocks releases. Sometimes, the movements of the ground cause ruptures in the earth’s surface and sometimes the two sides of an existing fault shift towards each other. In a structurally complex and inhomogeneous collision region such as the Iranian Plateau, seismicity is not the result of activity of a single fault but is due to energy discharge in fault zones hundreds of kilometers wide. Changes in latent heat flux and temperature, on and above the earth’s surface can be detected with thermal infrared (TIR) sensors such as NOAA-AVHRR, Terra/Aqua-MODIS, etc. Spatio-temporal distributions of surface latent heat flux (SLHF) and air temperature before and after two recent earthquakes in Iran have been studied. Anomalous patterns of higher SLHF formed a few days before the earthquakes of 20 Dec 2010 (6M) and 27 Jan 2011(6.5M) occurred in Kerman province and disappeared after the main events. Data analyses revealed at least 2–4 °C rises in air temperature along the nearby fault zone, as well. These changes were also in accordance with the abnormal relative humidity over the region. Significant rises in SLHF and air temperature may lead us to understand the energy exchange mechanism during the earthquakes. These anomalies prior to impending earthquakes can be attributed to the thermodynamic, degassing and ionization processes which are believed to be activated by the accumulated stress in the ground, insensible movements of the tectonic blocks, and micro-fracturing in the rocks especially along area’s active faults. Continuous monitoring of these potential precursors helps in differentiating earthquake related variations from seasonal changes and atmospheric effects.
format Article
author Alvan, Habibeh Valizadeh
Azad, Farid Haydari
Mansor, Shattri
spellingShingle Alvan, Habibeh Valizadeh
Azad, Farid Haydari
Mansor, Shattri
Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes
author_facet Alvan, Habibeh Valizadeh
Azad, Farid Haydari
Mansor, Shattri
author_sort Alvan, Habibeh Valizadeh
title Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes
title_short Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes
title_full Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes
title_fullStr Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes
title_full_unstemmed Latent heat flux and air temperature anomalies along an active fault zone associated with recent Iran earthquakes
title_sort latent heat flux and air temperature anomalies along an active fault zone associated with recent iran earthquakes
publisher Committee on Space Research
publishDate 2013
url http://psasir.upm.edu.my/id/eprint/28881/1/Latent%20heat%20flux%20and%20air%20temperature%20anomalies%20along%20an%20active%20fault%20zone%20associated%20with%20recent%20Iran%20earthquakes.pdf
http://psasir.upm.edu.my/id/eprint/28881/
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