Abstract
Ambient noise measurements acquired in Yalova, which was highly damaged during the 1999 Izmit earthquake, are analyzed to explore the site characteristics. The region of Yalova is governed by complex geological and geomorphological structures consisting of river beds extending from the mountains to the sea, ridges between them, plains in front of them with different size, and the sea coast. As a result of these shallow geological features, the H/V curves exhibit complex patterns. Clear peaks in the H/V curves, which can be interpreted as reliable site resonance frequency, are observed only at about half of the measurement sites. At the remaining sites industrial peaks, broad peaks, or flat responses dominate the spectral ratio graphs. We observed that man-made noises generated by marble cutting machines in Hersek delta mask the site resonance frequencies or can be misinterpreted as a resonance frequency. In total, we identified three anthropogenic noise sources at fundamental frequencies of 1.3, 1.5, and 1.7 Hz along with their two- and threefold harmonics. The parts of H/V curves showing unusual low scattering can be a clue to identify anthropogenic effects. In the assessment of H/V curves, the site location and the similarity of the near surface geology were taken into account. The Laledere plain with thick and soft sediment sequence surprisingly displays flat responses due to a possible low impedance contrast. The Ciftlikkoy and Hacimehmet plains exhibit clear resonance peaks at nearly 1 Hz possessing the largest amplitudes. These sites experienced the highest damage in Yalova during the Izmit earthquake. In contrast, the Cinarcik region which was also exposed to high damage, do not show any obvious amplifications on the H/V curves. Generally, the H/V curves for valley and ridge sites in Yalova reveals a resonance peak at approximately 1 Hz and almost flat curves, respectively. However, several sites on the ridges and valleys portray different patterns.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alparslan E (2011) Landslide susceptibility mapping in Yalova, Turkey, by remote sensing and GIS. Environ Eng Geosci 17(3):255–265
Armijo T, Meyer B, Hubert A, Barka A (1999) Westwards propagation of the North Anatolian Fault into the Northern Aegean: timing and kinematics. Geology 27(3):267–270
Bard PY (1999) Microtremor measurements: a tool for site effect estimation? In: Irikura K, Kudo K, Okada H, Sasatani T (eds) The effects of surface geology on seismic motion. Balkema, Rotterdam, pp 1251–1279
Bard PY et al. (2000) Site effects assessments using ambient excitations (SESAME), European project reference EVG1-CT-2000-00026, http://sesame-fp5.obs.ujf-grenoble.fr
Bard PY, SESAME-Team (2005) Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations: measurements, processing, and interpretations. SESAME European research project, EVG1-CT-2000-00026, deliverable D23.12. Available at: http://sesamefp5.obs.ujf-grenoble.fr
Bargu S, Sakinc M (1989) İznik Körfezi-İznik Gölü arasında kalan bölgenin jeolojisi ve yapısal özellikleri. İst Üniv Müh Fak Yerbilimleri Dergisi 6:45–76
Bommer JJ, Boore DM (2005) Engineering Seismology, Encyclopedia of Geology, Editors-in-Chief: Richard C. Selley, L. Robin, M. Cocks, and Ian R. Plimer p.499-515, ISBN: 978-0-12-369396-9, Elsevier Ltd
Bonnefoy-Claudet S, Cotton F, Bard PY (2006a) The nature of noise wavefield and its applications for site effects studies. A literature review. Earth Sci Rev 79:205–227
Bonnefoy-Claudet S, Cornou C, Bard PY, Cotton F, Moczo P, Kristek J, Fäh D (2006b) H/V ratio: a tool for site effects evaluation. Results from 1-D noise simulations. Geophys J Int 167:827–837
Bonnefoy-Claudet S, Kohler A, Cornou C, Wathelet M, Bard PY (2008) Effects of Love waves on microtremor H/V ratio. Bull Seism Soc Am 98:288–300
Bonnefoy-Claudet S, Baize S, Bonilla LF, Berge-Thierry C, Pasten C, Campos J, Volant P, Verdugo R (2009) Site effect evaluation in the basin of Santiago de Chile using ambient noise measurements. Geophys J Int 176:925–937
Cara F, Di Giulio G, Rovelli A (2003) A study on seismic noise variations at Colfiorito, central Italy: implications for the use of H/V spectral ratios. Geophys Res Lett 30(18):1972. doi:10.1029/2003GL017807
Chapman T, Etoz K, Free M, Lord A, Osborne M (2002) The work of the British Earthquake Consortium for Turkey in Yalova. The Arup J 1:49–52
Delgado J, Casado CL, Giner J, Estevez A, Cuenca A, Molina S (2000) Microtremors as a geophysical exploration tool: applications and limitations. Pure Appl Geophys 157:1445–1462
Di Giulio G, Cornou C, Ohrnberger M, Wathelet M, Rovelli A (2006) Deriving wavefield characteristics and shear-velocity profiles from two-dimensional small-aperture arrays analysis of ambient vibrations in a small-size alluvial basin, Colfiorito, Italy. Bull Seism Soc Am 96:1915–1933
Dolu E et al (2007) Quaternary evolution of the Gulf of Izmit (NW Turkey): a sedimentary basin under control of the North Anatolian Fault Zone. Geo-Mar Lett 27:355–381
Emre O, Erkal T, Tchepalyga A, Kazancı N, Kecer M, Unay E (1998) Neogene-quaternary evolution of the Eastern Marmara Region, Northwest Turkey. Mineral Res Expl Bull 120:233–258
Erdik M, Demircioglu M, Sesetyan K, Durukal E, Siyahi B (2004) Earthquake hazard in Marmara Region, Turkey. Soil Dyn Earthq Eng 24:605–631
Flerit F, Armijo R, King GCP, Meyer B, Barka A (2003) Slip partitioning in the Sea of Marmara pull-apart determined from GPS velocity vectors. Geophys J Int 154:1–7
Gosar A, Roser J, Motnikar BS, Zupancic P (2010) Microtremor study of site effects and soil-structure resonance in the city of Ljubljana (central Slovenia). Bull Earthquake Eng 8:571–592
Gueguen P, Cornou C, Garambois S, Banton J (2007) On the limitation of the H/V spectral ratio using seismic noise as an exploration tool: application to the Grenoble valley (France), a small apex ratio basin. Pure Appl Geophys 164:115–134
Kendir O (2010) The engineering properties of the alluvium deposits at the Yalova city centre. Istanbul University, Master thesis (in Turkish with English abstract)
Konno K, Ohmachi T (1998) Ground-motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremor. Bull Seismol Soc Am 88:228–241
Lachet C, Bard PY (1994) Numerical and theoretical investigations on the possibilities and limitations of Nakamura's technique. J of Phys of the Earth 42(4):377–397
Lermo J, Chavez-Garcia FJ (1993) Site effects evaluation using spectral ratios with only one station. Bull Seismol Soc Am 83:1574–1594
Lunedei E, Albarello D (2009) On the seismic noise wave field in a weakly dissipative layered Earth. Geophys J Int 177:1001–1014
McClusky S, Balassanian S, Barka A, Demir C, Ergintav S, Georgiev I et al (2000) GPS constraints on plate kinematics and dynamics in the Eastern Mediterranean and Caucasus. J Geophys Res 105:5695–5719
Meric O, Garambois S, Malet J-P, Cadet H, Gueguen P, Jongsman D (2007) Seismic noise-based methods for soft-rock landslide characterization. Bull Soc Geol Fr 178(2):137–148
Nakamura Y (1989) A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. QR Rail Tech Res Inst 30:25–30
Nogoshi M, Igarashi T (1971) On the amplitude characteristics of microtremor (part 2). J of Seismological Soc of Jpn 24:26–40 (in Japanese with English abstract)
Ozalaybey S, Zor E, Ergintav S, Tapırdamaz MC (2011) Investigation of 3-D basin structures in the İzmit Bay area (Turkey) by single-station microtremor and gravimetric methods. Geophys J Int 186:883–894
Ozmen B (2000) Quantitative damage assessment of Izmit Bay earthquake. TDV/DR 010–53, Turkey Earthquake Foundation, 132p (in Turkish)
Parolai S, Galiana-Merino JJ (2006) Effects of transient seismic noise on estimates of H/V spectral ratios. Bull Seism Soc Am 96:228–236
Parsons T (2004) Recalculated probability of M ≥ 7 earthquakes beneath the Sea of Marmara Turkey. J Geophys Res 109, B05304
Pondard N, Armijo R, King GCP, Meyer B, Flerit F (2007) Fault interactions in the Sea of Marmara pullapart (North Anatolian Fault): earthquake clustering and propagating earthquake sequences. Geophys J Int. doi:10.1111/j.1365-246X.2007.03580.x
Rovelli A, Scognamiglio L, Marra F, Caserta A (2001) Edge-diffracted 1-sec surface waves observed in a small-size intramountain basin (Colfiorito, Central Italy). Bull Seism Soc Am 91:1851–1866
TUBITAK (2005) Soil investigation studies for the Yalova province. www.anro.gr/downloads/documents/0104.pdf, last visited on March 2013
Uebayashi H (2003) Extrapolation of irregular subsurface structures using the horizontal-to-vertical ratio of long-period microtremors. Bull Seism Soc Am 93:570–582
Utkucu M, Kanbur Z, Alptekin Ö, Sunbul F (2010) Seismic behaviour of the North Anatolian Fault beneath the Sea of Marmara (NW Turkey): implications for earthquake recurrence times and future seismic hazard. Nat Hazards 50:45–71
Woolery EW, Street R (2002) 3D near-surface soil response from H/V ambient-noise ratios. Soil Dyn Earthq Eng 22:865–876
Yilmaz I, Yavuzer D (2005) Liquefaction potentials and susceptibility mapping in the city of Yalova, Turkey. Environ Geol 47:175–184
Acknowledgments
The authors wish to thank H. Woith and T. Dahm for constructive comments that helped to improve the quality of the paper. This research was partially supported by Scientific and Technological Council of Turkey (TUBITAK Project No. 109M317).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Yalcinkaya, E., Tekebas, S. & Pinar, A. Analysis of ambient noise in Yalova, Turkey: discrimination between artificial and natural excitations. J Seismol 17, 1021–1039 (2013). https://doi.org/10.1007/s10950-013-9370-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10950-013-9370-7