SEARCH

SEARCH BY CITATION

References

  • Alsop, G. I., and S. Marco (2011), Soft-sediment deformation within seismogenic slumps of the Dead Sea Basin, J. Struct. Geol., 33(4), 433457.
  • Benson, A. K., and N. B. Mustoe (1995), Analyzing shallow faulting at a site in the Wasatch fault zone, Utah, USA, by integrating seismic, gravity, magnetic, and trench data, Eng. Geol., 40(3–4), 139156.
  • Campbell, F. M., F. Ghisetti, A. E. Kaiser, A. G. Green, Horstmeyer H., and Gorman A. R. (2010), Structure and evolution of the seismically active Ostler Fault Zone (New Zealand) based on interpretations of multiple high resolution seismic reflection profiles, Tectonophysics, 495(3–4), 195212.
  • Cabral, J., C. Monitz, P. Ribeiro, P. Terrinha, and L. Matias (2003), Analysis of seismic reflection data as a toll for the seismotectonic assessment of a low acitvity intraplate basin—The Lower Tagus Valley (Portugal), J. Seismolog., 7, 431447.
  • Carvalho, J., H. Matias, L. Torres, G. Manupella, R. Pereira, and L. Mendes-Victor (2005), The structural and sedimentary evolution of the Arruda and Lower Tagus sub-basins, Portugal, Mar. Pet. Geol., 22(3), 427453.
  • Carvalho, J., J. Cabral, R. Gonalves, L. Torres, and L. Mendes-Victor (2006), Geophysical methods applied to fault characterization and earthquake potential assessment in the Lower Tagus Valley, Portugal, Tectonophysics 418(3–4), 277297.
  • Carvalho, J., T. Rabeh, F. Carrilho, J. Cabral, and M. Miranda (2008), Geophysical characterization of the Ota-Vila Franca de Xira-Lisbon-Sesimbra fault zone, Portugal, Geophys. J. Int., 174, 567584.
  • Compton, R. R. (1985), Geology in the Field, John Wiley & Sons, New York.
  • Elliot, T., and K. O. Ladipo (1981), Syn-sedimentary gravity slides (growth faults) in the Coal Measures of South Wales, Nature, 291, 220222.
  • Ferry, M., M. Meghraoui, B. Delouis, and D. Giardini (2005), Evidence for Holocene paleoseismicity along the Basel-Rheinach active normal fault (Swizerland): A seismic source for the 1356 earthquake in the Upper Rhine Graben, Geophys. J. Int., 160(1), 554572.
  • Floyd, J. S., J. C. Mutter, A. M. Goodlife, and B. Taylor (2001), Evidence of fault weakness and fluid flow within an active low-angle normal fault, Nature, 411, 779783.
  • Fossen, H. (2010), Deformation bands formed during soft-sediment deformation: Observations from SE Utah, Mar. Pet. Geol., 27, 215222.
  • Ghose, R., and J. Goudswaard (2004), Integrating S-wave seismic reflection data and cone-penetration-test data using a multiangle multiscale approach., Geophysics, 69(2), 440459.
  • Harris J. B. (2009), Hammer-impact SH-wave seismic reflection methods in neotectonic investigations: General observations and case histories from the Mississippi embayment, U.S.A., J. Earth Sci., 20(3), 513524.
  • Justo, J. L., and C. Salwa (1998), Lisbon earthquake, Bull. Seismol. Soc. Am., 88, 319328.
  • Kuwahara, Y., and H. Ito (2002), Fault low velocity zones deduced by trapped waves and their relation to earthquake rupture processes, Earth Planets Space, 54, 10451048.
  • Neuwerth, R., F. Suter, C. A. Guzman, and G. E. Gorin (2006), Soft-sediment deformation in a tectonically active area: The Plio-Pleistocene Zarzal Formation in the Cauca Valley (Western Colombia), Sediment. Geol., 186(1–2), 6788.
  • Perea, H., P. Figueiredo, J. Carner, S. Gambini, and K. Boydell (2003), Paleoseismological data from a new trench across the El Camp Fault (Catalan Coastal Ranges, NE Iberian Peninsula), Ann. Geophys., 46(5), 763774.
  • Rasmussen, E. S., S. Lomholt, C. Anderson, and O. V. Vejbaek (1998), Aspects of the structural evolution of the Lusitanian Basin in Portugal and the shelf and slope area offshore Portugal, Tectonophysics, 300(1–4), 199225.
  • Rockwell, T., J. Fonseca, C. Madden, T. Dawson, L. A. Owe, S. Vilanova, and P. Figueiredo (2009), Palaeoseismology of the Vilaria Segment of the Manteigas-Bragana Fault in northeastern Portugal, in Palaeoseismology: Historical and Prehistorical Records of Earthquake Ground Effects for Seismic Hazard Assessment, Vol. 316, edited by K. Reicherter, A. M. Michetti, and P. G. Silva The Geological Society, London, Special Publications, 237258.
  • Sugiyama, Y., K. Mizuno, F. Nanayama, T. Sugai, H. Yokota, T. Hosoya, K. Miura, K. Takemura, and N. Kitada (2003), Study of blind thrust faults underlying Tokyo and Osaka urban areas using a combination of high-resolution seismic reflection profiling and continuous coring, Ann. Geophys., 46(5), 10711085.
  • Thorbecke, J., D. Dragannov (2011), Finite-difference modeling experiments for seismic interferometry, Geophysics, 76(6), H1H18.
  • van Loon, A. J. (2009), Soft-sediment deformation structures in siliciclastic sediments: An overview, Geologos, 15(1), 355.
  • Vanneste, K., M. Meghraoui, and T. Camelbeeck (1999), Late Quaternary earthquake-related soft-sediment deformation along the Belgian portion of the Feldbiss Fault, Lower Rhine Graben system, Tectonophysics, 309(1–4), 5779.
  • Wang, Z., I. P. Madlin, and E. W. Woolery (2004), Shallow SH-wave seismic investigation of the Mt. Angel Fault, Northwest Oregon, USA, Tectonophysics, 368(1–4), 105117.
  • Williams, R. A., W. J. Stephenson, J. K. Odum, and D. M. Worley (2001), Seismic reflection imaging of Tertiary faulting and related post-Eocene deformation 20 km north of Memphis, Tennessee, Eng. Geol., 62(1–3), 7990.
  • Woolery, E. W., R. Street, Z. Wang, and J. B. Harris (1993), Near surface deformation in the New Madrid seismic zone as imaged by high-resolution SH-wave seismic methods, Geophys. Res. Lett., 20(15), 16151618.
  • Vis, G., C. Kasse (2009), Late Quaternary valley-ll succession of the Lower Tagus Valley, Portugal, Sediment. Geol., 221(1–4), 1939.