TY - JOUR
T1 - Megathrust earthquake potential of the Manila subduction systems revealed by the radial component of seismic moment tensors Mrr
AU - Lin, Jing Yi
AU - Wu, Wen Nan
AU - Lo, Chung Liang
N1 - Funding Information:
We thank Editor and anonymous reviewers for their helpful comments. Figures were prepared with the Generic Mapping Tool (GMT) software (Wessel and Smith 1998). Support from the Ministry of Science and Technology, Taiwan, under contract No. 104-2811-M-008-029 and 104-3113-M-008-001 is gratefully acknowledged.
PY - 2015/12
Y1 - 2015/12
N2 - We undertook an investigation of the seismic behavior of large earthquake and estimated the crustal deformation state in the northern Philippine area in terms of the radial component of seismic moment tensors (Mrr) distribution. Based upon these two analyses, the seismic potential of the Manila Trench has been assessed. Regarding the seismic characteristics of large earthquakes, results show that both the overriding and the subducting plates are under compressive stress before the main large events but are characterized by an extensional regime after mainshocks. In the northern Manila Trench area, the broad zone of extensional seismic activity along the trench and its neighboring areas shows a stress environment distinct from that of the interseismic environment of large earthquakes, suggesting that the plates are in a relaxed state instead of accumulating tectonic stress. Thus, the coupling between the two plates could be weak. Along the central Manila Trench, even though only few extensional earthquakes occurred near the trench, numerous negative Mrr events in the overriding plate indicate that the crust is affected by a dilatational regime and also suggests a relatively low coupling environment. In the southern Manila Trench, with the exception of a few extensional events that occurred locally in the Central Valley Basin, most earthquakes show compressive mechanisms. We suggest that a relatively high plate coupling exists along this portion of the trench and results in stress accumulation not only along the plate interface but also in its vicinity, within the subducting and overriding plates.
AB - We undertook an investigation of the seismic behavior of large earthquake and estimated the crustal deformation state in the northern Philippine area in terms of the radial component of seismic moment tensors (Mrr) distribution. Based upon these two analyses, the seismic potential of the Manila Trench has been assessed. Regarding the seismic characteristics of large earthquakes, results show that both the overriding and the subducting plates are under compressive stress before the main large events but are characterized by an extensional regime after mainshocks. In the northern Manila Trench area, the broad zone of extensional seismic activity along the trench and its neighboring areas shows a stress environment distinct from that of the interseismic environment of large earthquakes, suggesting that the plates are in a relaxed state instead of accumulating tectonic stress. Thus, the coupling between the two plates could be weak. Along the central Manila Trench, even though only few extensional earthquakes occurred near the trench, numerous negative Mrr events in the overriding plate indicate that the crust is affected by a dilatational regime and also suggests a relatively low coupling environment. In the southern Manila Trench, with the exception of a few extensional events that occurred locally in the Central Valley Basin, most earthquakes show compressive mechanisms. We suggest that a relatively high plate coupling exists along this portion of the trench and results in stress accumulation not only along the plate interface but also in its vicinity, within the subducting and overriding plates.
KW - Manila Trench
KW - Seismic moment tensor
KW - Seismic potential
KW - Seismogenic zone
UR - http://www.scopus.com/inward/record.url?scp=84955446127&partnerID=8YFLogxK
U2 - 10.3319/TAO.2013.04.29.01(TC)
DO - 10.3319/TAO.2013.04.29.01(TC)
M3 - 期刊論文
AN - SCOPUS:84955446127
SN - 1017-0839
VL - 26
SP - 619
EP - 630
JO - Terrestrial, Atmospheric and Oceanic Sciences
JF - Terrestrial, Atmospheric and Oceanic Sciences
IS - 6
ER -