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-depositional ruptures and slumping in an exposure near Pobla de Segur (Spain). Geologie en Mijnbouw 42, 363-374. Odin, G.S. & Matter, A., 1981. De glauconiarum origine. Sedimentology 28, 611-641. Orti, F., Rosell, L. & Anadon, P., 2003. Deep to shallow lacustrine evaporites in the Libros Gypsum (southern Teruel Basin, Miocene, NE Spain): an occurrence of pelletal gypsum rhythmites. Sedimentology 50, 361386. Owen, G., 1996. Experimental soft-sediment deformation: structures formed by the liquefaction of unconsolidat-ed sands and some ancient examples. Sedimentology 43, 279

Sciences 47, 123-142. Ezquerro, L., Moretti, M., Liesa, C.L., Luzón, A. & Simón, J.J., 2015. Seismites from a well core of palustrine deposits as a tool for reconstructing the palaeoseismic history of a fault. Tectonophysics 655, 191-205. Ezquerro, L., Moretti, M., Liesa, C.L., Luzón, A., Pueyo, E.L. & Simón, J.L., 2016. Controls on space-time distribution of soft-sediment deformation structures: applying palaeomagnetic dating to approach the apparent recurrence period of paleoseisms at the Concud Fault (eastern Spain). Sedimentary Geology: 344, 91-111. Ghosh, S

., Banerjee, S., Van Loon, A.J. & Bose, P.K., 2014. Seismic and non-seismic soft-sediment deformation structures in the Proterozoic Bhander Limestone, central India. Geologos 20, 89-103. Seed, H., Idriss, I. & Arango, I., 1983. Evaluation of liquefaction potential using field performance data. Journal of Geotechnical Engineering 109, 458-482. Seilacher, A., 1969. Fault-graded beds interpreted as seis-mites. Sedimentology 13, 155-159. Seilacher, A., 1984. Sedimentary structures tentatively attributed to seismic events. Marine Geology 55, 1-12. Smalley, R.F. & Isacks, B

, 1027-1037. Nichols, R.J., Sparks, R.S.J. & Wilson, C.J.N., 1994. Experimental studies of the fluidization of layered sediments and the formation of fluid escape structures. Sedimentology 41, 233-253. Owen, G., 1995. Soft-sediment deformation in Upper Pro-terozoic Torridonian sandstones (Applecross Formation) at Torridon, Northwest Scotland. Journal of Sedimentary Research A65, 495-504 Owen, G., 1996. Experimental soft-sediment deformation: structures formed by the liquefaction of unconsolidat-ed sands and some ancient examples. Sedimentology 43, 279-293. Parise, O

References Allen, J.R.L., 1982. Sedimentary structures, their character and physical basis, Vol. 2. Developments in Sedimen-tology. Elsevier (Amsterdam) 30B, 663 pp. Blanc, E.J.P., Blanc-Alétru, M.C. & Mojon, P.O., 1998. Soft-sediment deformation structures interpreted as seismites in the uppermost Aptian to lowermost Al-bian transgressive deposits of the Chihuahua Basin (Mexico). Geologische Rundschau 86, 875-883. Brodzikowski, K. & Van Loon, A.J., 1987. A systematic classification of glacial and periglacial environments, facies and deposits. Earth

References Abbate, E., Bortolotti, V. & Passerini, P., 1970. Olistostromes and olistoliths. Sedimentary Geology 4, 521–557. Aber, J.S. & Ber, A. 2007. Glaciotectonism . Developments in Quaternary Science, vol. 6. Elsevier, Amsterdam, 246 pp. Alfaro, P., Moretti, M. & Soria, J.M., 1997. Soft-sediment deformation structures induced by earthquakes (seismites) in Pliocene lacustrine deposits (Guadix-Baza Basin, central Betic Cordillera). Eclogae Geologicae Helvetiae 90, 531–540. Allen, J.R.L., 1982. Sedimentary structures: their character and physical basis

.M., 1997. Soft-sediment deformation structures induced by earthquakes (seis-mites) in Pliocene lacustrine deposits (Guadix-Baza Basin, central Betic Cordillera). Eclogae Geologicae Hel-vetiae 90, 531-540. Allen, C.R., 1975. Geological criteria for evaluating seis-micity. Geological Society of American Bulletin 86, 10411057. Allen, J.R.L., 1986. Earthquake magnitude-frequency, epicentral distance and soft-sediment deformation in sedimentary basins. Sedimentary Geology 46, 67-75. Ambraseys, N.N., 1988. Engineering seismology. Earthquake Engineering and Structural

References Chen, D.G. & Peng, Z.C., 1985. K-Ar ages and Pb-Sr iso-topic characteristics of Cenozoic volcanic rocks in Shandong, China. Geochimica 4, 293-303 (in Chinese with English abstract). Chen, J. & Lee, H.S., 2013. Soft-sediment deformation structures in Cambrian siliciclastic and carbonate storm deposits (Shandong Province, China): Differential liquefaction and fluidization triggered by storm-wave loading. Sedimentary Geology 288, 81-94. Chen, S.Y., Yuan W.F. & Yan, J.H., 2003. Discovery and significance of earthquake event deposits of Early Tertiary in

176, 167-193. Mazumder, R. & Sarkar, S. 2004. Sedimentation history of the Palaeoproterozoic Dhanjori Formation, Singhbhum, India and its implications. Precambrian Research 130, 267-287. Mazumder, R., Van Loon, A.J. & Arima, M., 2006. Soft-sediment deformation structures in the Earth's oldest seismites. Sedimentary Geology 186, 19-26. Mazumder, R., Rodriguez-Lopez, J.A., Arima, M. & Van Loon, A.J., 2009. Palaeoproterozoic seismites (finegrained facies of the Chaibasa Fm., E. India) and their soft-sediment deformation structures. [In:] S.M. Reddy, R. Mazumder, D

Baishushan, Hebei Province. Geological Bulletin of China 21, 625-628 (in Chinese). Mats, V.D., 2012. The sedimentary fill of the Baikal Basin: Implications for rifting age and geodynamics. Russian Geology and Geophysics 53, 936-954. Mazumder, R., Van Loon, A.J. & Arima, M., 2006. Soft-sediment deformation structures in the Earth's oldest seismites. Sedimentary Geology 186, 19-26. Mazumder, R., Rodríguez-López, J.P., Arima, M. & Van Loon, A.J., 2009. Palaeoproterozoic seismites (finegrained facies of the Chaibasa Fm., E India) and their soft-sediment deformation