Foreshock Characteristics in Taiwan: Potential Earthquake Warning

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Foreshock Characteristics in Taiwan: Potential Earthquake Warning Cheng-Horng Lin Institute of Earth Sciences, Academia Sinica 2010/9/14

Outline Foreshocks and potential applications Previous foreshock studies Foreshocks in Chengkung earthquake (ML=6.6) Examine other foreshocks in Taiwan Discussion and conclusions

Five Precursors listed by IASPEI (International Association for Seismology and Physics of the Earth s interior) * Ground-water Chemistry and Temperature Izu-Oshima-Kinka Earthquake (M=7.0), Japan, 1978 * Ground-water Level (Roeloffs and Quilty) Kettleman Hills earthquake (M=6.1), California, 1985 * Foreshocks (days or weeks) (Wu et al., 1991) Haichen earthquake (M=7.3), China, 1975 * Preshocks (1-year before) (Bowman, 1997) Tennant Creek earthquake, Austria, 1988 * Seismic quiescence (Matsu ura, 1986, 1991) Several cases in Japan

What s foreshock? San Andreas Fault Foreshocks in Parkfield (Jones, 1984, BSSA)

Mechanisms Dilatancy model: Micro-cracking in Lab Foreshocks?

Why not all of the mainshocks with foreshocks? What s foreshock mechanism? Are there some foreshocks in Taiwan?

Previous Studies

The strike-slip system (Abercrombie and Mori, 1996, Nature) 59 events (M > 5) Foreshocks 1. Focal depths 2. Fault types

Foreshocks focal depths (Abercrombie and Mori, 1996, Nature) Probability (%) No. of mainshocks Heterogeneity == Homogeneity

Foreshocks Fault types (Abercrombie and Mori, 1996, Nature)? (No. of mainshocks) Foreshocks were largely found at normal and strike-slip faults: Foreshocks normal stress

Foreshocks in Taiwan? (Reverse-faulting) Eurasian Plate Philippine Sea Plate Strike-slip faulting

成功地震 (2003/12/10)

Foreshocks

Chengkung Earthquake Sequences 1. Foreshock (M=5.1) in mantle 2. Foreshock (M=4.1) in mid-crust 3. Mainshock (M=6.6) in lower crust 4. Aftershocks in crust 1. Time 2. Space 3. Stress

The major plate boundary between the Philippine Sea plate and the Eurasian plate along the suture in the eastern Taiwan area could be clearly delineated by a variable-dip plane according to the 2003 earthquake sequence (foreshocks, the mainshock and aftershocks) from the surface down to 42 km at least. Plate Boundary Eurasian Plate Philippine Sea Plate

Other larger events in the past (ML > 5.0)

1992/05

1992/05-fps (Dziewonski et al., 1981)

All of 6 mainshocks (M>5): 50-foreshocks

Reverse-faultings

Foreshocks Heterogeneity The foreshocks in the reverse faulting system might not be associated with normal stress on the fault plane, but they may largely depend on a higher degree of heterogeneity in the crust.

Potential Precursors All of six larger earthquakes (M>5) had significant foreshocks in the Chengkung area of eastern Taiwan during the past two decades. Therefore, foreshocks might be considered as a precursor for the future large earthquake in the Chengkung area, eastern Taiwan.

How to identify Foreshocks? If a felt earthquake (i.e., M=5) occurs now, how do we know it is the mainshock or just a foreshock? If we can know it is a foreshock, then a short-term earthquake warning can be issued.

Foreshock characteristics (~15,000 events/year) Eurasian Plate Philippine Sea Plate

Eurasian Plate Examine 161 events (M>5) in the past. Foreshock criteria: 1. Time <5 days 2. Distance < 15 km 3. M>4.0 (felt events) Philippine Sea Plate

How to distinguish foreshocks from the mainshock? The absence of clustered earthquakes after the felt foreshocks a criterion to distinguish foreshocks from the main shock.

Conclusions 1. Repeated foreshocks in the Cheng-Kung area imply they might be considered as a precursor for future larger earthquakes. 2. The foreshocks may largely depend on a higher degree of heterogeneity in the crust, particularly along the suture zone. 3. The absence of clustered earthquakes after the felt foreshocks may provide a criterion to distinguish foreshocks from the main shock and may add to our ability of earthquake warnings. Thanks!

Foreshocks Normal stress Normal stress increases with both of (1) focal depths and (2) also from normal to reverse faulting environments. Therefore, increasing normal stress inhibits foreshock occurrence!?

Foreshocks Normal stress Therefore, increasing normal stress inhibits foreshock occurrence!?

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