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Site effects of the 2002 Molise earthquake, Italy: analysis of strong motion, ambient noise, and synthetic data from 2D modelling in San Giuliano di Puglia

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Abstract

On 31 October and 1 November 2002, the Basso Molise area (Southern Italy) was struck by two earthquakes of moderate magnitude (M L =  5.4 and 5.3). The epicentral area showed a high level of damage, attributable both to the high vulnerability of existing buildings and to site effects caused by the geological and geomorphological settings. Specifically, the intensity inside the town of San Giuliano di Puglia was two degrees higher than in neighbouring towns. Also, within San Giuliano di Puglia, the damage varied notably. The site response in the city was initially evaluated from horizontal-to-vertical spectral ratios (HVSR) from a limited number of strong motion recordings of the most severe aftershocks. Several microtremor measurements were also available. Both data sets indicated the simultaneous presence of two amplification peaks: one around 6 Hz, attributed in previous studies to the strong, shallow impedance contrast among landfill/clay and calcarenites, and one at 2 Hz related to the first S-wave arrivals and predominantly seen only on one receiver component. Further studies performed on weak-motion recordings also showed strong amplification on the vertical receiver component, thus indicating an underestimation of the amplification by the HVSR technique. Additionally, a 2D-model of the geology of the sub-surface was developed, reproducing the flower-shaped structure generated during the late orogenic transpressive regime. The numerical (finite-difference hybrid) simulation reproduced the two peaks of the observed data at slightly higher frequencies. The model also confirmed that the borders of the flower structure define a boundary between amplification levels, with higher amplification inside.

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Abbreviations

AI:

Arias Intensity

HVSR:

Horizontal-to-vertical spectral ratio

RSM:

Reference site method

SGP:

San Giuliano di Puglia

FD:

Finite difference

References

  • Albarello D (2001) Detection of spurious maxima in the site transfer function estimated by the HVSR technique. Bull Seism Soc Am 91(4):718–724

    Article  Google Scholar 

  • Arias A (1970) A measure of earthquake intensity. In: Hansen RJ (ed)., Seismic design for nuclear power plants. MIT, Cambridge, MA, pp. 438–483

    Google Scholar 

  • Augliera P, Dolce M, Franceschina G, Frapiccini M, Gallipoli MR, Harabaglia P, Luzi L, Masi A, Marzorati S, Mucciarelli M, Pacor F, Samela L (2004) Site Amplification in the epicentral area of the 31/10/2002 earthquake (Molise, Italy): comparison between damage data, microtremors, weak- and strong-motions. In: proceedings of the 13th world conference on earthquake engineering, vancouver, BC, Canada Paper No. 725

  • Baranello S, Bernabini M, Dolce M, Pappone G, Rosskopf C, Sanò T, Cara PL, De Nardis R, Di Pasquale G, Goretti A, Gorini A, Lembo P, Marcucci S, Marsan P, Martini MG, Naso G (2003) Final report on the seismic microzonation of the town of San Giuliano di Puglia (in Italian). Department of Civil Protection, Roma

  • Bard PY (1995) Effects of surface geology on ground motion: Recent results and remaining issues. In: Duma (ed.),Proceedings of the 10th European conference on earthquake engineering, Balkema, Rotterdam, pp 305–323

  • Borcherdt RD (1970) Effects of local geology on ground motion near San Francisco Bay. Bull Seism Soc Am 60:29–61

    Google Scholar 

  • Caputo R (1998) Transcurrent ‘synorogenic’ deformational events. 79° Congresso Società Geologica Italiana, Palermo, September, 21–23, 199 Abstract book 2, p 222

  • Cara F, Rovelli A, Di Giulio G, Marra F, Braun T, Cultrera G, Azzara R, Boschi E (2005) The role of site effects on the intensity anomaly of San Giuliano di Puglia inferred from aftershocks of the Molise, Central Southern Italy, sequence, November 2002. Bull Seism Soc Am 95(4):1457–1468

    Article  Google Scholar 

  • Crostella A, Vezzani L (1964) La geologia dell’ Appennino Foggiano. Boll Soc Geo Ital 83:121–142 (in Italian)

    Google Scholar 

  • Dazzaro L, Di Nocera S, Pescatore T, Rapisardi L, Romeo M, Russo B, Senatore MR, Torre M (1988) Geologia del margine della catena appenninica tra il Fiume Fortore ed il Torrente Calaggio (Monti della Daunia—Appennino meridionale). Mem Soc Geo Ital 41:411–422 (in Italian)

    Google Scholar 

  • Dolce M, Masi A, Samela C, Santarsiero G, Vona M, Zuccaio G, Cacace F, Papa F (2004) Esame delle caratteristiche tipologiche e del danneggiamento del patrimonio edilizio di San Giuliano di Puglia. In: Proceedings of the XI Italian conference on L’ingegneria sismica in Italia, Genoa, Italy, pp. 25–29 January 2004 (in Italian)

  • Giaccio B, Ciancia S, Messina P, Pizzi A, Saroli M, Sposato A, Cittadini A, Di Donato V, Esposito P, Galadini F (2004) Caratteristiche geologico-geomorfologiche ed effetti di sito a San Giuliano di Puglia (CB) e in altri abitati colpiti dalla sequenza sismica dell’ottobre-novembre 2002. Il Quaternario (Ital J Quaternary Sci) 17(1):Aiqua 83–99 (in Italian)

  • Giampiccolo E, Gresta S, Mucciarelli M, De Guidi G, Gallipoli MR (2001) Site response in the city of Catania (Eastern Sicily) from microtremor measurements. Ann Geofisica 44(1):1–11

    Google Scholar 

  • Konno K, Ohmachi T (1998) Ground-motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremor. Bull Seism Soc Am 88(1):228–241

    Google Scholar 

  • Lachet C, Hatzfeld D, Bard PY, Theodulidis N, Papaioannou N, Savvaidis A (1996) Site effects and microzonation in the city of Thessaloniki (Greece): comparison of different approaches. Bull Seism Soc Am 86(6):1692–1703

    Google Scholar 

  • Louie JN (2001) Faster better: shear-wave velocity to 100 meters depth from refraction microtremor arrays. Bull Seism Soc Am 91(2):347–364

    Article  Google Scholar 

  • Mucciarelli M, Masi A, Vona M, Gallipoli MR, Harabaglia P, Caputo R, Piscitelli S, Rizzo E, Picozzi M, Albarello D, Lizza C (2003) Quick survey of the possible causes of damage enhancement observed in San Giuliano after the 2002 Molise, Italy seismic sequence. J Earthq Eng 7(4):599–614

    Article  Google Scholar 

  • Nakamura Y (1989) A method for dynamic characteristics estimations of subsurface using microtremors on the ground surface. Q Rept RTRI Jpn 30:25–33

    Google Scholar 

  • Parolai S, Bindi D, Baumbach M, Grosser H, Milkerereit C, Karakisa S, Zünbül S (2004a) Comparison of different site response estimation techniques using aftershocks of the 1999 Izmit earthquake. Bull Seism Soc Am 94(3):1096–1108

    Article  Google Scholar 

  • Parolai S, Richwalski SM, Milkereit C, Bormann P (2004b) Assessment of the stability of the H/V spectral ratios from ambient noise: comparison with earthquake data in the Cologne area (Germany). Tectonophysics 390:57–73

    Article  Google Scholar 

  • Picozzi M, Parolai S, Albarello D (2005) Statistical analysis of noise horizontal to vertical spectral ratios (HVSR). Bull Seism Soc Am 95(5):1779–1786

    Article  Google Scholar 

  • Richwalski SM, Fäcke A, Parolai S, Stempniewski L (2006) Influence of site and source dependent ground motion scenarios on the seismic safety of long-span bridges in Cologne, Germany. Nat Haz 38(1–2):239–248

    Google Scholar 

  • Silvestri F, Vitone C, D’Onofrio A, Cotecchia F, Puglia R, Santucci F, De Magistris F (2006a) The influence of meso-structure on the mechanical behaviour of a marly clay from low to high strains. In: Proceedings of the symposium to celebrate professional Tatsuoka’s 60th birthday, Rome

  • Silvestri F, D’Onofrio A, Guerricchio A, Lanzo G, Pagliaroli A, Puglia R, Santucci F, De Magistris F, Sica S, Eva C, Ferretti G, Di Capua G (2006b) Modelli geotecnici 1D e/o 2D per i comuni di San Giuliano di Puglia, Bonefro, Ripabottoni, Colletorto e Santa Croce di Magliano. Deliverable D8, S3 Project. internet: http://esse3.mi.ingv.it/S3_doc.html (in Italian)

  • Steidl JH, Tumarkin AG, Archuleta R (1996) What is a reference site? Bull Seism Soc Am 86(6): 1733–1748

    Google Scholar 

  • Strollo A (2003) Modellazione degli effetti di sito mono- e bi-dimensionali a San Giuliano di Puglia (CB) [Modelling of 1D and 2D site effects in San Giuliano di Puglia(CB)]. Master Thesis, University of Basilicata, Italy (in Italian)

  • Vallée M, Di Luccio F (2005) Source analysis of the 2002 Molise, southern Italy, twin earthquakes (10/31 and 11/01). Geophys Res Lett 32:L12309. DOI:10.1029/2005GL022687)

  • Wang R (1999) A simple orthonormalization method for stable and efficient computation of Green’s functions. Bull Seism Soc Am 88:228–241

    Google Scholar 

  • Zahradnik J, Moczo P (1996) Hybrid seismic modeling based on discrete-wave number and finite-difference methods. Pure Appl Geophys 148:21–38

    Article  Google Scholar 

Download references

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Strollo, A., Richwalski, S.M., Parolai, S. et al. Site effects of the 2002 Molise earthquake, Italy: analysis of strong motion, ambient noise, and synthetic data from 2D modelling in San Giuliano di Puglia. Bull Earthquake Eng 5, 347–362 (2007). https://doi.org/10.1007/s10518-007-9033-6

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  • DOI: https://doi.org/10.1007/s10518-007-9033-6

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