406                         E. Lodolo, Z. Ben-Avraham / Journal of Archaeological Science: Reports 3 (2015) 398–407













































            Fig. 8. Cartoon showing the progressive flooding of the PVB site when (a) sea level was −40 m (~9500 year B.P), and (b) when sea level was −35 m (~9200 year B.P.).





        References                                           D'Amore, G., Di Marco, S., Tartarelli, G., et al., 2009. Late Pleistocene human evolution in
                                                                Sicily: comparative morphometric analysis of Grotta di San Teodoro craniofacial re-
        Antonioli, F., Amorosi, A., Bondesan, A., et al., 2009. A review of the Holocene sea-level  mains. J. Hum. Evol. 56, 537–550.
          changes and tectonic movements along the Italian coastline. Quat. Int. 206, 102–133.  Ferranti, L., Antonioli, F., Mauz, B., et al., 2006. Markers of the last interglacial sea level
        Antonioli, F., Lo Presti, V., Morticelli, M.G., et al., 2014. Timing of the emergence of the  highstand along the coast of Italy: tectonic implications. Quat. Int. 145–146, 30–54.
          Europe-Sicily bridge (40–17 cal ka BP) and its implications for the spread of modern  Fleming, K., Johnston, P., Zwartz, D., et al., 1998. Refining the eustatic sea-level curve since
          humans. Geol. Soc. Lond. Spec. Publ. 411. http://dx.doi.org/10.1144/SP411.1.  the Last Glacial Maximum using far- and intermediate-field sites. Earth Planet. Sci.
        Argnani, A., Cornini, S., Torelli, L., Zitellini, N., 1986. Diachronous foredeep-system in the  Lett.163,327–342.
          Neogene–Quaternary of the Strait of Sicily. Mem. Soc. Geol. Ital. 38, 407–417.  Flügel, E., 2009. Microfacies of Carbonate Rocks: Analysis, Interpretation and Application.
        Auriemma, R., Solinas, E., 2009. Archaeological remains as sea level change markers: a re-  2nd Ed. Springer-Verlag (984 pp.).
          view. Quat. Int. 206, 134–146.                     Galili, E., Nir, Y., 1993. The submerged pre-pottery neolithic water well of Atlit-Yam,
        Bailey, G.N., Flemming, N.C., King, G.C.P., et al., 2007. Coastlines, submerged landscapes,  Northern Israel, and its palaeoenvironmental implications. The Holocene 3, 265–270.
          and human evolution: The Red Sea Basin and the Farasan Islands. J. Island Coast.  Grasso, M., Pedley, H.M., 1988. The sedimentology and development of Terravecchia For-
          Archaeol. 2, 127–160.                                 mation carbonates (Upper Miocene) of North Central Sicily: possible eustatic influ-
        Boccaletti, M., Cello, G., Tortorici, L., 1987. Transtensional tectonics in the Sicily Channel.  ence on facies development. Sediment. Geol. 57, 131–149.
          J. Struct. Geol. 9, 869–876.                       Lambeck, K., Chappell, J., 2001. Sea level change through the last glacial cycle. Science 292,
        Calanchi, N., Colantoni, P., Rossi, P.L., Saitta, M., Serri, G., 1989. The Strait of Sicily continen-  679–686.
          tal rift systems: physiography and petrochemistry of the submarine volcanic centres.  Lambeck, K., Purcell, A., 2005. Sea-level change in the Mediterranean Sea since the LGM:
          Mar. Geol. 87, 55–83.                                 model predictions for tectonically stable areas. Quat. Sci. Rev. 24, 1969–1988.
        Cello, G., 1987. Structure and deformation processes in the Strait of Sicily “rift zone”.  Lambeck, K., Antonioli, F., Purcell, A., Silenzi, S., 2004. Sea-level change along the Italian
          Tectonophysics 141, 237–247.                          coast for the past 10,000 year. Quat. Sci. Rev. 23, 1567–1598.
        Civile, D., Lodolo, E., Accettella, D., et al., 2010. The Pantelleria graben (Sicily Channel, Cen-  Lentini, F., Carbone, S., Catalano, S., 1996. The external thrust system in southern Italy: a
          tral Mediterranean): an example of intraplate ‘passive’ rift. Tectonophysics 490,  target for petroleum exploration. Pet. Geol. 2 (4), 333–342.
          173–183.                                           Lodolo, E., 2012. When the Sicily Channel was an archipelago. Rend. Online Soc. Geol. Ital.
        Civile, D., Alp, H., Ben-Avraham, Z., et al., 2014. Seismic stratigraphy and structural setting  21, 1174–1175.
          of the Adventure Plateau (Sicily Channel). Mar. Geophys. Res. 35, 37–53.  Lodolo, E., Civile, D., Zanolla, C., Geletti, R., 2012. Magnetic signature of the Sicily Channel
        Civile, D., Lodolo, E., Zecchin, M., et al., 2015. The lost Adventure Archipelago (Sicilian  volcanism. Mar. Geophys. Res. 33, 33–44.
          Channel, Mediterranean Sea): morpho-bathymetry and Late Quaternary  Loeblich, A.R., Tappan, H., 1988. Foraminiferal Genera and their Classification. Van
          palaeogeographic evolution. Glob. Planet. Chang. 125, 36–47.  Nostrand Reinhold, New York (970 pp.).
        Clark, P.U., Dyke, A.S., Shakun, J.D., et al., 2009. The Last Glacial Maximum. Science 325,  Mann, C.C., 2011. The birth of religion. Natl. Geogr. 6, 2–25.
          710–714.                                           Milne, G.A., Mitrovica, J., 2008. Searching for eustasy in deglacial sea-level histories. Quat.
        Colantoni, P., Cremona, G., Ligi, M., et al., 1985. The Adventure Bank (off south-western  Sci. Rev. 27, 2292–2302.
          Sicily): a present day example of carbonate shelf sedimentation. Giorn. Geol. 3,  Mix, A.C., Bard, E., Schneider, R., 2001. Environmental processes of the ice age: land,
          165–180.                                              oceans, glaciers (EPILOG). Quat. Sci. Rev. 20, 627–657.