• DocumentCode
    2195722
  • Title

    Importance of lithosphere-coversphere-atmosphere coupling to earthquake anomaly recognition

  • Author

    Wu, Lixin ; Qin, Kai ; Liu, Shanjun ; De Santis, Angelo ; Cianchini, Gianfranco

  • Author_Institution
    Beijing Normal Univ., Beijing, China
  • fYear
    2012
  • fDate
    22-27 July 2012
  • Firstpage
    3532
  • Lastpage
    3535
  • Abstract
    The GEOSS under construction is providing space-,aero-,ground/sea-based multiple observations on planet Earth for the seismogenic process monitoring and earthquake precaution. The stress enhancement and energy accumulation in seismic activity area change locally the physical parameters of lithosphere with the developing of a series of effects that can comprise most of the following ones: initial cracks, the fracturing of rockmass, the changing of electromagnetic properties, the decreasing of dielectric constant, the re-activation of P-holes, the leaking of pore-gas, and the rise of water-level. The physical states of coversphere and atmosphere are to be affected due to the lithosphere-coversphere-atmosphere (LCA) coupling, and the signals from the underground, surface, and atmosphere to satellites are to be changed with parameter anomaly. We suggested that the LCA coupling is important for understanding GEOSS observations, especially for earthquake anomaly recognition (EAR). Using deviation-time-space-thermal (DTS-T) method for EAR, three recent major earthquakes (2009 Italy L´Aquila earthquake, 2010 China Yushu earthquake and 2010-2011 New Zealand earthquake sequence) are taken as typical cases for analysis to the multi-parameters anomalies, preceding the shocking, with quasi-synchronism and geo-consistency. The specific LCA coupling effects related with the earthquakes are also discussed in brief.
  • Keywords
    earthquakes; faulting; seismology; China Yushu earthquake; EAR; Earth observation; GEOSS observations; Italy L´Aquila earthquake; New Zealand earthquake sequence; P-holes; cracks; deviation-time-space-thermal method; dielectric constant; earthquake anomaly recognition; earthquake precaution; electromagnetic properties; energy accumulation; geo-consistency; lithosphere-coversphere-atmosphere coupling; multi-parameters anomalies; parameter anomaly; pore-gas; rockmass fracturing; seismic activity area; seismogenic process monitoring; stress enhancement; water-level; Couplings; Earthquakes; Electromagnetic heating; Land surface; Rocks; Satellites; Terrestrial atmosphere; GEOSS; earthquake anomaly recognition (EAR); lithosphere-coversphere-atmosphere (LCA) coupling; multiple parameters;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Geoscience and Remote Sensing Symposium (IGARSS), 2012 IEEE International
  • Conference_Location
    Munich
  • ISSN
    2153-6996
  • Print_ISBN
    978-1-4673-1160-1
  • Electronic_ISBN
    2153-6996
  • Type

    conf

  • DOI
    10.1109/IGARSS.2012.6350657
  • Filename
    6350657