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Exploration Geophysics Exploration Geophysics Society
Journal of the Australian Society of Exploration Geophysicists
RESEARCH ARTICLE

Estimation of site amplification and S-wave velocity profiles in metropolitan Manila, the Philippines, from earthquake ground motion records

Hiroaki Yamanaka 1 3 Kaoru Ohtawara 1 Rhommel Grutas 1 Robert B. Tiglao 2 Melchor Lasala 2 Ishmael C. Narag 2 Bartlome C. Bautista 2
+ Author Affiliations
- Author Affiliations

1 The Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama, Japan.

2 Philippine Institute of Volcanology and Seismology, CP Garcia Avenue, UP Campus, Diliman, Quezon City, the Philippines.

3 Corresponding author. Email: yamanaka@depe.titech.ac.jp

Exploration Geophysics 42(1) 69-79 https://doi.org/10.1071/EG11003
Submitted: 19 August 2010  Accepted: 7 November 2010   Published: 25 February 2011

Abstract

In this study, empirical site amplifications and S-wave velocity profiles for shallow and deep soils are estimated using earthquake ground motion records in metropolitan Manila, the Philippines. We first apply a spectral inversion technique to the earthquake records to estimate effects of source, path, and local site amplification. The earthquake data used were obtained during 36 moderate earthquakes at 10 strong-motion stations of an earthquake observation network in Manila. The estimated Q value of the propagation path is modelled as 54.6f1.1. Most of the source spectra can be approximated with the omega-square model. The site amplifications show characteristic features according to surface geological conditions. The amplifications at the sites in the coastal lowland and Marikina Valley shows predominant peaks at frequencies from 1 to 5 Hz, while those in the central plateau are characterised by no dominant peaks. These site amplifications are inverted to subsurface S-wave velocity. We, next, discuss the relationship between the amplifications and average S-wave velocity in the top 30 m of the S-wave velocity profiles. The amplifications at low frequencies are well correlated with the averaged S-wave velocity. However, high-frequency amplifications cannot be sufficiently explained by the averaged S-wave velocity in the top 30 m. They are correlated more with the average of S-wave velocity over depths less than 30 m.

Key words: earthquake observation, Manila, site amplification, S-wave velocity, Q-value, the Philippines.


References

Besana, G. M., Negishi, H., and Ando, M., 1997, The three-dimensional attenuation structures beneath the Philippine archipelago based on seismic intensity data inversion: Earth and Planetary Science Letters, 151, 1–11
The three-dimensional attenuation structures beneath the Philippine archipelago based on seismic intensity data inversion:Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK2sXlvFSntL0%3D&md5=0f2ac53f1ad83bce2374ee8b9015587cCAS |

Brune, J., 1970, Tectonic stress and the spectra of seismic share waves from earthquakes: Journal of Geophysical Research, 75, 4997–5009
Tectonic stress and the spectra of seismic share waves from earthquakes:Crossref | GoogleScholarGoogle Scholar |

Daligdig, J.A., and Besana, G.M., 1993, Seismological hazards in Metro Manila: Natural Disaster Prevention and Mitigation in Metropolitan Manila area: Department of Science and Technology, Philippine Institute of Volcanology and Seismology, 9–41.

Daligdig, J.A., Punongbayan, R. S., Besana, G.M., and Tungol, N. M., 1997, The Marikina Valley fault system: Active faulting in eastern Metro Manila: PHIVOLCS professional paper, 1, 1–20.

Gervasio, F. C., 1968, The geology, structures, and landscape development of Manila and suburbs: The Philippine Geologist, 22, 178–192

Iwata, T., and Irikura, K., 1986, Separation of source, propagation and site effects from observed S-waves: Zisin (Journal of the Seismological Society of Japan), 39, 579–593

Joyner, W. B., and Fumal, T. E., 1984, Use of measured shear wave velocity for predicting geologic and site effects on strong ground motion: Proceedings of the 8th World Conference on Earthquake Engineering, 2, 777–783.

Kato, K., Takemura, M., Ikeura, T., Urao, K., and Uetake, T., 1992, Preliminary analysis for evaluation of local site effect from strong motion spectra by an inversion method: Journal of Physics of the Earth, 40, 175–191
| 1:CAS:528:DyaK2MXmtlGjs7k%3D&md5=0ad69470dcace116c016ee57c3f46355CAS |

Kurita, K., Yamanaka, H., Ohmachi, T., Seo, K., Kinugasa, Y., Midorikawa, S., Toshinawa, T., Fujimoto, K., and Abeki, N., 2000, Strong motion observation in Metro Manila, Philippines: The 12th World Conference on Earthquake Engineering, CDROM, No.1931.

Midorikawa, S., Matsuoka, M., and Sakugawa, K., 1994, Site effects on strong-motion records observed during the 1987 Chiba-ken-toho-oki, Japan, earthquake: Proceedings of the 9th Japan earthquake Engineering Symposium, 3, E085–E090.

Nelson, A. R., Personius, S. F., Rimando, R. E., Punongbayan, R. S., Tungal, N. M., Mirabueno, H., and Rasdas, A., 2000, Multiple large earthquakes in the past 1500 years on a fault in Metropolitan Manila, the Philippines: Bulletin of the Seismological Society of America, 90, 73–85
Multiple large earthquakes in the past 1500 years on a fault in Metropolitan Manila, the Philippines:Crossref | GoogleScholarGoogle Scholar |

Philippine Institute of Volcanology and Seismology, 2004, Earthquake Impact Reduction Study for Metropolitan Manila, Republic of the Philippines, Final report, 2.7–2.8.

Satoh, T., 2003, Identification of damping factors from vertical array data considering obliquely incident S-waves: Application of simulated annealing method: Journal of Structural and Construction Engineering, 569, 37–45

Shibuya, J., 1983, Amplification of body waves, in Earthquake Motion and Ground Conditions: Architectural Institute of Japan, 98–105.

Takemura, M., Kato, K., Ikeura, T., and Shima, E., 1991, Site amplification of S-waves from strong motion records in special relation to surface geology: Journal of Physics of the Earth, 39, 537–552

Yamada, N., Yamanaka, H., Takezono, M., Kumada, C., and Baul-deocampo, J. R., 2003, Simulation of strong ground motion in Metro Mamina, the Philippines: Journal of Structural Engineering. Architectural Institute of Japan, 49B, 1–6

Yamanaka, H., Nakamaru, A., Kurita, K., and Seo, K., 1998, Evaluation of site effects by an inversion of S-wave spectra with a constraint condition considering effects of shallow weathered layers:: Zisin (Journal of the Seismological Society of Japan), 51, 193–202

Yamanaka, H., Midorikawa, S., Kinugasa, Y., Bautista, B.C., and Rimando, R.E., 2002a, Estimation of Seismic Risk in Metro Manila, in Metro Manila, in Search of a Sustainable Future: University of the Philippines Press, 308–326.

Yamanaka, H., Yamada, N., Takezono, M., Baul-deocampo, J. R., Kumada,C., Tiglao, R. B., Bautista, B. C., Takahashi, Y., and Samano, T., 2002b, Exploration of sedimentary layers in Metropolitan Manila, the Philippines, for estimation of site effects: Proceedings of the 11th Japan Earthquake Engineering Symposium, 323–328. [in Japanese with English abstract]

Yamanaka, H., 2005, Comparison of performance of heuristic search methods for phase velocity inversion in shallow surface wave methods: Journal of Environmental & Engineering Geophysics, 10, 163–173
Comparison of performance of heuristic search methods for phase velocity inversion in shallow surface wave methods:Crossref | GoogleScholarGoogle Scholar |