Abstract
This paper reports on the investigation of the old landslide body on which the necropolis of Abakainon, an Italian archaeological site, was built about 2400 years ago. This site is located in a geologically complex area of northeastern Sicily, where active tectonics has strongly modified the morphological landscape, as testified by the meandering path of watercourses, widespread presence of paleosurfaces, and deviations of crest line. Previous studies have hypothesized that the necropolis, suddenly destroyed by a catastrophic event in historical times, could have been built on an old landslide body. This represents the starting point of this paper, focused on geomorphological analysis and geophysical surveys, which allowed discovering peculiar elements in support of the landslide theory. In particular, the elaboration of a Digital Terrain Model allowed locating the main morphostructural elements, thus highlighting how the occurrence of landslides in the study area is strongly linked to recent tectonics. Passive seismic surveys, carried out through the acquisition of ambient noise, allowed detecting the presence of impedance contrasts, which were associated to peculiar features, such as the landslide body itself. Moreover, local strong directional effects testify the presence of faults, affecting even the necropolis area. Such results, further corroborated by the outcomes of an electrical resistivity survey, lay the foundations for interesting consideration on the possible cause of the destruction of this site, probably related to the occurrence of a historical earthquake in the first century AD.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Albano M, Saroli M, Moro M, Falcucci E, Gori S, Stramondo S, Galadini F, Barba S (2017) Minor shallow gravitational component on the Mt. Vettore surface ruptures related to MW 6, 2016 Amatrice earthquake. Ann Geophys-Italy, 59, Fast Track 5, DOI: https://doi.org/10.4401/ag-7299
Amorosi A, Castellaro S, Mulargia F (2008) Single-station passive seismic stratigraphy: an inexpensive tool for quick subsurface investigations. Geoacta 7:29–39
Appel P, Cirrincione R, Fiannacca P, Pezzino A (2011) Age constraints on Late Paleozoic evolution of continental crust from electron microprobe dating of monazite in the Peloritani Mountains (southern Italy): another example of resetting of monazite ages in high-grade rocks. Int J Earth Sci 100(1):107–123
Arbanas Ž, Jovančević SD, Vivoda M, Arbanas SM (2014) Study of landslides in flysch deposits of north Istria, Croatia: landslide data collection and recent landslide occurrences. In: Sassa K, Canuti P, Yin Y (eds) Landslide science for a safer geoenvironment. Springer, Cham. https://doi.org/10.1007/978-3-319-04999-1_7
Atzori P, Vezzani L (1974) Lineamenti petrografico-strutturali della catena peloritana. Geol Romana 13:21–27
Auken E, Pellerin L, Christensen NB, Sørensen K (2006) A survey of current trends in near-surface electrical and electromagnetic methods. Geophysics 71(5):G249–G260. https://doi.org/10.1190/1.2335575
Bacci G, Coppolino P (2009) La necropoli di Abakainon: primi dati. Edas, Messina, 188 pp
Barbano MS, Pappalardo G, Pirrotta C, Mineo S (2014a) Landslide triggers along volcanic rock slopes in eastern Sicily (Italy). Nat Haz 73(3):1587–1607. https://doi.org/10.1007/s11069-014-1160-1
Barbano MS, Castelli V, Pantosti D, Pirrotta C (2014b) Integration of historical, archaeoseismic and paleoseismological data for the reconstruction of the early seismic history in Messina Strait (south Italy): the 1st and 4th centuries AD earthquakes. Ann Geophys-Italy 57(1):S0192. https://doi.org/10.4401/ag-6369
Barbano MS, Castelli V, Pirrotta C (2017) Materiali per un catalogo di eruzioni di Vulcano e di terremoti delle isole Eolie e della Sicilia nordorientale (secc. XV-XIX). Quad di Geofisica 143:1–235
Basili R, Valensise G, Vannoli P, Burrato P, Fracassi U, Mariano S, Tiberti MM, Boschi E (2008) The Database of Individual Seismogenic Sources (DISS), version 3: summarizing 20 years of research on Italy’s earthquake geology. Tectonophysics 453(1-4):20–43. https://doi.org/10.1016/j.tecto.2007.04.014
Berti M, Bertello L, Bernardi AR, Caputo G (2017) Back analysis of a large landslide in a flysch rock mass. Landslides 14(6):2041–2058. https://doi.org/10.1007/s10346-017-0852-5
Billi A, Presti D, Orecchio B, Faccenna C, Neri G (2010) Incipient extension along the active convergent margin of Nubia in Sicily: Cefalù-Etna seismic zone. Tectonics 29(4):TC4026. https://doi.org/10.1029/2009TC002559
Bottari C, Barbano MS, Pirrotta C, Azzaro R, Ristuccia G, Gueli A (2013) Archaeological evidence for a possible first century AD earthquake in the necropolis of Abakainon (NE Sicily). QUAT INTERN 316:190–199, ISSN: 1040-6182. https://doi.org/10.1016/j.quaint.2013.10.004
Capizzi P, Martorana R (2014) Integration of constrained electrical and seismic tomographies to study the landslide affecting the Cathedral of Agrigento. J Geophys Eng 11(4):045009. https://doi.org/10.1088/1742-2132/11/4/045009
Carbone S, Catalano S, Lentini F, Vinci G (1993) Carta Geologica del Golfo di Patti (Sicilia Settentrionale). S.EL.C.A., Firenze
Castellaro S, Mulargia F (2009) The effect of velocity inversions on H/V. Pure Appl Geophys 166(4):567–592. https://doi.org/10.1007/s00024-009-0474-5
Crisà A, Lanza S, Randazzo G (2015) The historical evolution of the Tindari-Marinello Spit (Patti, Messina, Italy). In: Sand and gravel spits editors: Randazzo, Giovanni, Jackson, Derek, Cooper, Andrew (Eds.) Coastal Research Library, 12, Springer International Publishing. Doi: https://doi.org/10.1007/978-3-319-13716-2
Daily W, Ramirez A, Binley A (2004) Remote monitoring of leaks in storage tanks using electrical resistance tomography: application at the Hanford site. J Environ Eng 9(1):11–24
De Guidi G, Lanzafame G, Palano M, Puglisi G, Scaltrito A, Scarfì L (2013) Multidisciplinary study of the Tindari Fault (Sicily, Italy) separating ongoing contractional and extensional compartments along the active Africa-Eurasia convergent boundary. Tectonophysics 588:1–17 https://doi.org/10.1016/j.tecto.2012.11.021
Del Gaudio V, Coccia S, Wasowski J, Gallipoli MR, Mucciarelli M (2008) Detection of directivity in seismic site response from microtremor spectral analysis. Nat Hazards Earth Syst Sciences 8(4):751–762. https://doi.org/10.5194/nhess-8-751-2008
Del Gaudio V, Wasowski J, Muscillo S (2013) New developments in ambient noise analysis to characterise the seismic response of landslide-prone slopes. Nat Hazards Earth Syst Sci 13(8):2075–2087
Diodorus Siculus (1st cent. BC). Bibliotheca historica XIV 90, 3–4
Edwards LS (1977) A modified pseudosection for resistivity and IP. Geophysics 42(5):1020–1036. https://doi.org/10.1190/1.1440762
Fazello T (1558) De Rebus Siculis Decades Duae, Palermo, 616 pp.
Ghisetti F (1979) Relazione tra strutture e fasi trascorrenti e distensive lungo i sistemi Messina-Fiumefreddo, Tindari-Letojanni e Alia-Malvagna (Sicilia nord-orientale): uno studio micro tettonico. Geol Romana 18:23–58
Guidoboni E, Ferrari G, Mariotti D, Comastri A, Tarabusi G, Valensise G (2007) CFTI4Med, catalogue of strong earthquakes in Italy (461 B.C. e 1997) and Mediterranean area (760 B.C. e 1500). INGV-SGA. http://storing.ingv.it/cfti4med/
Hack R (2000) Geophysics for slope stability. Surv Geophys 21(4):423–448. https://doi.org/10.1023/A:1006797126800
Ibs-von Seht M, Wohlenberg J (1999) Microtremor measurements used to map thickness of soft sediments. Bull Seism Soc Am 89(1):250–259
Imposa S, Barone G, Coco G, Corrao M, Dell’Ali P, Puglia A, Nicotra A, Vinci S (2004a) Ground penetrating radar and electrical survey of the Roman “Terme Achilliane” in Catania (Sicily): a case history. Contributions to Geophysics and Geodesy 34(4):387–403
Imposa S, Coco G, Corrao M (2004b) Site effects close to structural lineaments in eastern Sicily (Italy). Engin geol 72(3):331–341
Imposa S, Barone F, Chiavetta F, Coco G, Corrao M, Chisari D (2007) A preliminary study of the subsoil of the Roman Amphitheatre of Catania (Sicily) through integrated geophysical and stratigraphic data. Nuovo Cimento-C 30(6):577–586
Imposa S, Grassi S, De Guidi G, Battaglia F, Lanaia G, Scudero S (2016) 3D subsoil model of the San Biagio ‘Salinelle’ mud volcanoes (Belpasso, Sicily) derived from geophysical surveys. Surv Geophys 37(6):1117–1138. https://doi.org/10.1007/s10712-016-9380-4
Imposa S, Grassi S, Fazio F, Rannisi G, Cino P (2017) Geophysical surveys to study a landslide body (north-eastern Sicily). Nat Hazards 86(2):327–343
ISPRA (2013) Carta Geologica d’Italia, Foglio 599 Patti
Jongmans D, Garambois S (2007) Geophysical investigation of landslides: a review. Bull Soc Geol Fr 178(2):101–112. https://doi.org/10.2113/gssgfbull.178.2.101
La Torre G (2009) Per la storia di Abakainon/Abacaenum: prime indagini topografiche nel territorio di Tripi (Me): relazione preliminare. Sicilia Antiqua, 6129–6144 (In Italian)
Lachet C, Bard PY (1994) Numerical and theoretical investigations on the possibilities and limitation of Nakamura’s technique. J Phys Earth 42(5):377–397. https://doi.org/10.4294/jpe1952.42.377
Lanzafame G, Bousquet JC (1997) The Maltese escarpment and its extension from Mt. Etna to the Aeolian Islands (Sicily): importance and evolution of a lithospere discontinuity. Acta Vulc 9(1/2):113–120
Lentini F, Catalano S, Carbone S (2000) Carta geologica della provincia di Messina (Sicilia nord-orientale). Note Illustrative, S.EL.CA, Ed Firenze
Lentini F, Carbone S, Guarnieri P (2006) Collisional and postcollisional tectonics of the Apenninic-Maghrebian orogen (southern Italy). In: Post-collisional tectonics and magmatism in the Mediterranean region and Asia, Dilek Y and S Pavlides (Eds.), Geol Soc Am, Spec Paper 409: 57–81
Lermo J, Chavez-Garcia FJ (1993) Site effect evaluation using spectral ratios with only one station. Bull Seism Soc Am 83:1574–1594
Loke MH, Barker RD (1996) Rapid least-squares inversion of apparent resistivity pseudosections by a quasi-Newton method. Geophys Prospect 44(1):131–152. https://doi.org/10.1111/j.1365-2478.1996.tb00142.x
Loke MH, Acworth I, Dahlin T (2003) A comparison of smooth and blocky inversion methods in 2D electrical imaging surveys. Explor Geophys 34:182–187
Loke MH, Chambers JE, Rucker DF, Kuras O, Wilkinson PB (2013) Recent developments in the direct-current geoelectrical imaging method. J Appl Geophys 95:135–156. https://doi.org/10.1016/j.jappgeo.2013.02.017
Margottini C (2015) Engineering geology in shaping and preserving the historic urban landscape and cultural heritage: achievements in UNESCO World Heritage Sites. In Lollino G, Giordan D, Marunteanu C, Christaras B, Yoshinori I, Margottini C. Engineering Geology for Society and Territory—volume 8: Preservation of cultural heritage, 1–28
Margottini C, Panizza M, Spizzichino D (2008) The huge landslide on which the Machu Picchu citadel was founded. 33rd IGC Congress in Oslo 6–14 August 2008
McCann DM, Forster A (1990) Reconnaissance geophysical methods in landslide investigations. Eng Geol 29(1):59–78. https://doi.org/10.1016/0013-7952(90)90082-C
Mineo S, Pappalardo G, Rapisarda F, Cubito A, Di Maria G (2015) Integrated geostructural, seismic and infrared thermography surveys for the study of an unstable rock slope in the Peloritani Chain (NE Sicily). Engin Geol 195:225–235. https://doi.org/10.1016/j.enggeo.2015.06.010
Mineo S, Pappalardo G, D’Urso A, Calcaterra D (2017) Event tree analysis for rockfall risk assessment along a strategic mountainous transportation route. Environ Earth Sci 76(17):620. https://doi.org/10.1007/s12665-017-6958-1
Morales T, Uribe-Etxebarria G, Uriarte JA, Fernández de Valderrama I (2004) Geomechanical characterisation of rock masses in Alpine regions: the Basque Arc (Basque-Cantabrian basin, Northern Spain). Eng Geol 71(3-4):343–362. https://doi.org/10.1016/S0013-7952(03)00160-1
Nakamura Y (1989) A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Railw Tech Res Inst Q Rep 30:25–33
Okada H (2003) The microtremor survey method. Geophys Monograph Series, Society of Exploration Geophysicists 12:150
Oliva D (2012) Abakainon (Abacena). SGB Edizioni, Messina
Palano M, Ferranti L, Monaco C, Mattia M, Aloisi M, Bruno V, Cannavò F, Siligato G (2012) GPS velocity and strain fields in Sicily and southern Calabria, Italy: updated geodetic constraints on tectonic block interaction in the central Mediterranean. J Geoph Res 117(B7):B07401. https://doi.org/10.1029/2012JB009254
Panizza M (1990) The landslides in Cortina d’Ampezzo (Dolomites, Italy). In: Cancelli A (ed) ALPS 90–6th ICFL, Switzerland-Austria-Italy, Aug. 3lst-Sept. 12th, Conference Proceedings. Università degli Studi di Milano, pp 55–63
Panizza M (2014) Geomorfologia, Pitagora Editore, 408 pp.
Pappalardo G, Mineo S (2015) Rockfall hazard and risk assessment: the promontory of the pre-Hellenic Village Castelmola Case, North-Eastern Sicily (Italy). In G. Lollino et al. (eds.), Engineering Geology Society Territory—Volume 2, 1989–1993. DOI: https://doi.org/10.1007/978-3-319-09057-3_353
Pappalardo G, Mineo S, Rapisarda F (2014) Rockfall hazard assessment along a road on the Peloritani Mountains (northeastern Sicily, Italy). Nat Hazards Earth Syst Sci 14:2735–2748. https://doi.org/10.5194/nhess-14-2735-2014.
Pappalardo G, Imposa S, Mineo S, Grassi S (2016) Evaluation of the stability of a rock cliff by means of geophysical and geomechanical surveys in a cultural heritage site (South-Eastern Sicily). Ital J Geosci 135(3):1–47
Pellerin L (2002) Applications of electrical and electromagnetic methods for environmental and geotechnical investigations. Surv Geophys 23(2–3):101–132. https://doi.org/10.1023/A:1015044200567
Perrone A, Lapenna V, Piscitelli S (2014) Electrical resistivity tomography technique for landslide investigation: a review. Earth Sci Rev 135:65–82
Peternel T, Mikoš M, Đomlija P, Dugonjić Jovančević S, Arbanas Ž (2015) Geological conditions of landslides in flysch deposits in Slovenian and Croatian. In: Abstract Proceedings of the 2nd ReSyLAB—Regional Symposium on Landslides in the Adriatic-Balkan Region, 14–16 May 2015, Belgrade, Serbia pp 140-142
Petkovšek A, Fazarinc R, Kočevar M, Maček M, Majes M, Mikoš M (2011) The Stogovce landslide in SW Slovenia triggered during the September 2010 extreme rainfall event. Landslides 8(4):499–506. https://doi.org/10.1007/s10346-011-0270-z
Phlegon Trallensis (2nd cent.) Die Fragmente der Griechischen Historiker 257, ed. F. Jacoby, pt.2 (Zeitgeschichte), vol.B1, Leiden 1962
Pliny the Elder (1st cent.) Natural history, book 2, chap. 94. http://penelope.uchicago.edu/Thayer/L/Roman/Texts/Pliny_the_Elder/2*.html
Pucci S, De Martini PM, Civico R, Villani F, Nappi R, Ricci T, Azzaro R, Brunori CA, Caciagli M, Cinti FR, Sapia V, De Ritis R, Mazzarini F, Tarquini S, Gaudiosi G, Nave R, Alessio G, Smedile A, Alfonsi L, Cucci L, Pantosti D (2017) Coseismic ruptures of the 24 August 2016, Mw 6.0 Amatrice earthquake (central Italy). Geophys Res Letters. https://doi.org/10.1002/2016GL071859
Reynolds JM (2011) An introduction to applied and environmental geophysics, 2nd edn. John Wiley & Sons, Chichester
Rovida A, Locati M, Camassi R, Lolli B, Gasperini P (eds) (2016) CPTI15, the 2015 version of the parametric catalogue of Italian earthquakes. Istituto Nazionale di Geofisica e Vulcanologia doi:https://doi.org/10.6092/INGV.IT-CPTI15
Sabatakakis N, Koukis G, Mourtas D (2005) Composite landslides induced by heavy rainfalls in suburban areas: city of Patras and surrounding area, western Greece. Landslides 2:202–211
SESAME European project (2005) Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations. Measurements, processing and interpretation. WP12. Deliverable D23.12
Tarchi D, Casagli N, Fanti R, Di Leva D, Luzi G, Pasuto A, Pieraccini M, Silvano S (2003) Landslide monitoring by using ground-based SAR interferometry: an example of application to the Tessina landslide in Italy. Eng Geol 68(1-2):15–30. https://doi.org/10.1016/S0013-7952(02)00196-5
Tokiwa T, Tsusaka K, Ishii E, Sanada H, Tominaga E, Hatsuyama Y, Funaki H (2011) Influence of a fault system on rockmass response to shaft excavation in soft sedimentary rock, Horonobe area, northern Japan. Int J Rock Mech Min Sci 48:773–781
Willenberg H, Loew S, Eberhardt E, Evans K, Spillmann T, Heincke B, Maurer HR, Green A (2008) Internal structure and deformation of an unstable crystalline rock mass above Randa (Switzerland): part I—internal structure from integrated geological and geophysical investigations. Eng Geol 101(1-2):1–14. https://doi.org/10.1016/j.enggeo.2008.01.015
Acknowledgements
Passive seismic surveys were carried out using the instruments belonging to the Applied Geophysical Laboratory (scientific responsible S. Imposa) of the Department of Biological, Geological and Environmental Sciences, University of Catania. The authors wish to thank Sigeo Drilling Srl and Dr. Carmelo Ferla for their friendly support during the Electrical Resistivity Tomography, along with the Editor and the anonymous Reviewers who handled this paper during the revision stage.
Funding
This work was funded by the Department of Biological, Geological and Environmental Sciences, University of Catania, in the frame of “Piano Triennale della Ricerca (2017–2020),” research scientific responsible Giovanna Pappalardo.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Pappalardo, G., Imposa, S., Barbano, M.S. et al. Study of landslides at the archaeological site of Abakainon necropolis (NE Sicily) by geomorphological and geophysical investigations. Landslides 15, 1279–1297 (2018). https://doi.org/10.1007/s10346-018-0951-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10346-018-0951-y