摘要:The asperity model was developed to explain plate boundary behavior such as interplate earthquakes.Asperity is defined as a strongly-coupled region on the plate interface.Since interplate earthquakes are considered to occur on asperities, it is important to know the asperity distribution, which can be inferred from interseismic crustal deformation through estimation of the slip deficit distribution.Slip deficit is the difference between the long-term plate convergence rate and the actual relative displacement rate of the plate interface.It is a kinematic description of plate interaction.The relation between the estimated slip deficit and the asperity is still not clearly understood.We have conducted a quantitative comparison between them by combining a forward simulation of crustal deformation, as a result of plate subduction, and a geodetic data inversion.We found that the seismic moment accumulation rate is likely to be overestimated in most cases.The degree of overestimation increases in the case of small asperity areas.Conversely, if no slip deficit is detected by geodetic data inversion, it is highly probable that no asperity exists.Such a misinference may lead to an incorrect estimation of strong ground motion in future earthquakes, and appropriate measures should be taken to allow for this. Key words Asperity crustal deformation geodetic data inversion interplate earthquake slip deficit.
关键词:Asperity ;crustal deformation ;geodetic data inversion ;interplate earthquake ;slip deficit