Abstract
Plovdiv is the second largest city in the Republic of Bulgaria. A large part of the city is located on Holocene alluvial sediments and the oldest neighborhoods are situated on syenitic rock outcrops. We believe that local site effects may be an important contributor to the destruction caused by earthquakes. The primary objective of this study was to estimate quantitatively the local site effects in the central area of Plovdiv in terms of fundamental site frequency and amplification factor. Another important objective was to see how these correlate with the geological structures underlying the city. Measurements of the seismic noise at more than two hundred regularly placed points were made in the central area of the city. The H/V spectra were then calculated and analyzed to determine the spatial distribution of the fundamental site frequency and the amplification factor. The results exhibit very good correlation with the local geology. They were also compared with an intensity map from the strong 1928 Plovdiv earthquake. The comparison clearly demonstrates that the local site effects were the main factor in the destruction of buildings—the zones where the most damage was observed are also the zones where we have low fundamental site frequencies and high amplifications. Similarly the areas with high fundamental site frequencies and low amplification factors cover the neighborhoods where less damage has been observed. This study may form a basis for a more comprehensive and systematic microzonation study in Plovdiv.
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References
Atakan K (1995) A review of the type of data and the techniques used in empirical estimation of local site response. Paper presented at the 5th international conference on seismic zonation. Nice, France
Atakan K, Bard P-Y, Moreno B, Roquette P, Tento A (2003) J-SESAME User manual. SESAME Project WP03 H/V Technique: data processing, Department of Earth Science, University of Bergen, 12 pp. http://sesame-fp5.obs.ujf-grenoble.fr/Delivrables/D09-03_Texte.pdf
Atakan K, Bard P-Y, Kind F, Moreno B, Roquette P, Tento A, The SESAME team (2004) J-SESAME: a standardized software for the H/V spectral ratio technique. Paper presented at the 13th world conference on earthquake engineering. Vancouver, Canada, August 2004
Bakir BS, Sucuoglu H, Yilmaz T (2002) An overview of local site effects and the associated building damage in Adapazari during the 17 August 1999 Izmit Earthquake. Bull Seismol Soc Am 92(1): 509–526. doi:10.1785/0120000819
Bard P-Y (1994) Effects of surface geology on ground motion: recent results and remaining issues. Paper presented at the 10th European conference on earthquake engineering. Vienna, Austria
Bard P-Y, The SESAME team (2004) Guidelines for the implementation of the H/V spectral ratio technique on Ambien vibrations: measurements, processing and interpretation. Université Joseph Fourier. http://sesame-fp5.obs.ujf-grenoble.fr/Del-D23-HV_User_Guidelines.pdf
BAS team (1931) FX 1928a. (DIPOZE, Report for the work done in the period April 25 1928-November 1 1931 by the Direction for support and recovery of the 1928 earthquake area). BAS-Geo-fund, Sofia
Borcherdt RD (1970) Effects of local geology on ground motion near San Francisco bay. Bull Seismol Soc Am 60:29–61
Chatelain J-L, Guillier B, Cara F, Duval A-M, Atakan K, Bard P-Y, The WP02 SESAME team (2007) Evaluation of the influence of experimental conditions on H/V results from ambient noise recordings. Bull Earthq Eng. doi:10.1007/s10518-007-9040-7
Domino EOOD team (2005) Street map of Plovdiv. Domino EOOD, Stara Zagora, 1 pp
EGC archive (Exploration Geophysics Company) (1987) Asenovgrad, Bulgaria
Field E, Jacob KH (1995) A comparison and test of various site-response estimation techniques, including three that are not reference site dependent. Bull Seismol Soc Am 85: 1127–1143
Graves R (1993) Modelling three-dimensional site response effects in the Marina District basin, San Francisco, California. Bull Seismol Soc Am 83: 1042–1063
Guillier B, Atakan K, Chatelain J-L, Havskov J, Ohrnberger M, Cara F, Duval A-M, Zacharopoulos S, Teves-Costa P, The SESAME Team (2007) Influence of instruments on the H/V spectral ratios of ambient vibrations. Bull Earthq Eng. doi:10.1007/s10518-007-9039-0
Havskov J, Öttemöller L (2005a) SEISAN the earthquake analysis software. http://www.geo.uib.no/seismo/software/seisan/download_seisan.htm
Havskov J, Öttemöller L (2005b) SEISAN: the earthquake analysis software for Windows, Solaris, Linux and MacOSX Version 8.1. Department of Earth Science, University of Bergen. http://www.geo.uib.no/seismo/software/seisan/seisan_8.1.pdf, pp259
Kozhuharov D, Marinov R, Kozhuharova E (1989) FX (Geological map of Bulgaria). Geological Institute of the Bulgarian Academy of Sciences, Sofia
Lacave C, Bard P-Y, Koller M G (1999) Microzonation: techniques and examples In: Block 15: Naturgefahren-Erdbebenrisiko. http://www.ndk.ethz.ch/pages/publ/Koller.pdf, pp23
Lermo J, Chavez-Garcia FJ (1993) Site effects evaluation using spectral ratios with only one station. Bull Seismol Soc Am 83: 1574–1594
Liu HP, Warrik RE, Westerlund L (1992) Observation of local site effects at a downhole-and-surface station in the Marina District of San Francisco. Bull Seismol Soc Am 82: 1563–1594
Nakamura Y (1989) A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Q Rep RTRI. 30: 25–33
Nakamura Y (2000) Clear identification of the fundamental idea of Nakamura’s technique and its applications. Paper presented at the 12th world conference on earthquake engineering, Aukland, New Zealand, 8 pp
Özel O, Cranswick E, Meremonte M, Erdik M, Safak E (2002) Site effects in Avcilar, West of Istanbul, Turkey, from strong- and weak-motion data. Bull Seismol Soc Am 91(1): 499–508. doi:10.1785/0120000827
Radulov A, Yaneva M (2004) New data for surface rupture of the Plovdiv earthquake on April 14, 1928 (Bulgaria). Paper resented at the 5th Asian seismological commission general assembly 2004, Symposium on Seismic Hazard Evaluation and Risk Reduction. Yerevan, Armenia, 18–21 October 2004
Reiter L (1990) Earthquake hazard analysis issues and insights. Columbia University Press, New York
Rogers AM, Borcherdt RD, Covington PA, Perkins DM et al (1984) A comparative ground response study near Los Angeles using recordings of Nevada nuclear tests and the 1971 San Fernando earthquake. Bull Seismol Soc Am 74: 1925–1949
Shanov S, Camelbeck T, Vanneste K, Nikolov G, Verbeek K, Radulov A, Petermans T, Kostov K (2002) Moment deformations in young sediments—geological indicators of paleoseismological events. http://www.geology.bas.bg/paleo/psb.html
Singh SK, Lermo J, Dominguez T, Ordaz M, Espinosa JM, Quaas R et al (1988) The Mexico earthquake of September 19, 1985—a study of amplification of seismic waves in the valley of Mexico with respect to a local hill zone site. Earthq Spectra 1: 653–673
Sørensen MB, Oprsal I, Bonnefoy-Claudet S, Atakan K, Mai PM, Pulido N, Yalciner C (2006) Local site effects in Ataköy, Istanbul, Turkey, due to a future large earthquake in the Marmara Sea, Geophysical. J Int 167(3): 1413–1424. doi:10.1111/j.1365-246X.2006.03204.x
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Kandilarov, A., Atakan, K., Havskov, J. et al. An investigation of the significance of local site effects in Plovdiv, Bulgaria. Bull Earthquake Eng 7, 181–198 (2009). https://doi.org/10.1007/s10518-008-9091-4
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DOI: https://doi.org/10.1007/s10518-008-9091-4