[Abbate, E., Bortolotti, V. & Passerini, P., 1970. Olistostromes and olistoliths. Sedimentary Geology 4, 521–557.10.1016/0037-0738(70)90022-9]Search in Google Scholar
[Aber, J.S. & Ber, A. 2007. Glaciotectonism. Developments in Quaternary Science, vol. 6. Elsevier, Amsterdam, 246 pp.]Search in Google Scholar
[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.]Search in Google Scholar
[Allen, J.R.L., 1982. Sedimentary structures: their character and physical basis, Vol. II. Elsevier, Amsterdam, 663 pp.]Search in Google Scholar
[Alsop, G.I., Marco, S., Weinberger, R. & Levi, T., 2016. Sedimentary and structural controls on seismogenic slumping within mass transport deposits from the Dead Sea Basin. Sedimentary Geology 344, 71–90.10.1016/j.sedgeo.2016.02.019]Search in Google Scholar
[Bouma, A.H., 1962. Sedimentology of some Flysch Deposits: A Graphic Approach to Facies Interpretation. Elsevier, Amsterdam, 168 pp.]Search in Google Scholar
[Chough, S.K., 2013. Geology and Sedimentology of the Korean Peninsula. Elsevier, Amsterdam, 348 pp.]Search in Google Scholar
[Chough, S.K. & Sohn, Y.K., 2010. Tectonic and sedimentary evolution of a Cretaceous continental arc–backarc system in the Korean Peninsula: new view. Earth-Science Reviews 101, 225–249.10.1016/j.earscirev.2010.05.004]Search in Google Scholar
[Chun S.S. & Chough S.K., 1992. Depositional sequences from high-concentration turbidity currents, Cretaceous Uhangri Formation (SW Korea). Sedimentary Geology 77, 225–233.10.1016/0037-0738(92)90128-E]Search in Google Scholar
[Dehandschutter, B., Vandycke, S., Sintubin, M., Vandenberghe, N. & Wouters, L., 2005. Brittle fractures and ductile shear bands in argillaceous sediments: inferences from Oligocene Boom Clay (Belgium). Journal of Structural Geology 27, 1095–1112.10.1016/j.jsg.2004.08.014]Search in Google Scholar
[Gibert, L., Sanz de Galdeano, C., Alfaro, P., Scott, G. & Lopez Garrido, A.C., 2005. Seismic induced slump in Early Pleistocene deltaic deposits of the Baza Basin (SE Spain). Sedimentary Geology 179, 279–294.10.1016/j.sedgeo.2005.06.003]Search in Google Scholar
[Gibert, L., Alfaro, P., García-Tortosa, F.J. & Scott, G., 2011. Superposed deformed beds produced by single earthquakes (Tecopa Basin, California): Insights into paleoseismology. Sedimentary Geology 235, 148–159.10.1016/j.sedgeo.2010.08.003]Search in Google Scholar
[Gladkov, A.S., Lobova, E.U., Deev, E.V., Korzhenkov, A.M., Mazeika, J.V., Abdieva, S.V., Rogozhin, E.A., Rodkin, M.V., Fortuna, A.B., Charimov, T.A. & Yudakhin, A.S., 2016. Earthquake-induced soft-sediment deformation structures in Late Pleistocene lacustrine deposits of Issyk-Kul lake (Kyrgystan). Sedimentary Geology 344, 112–122.10.1016/j.sedgeo.2016.06.019]Search in Google Scholar
[Gruszka, B. & Van Loon, A.J., 2011. Genesis of a giant gravity-induced depression (gravifossum) in the Enköping esker, S. Sweden. [In:] Owen, G., Moretti, M. & Alfaro, P. (Eds): Recognising triggers for soft-sediment deformation: current understanding and future directions. Sedimentary Geology 235, 304–313.10.1016/j.sedgeo.2010.10.004]Search in Google Scholar
[Hempton, M.R. & Dewey, J.F., 1983. Earthquake-induced deformational structures in young lacustrine sediments, East Anatolian Fault, southeast Turkey. Tectonophysics 98, T7–T14.10.1016/0040-1951(83)90294-9]Search in Google Scholar
[Jiang, J., Zhong, N., Li, Y., Xu, H., Yang, H. & Peng, X., 2016. Soft sediment deformation structures in the Lixian lacustrine sediments, eastern Tibetan Plateau and implications for postglacial seismic activity. Sedimentary Geology 344, 123–134.10.1016/j.sedgeo.2016.06.011]Search in Google Scholar
[Kim, S.B., Chough, S.K. & Chun, S.S., 1995. Bouldery deposits in the lowermost part of the Cretaceous Kyokpori Formation, SW Korea: cohesionless debris flows and debris falls on a steep-gradient delta slope. Sedimentary Geology 98, 97–119.10.1016/0037-0738(95)00029-8]Search in Google Scholar
[Kim, S.B., Chough, S.K. & Chun, S.S., 2003. Tectonic controls on spatio-temporal development of depositional systems and generation of fining-upward basin fills in a strike-slip setting: Kyokpori Formation (Cretaceous), south-west Korea. Sedimentology 50, 639–665.10.1046/j.1365-3091.2003.00568.x]Search in Google Scholar
[Ko, K., Park, S. & Kwon, C.W., 2015. Soft-sediment deformation structures in the Cretaceous Gyeokpori Formation of the Buan area, Korea: Structural characteristics, reconstruction of paleoslope and triggering mechanism of slump. Journal of Geological Society of Korea 51, 545–560 (in Korean, with English abstract).10.14770/jgsk.2015.51.6.545]Search in Google Scholar
[Ko, K., Kim, S.W., Lee, H.-J., Hwang, I.G., Kim, B.C., Kee, W.-S., Kim, Y.-S. & Gihm, Y.S., 2017. Soft sediment deformation structures in a lacustrine sedimentary succession induced by volcano-tectonic activities: an example from the Cretaceous Beolgeumri Formation, Wido Volcanics, Korea. Sedimentary Geology 358, 197–209.10.1016/j.sedgeo.2017.07.008]Search in Google Scholar
[Koh, H.J., Kwon, C.W., Park, S.I., Park, J. & Kee, W.S., 2013. Geological report of the Julpo and Wido-Hawangdeungdo sheets (1:50,000). Korea Institute of Geoscience and Mineral Resources, 81 pp. (in Korean, with English abstract).]Search in Google Scholar
[Lowe, D.R., 1982. Sediment gravity flows: II. Depositional models with special reference to the deposits of high-density turbidity currents. Journal of Sedimentary Petrology 52, 279–297.10.1306/212F7F31-2B24-11D7-8648000102C1865D]Search in Google Scholar
[Martinsen, O.J., 1989. Styles of soft-sediment deformation on a Namurian delta slope, western Irish Namurian Basin, Ireland. [In:] M.K.G. Whateley & K.T. Pickering (Eds): Deltas: sites and traps for fossil fuels. Geological Society, London, Special Publications 41, 167–177.10.1144/GSL.SP.1989.041.01.13]Search in Google Scholar
[Mills, P.C., 1983. Genesis and diagnostic value of soft-sediment deformation structures – a review. Sedimentary Geology 35, 83–104.10.1016/0037-0738(83)90046-5]Search in Google Scholar
[Moretti, M., Alfaro, P. & Owen, G., 2016. The environmental significance of soft-sediment deformation structures: key signatures for sedimentary and tectonic processes. Sedimentary Geology 344, 1–4.10.1016/j.sedgeo.2016.10.002]Search in Google Scholar
[Moretti, M. & Sabato, L., 2007. Recognition of trigger mechanisms for soft-sediment deformation in the Pleistocene lacustrine deposits of the Sant’Arcangelo Basin (southern Italy): seismic shock vs. overloading. Sedimentary Geology 196, 31–45.10.1016/j.sedgeo.2006.05.012]Search in Google Scholar
[Mulder, T. & Alexander, J., 2001. The physical character of subaqueous sedimentary density currents and their deposits. Sedimentology 48, 269–299.10.1046/j.1365-3091.2001.00360.x]Search in Google Scholar
[Nemec, W. & Steel, R.J., 1984. Alluvial and coastal conglomerates: their significant features and some comments on gravelly mass-flow deposits. [In:] Koster, E.H. & Steel, R.J. (Eds.): Sedimentology of Gravels and Conglomerates. Memoir of the Canadian Society of Petroleum Geology 10, pp. 1–31.]Search in Google Scholar
[Neuwerth, R., Suter, F., Guzman, C.A. & Gorin, G.E., 2006. Soft-sediment deformation in a tectonically active area: The Plio-Pleistocene Zarzal Formation in the Cauca Valley (Western Colombia). Sedimentary Geology 186, 67–88.10.1016/j.sedgeo.2005.10.009]Search in Google Scholar
[Owen, G., 1996. Experimental soft-sediment deformation: structures formed by the liquefaction of unconsolidated sands and some ancient examples. Sedimentology 43, 279–293.10.1046/j.1365-3091.1996.d01-5.x]Search in Google Scholar
[Pini, G.A., 1999. Tectonosomes and olistostromes in the Argille Scagliose of the Northern Apennines, Italy. Geological Society of America Special Paper 335, 1–69.10.1130/0-8137-2335-3.1]Search in Google Scholar
[Porębski. S.J. & Steel. R.J., 2003. Shelf-margin deltas: their stratigraphic significance and relation to deepwater sands. Earth-Science Reviews 62, 283–326.10.1016/S0012-8252(02)00161-7]Search in Google Scholar
[Raukas, A., Tirmaa, R., Kaup, E. & Kimmel, 2001. The age of the Ilumetsa meteorite craters in southeast Estonias. Meteoritics and Planetary Science 36, 1507–1514.10.1111/j.1945-5100.2001.tb01842.x]Search in Google Scholar
[Rodríguez-Pascua, M.A., Calvo, J.P., de Vicente, G. & Gomez Gras, D., 2000. Seismites in lacustrine sediments of the Prebetic Zone, SE Spain, and their use as indicators of earthquake magnitudes during the Late Miocene. Sedimentary Geology 135, 117–135.10.1016/S0037-0738(00)00067-1]Search in Google Scholar
[Rygel, M.C., Gibling, M.R. & Calder, J.H., 2004. Vegetation-induced sedimentary structures from fossil forests in the Pennsylvanian Joggins Formation, Nova Scotia. Sedimentology 51, 531–552.10.1111/j.1365-3091.2004.00635.x]Search in Google Scholar
[Sims, J.D., 1973. Earthquake-induced structures in sediments of Van Norman Lake, San Fernando, California. Science 182, 161–163.10.1126/science.182.4108.16117777896]Search in Google Scholar
[Sims, J.D., 1975. Determining earthquake recurrence intervals from deformational structures in young lacustrine sediments. Tectonophysics 29, 141–152.10.1016/B978-0-444-41420-5.50020-4]Search in Google Scholar
[Talling, P.J., Amy, L.A., Wynn, R.B., Peakall, J. & Robinson, M., 2004. Beds comprising debrite sandwiched within co-genetic turbidite: origin and widespread occurrence in distal depositional environments. Sedimentology 51, 163–194.10.1111/j.1365-3091.2004.00617.x]Search in Google Scholar
[Tanner, L.H. & Lucas, S.G., 2007. The Moenave Formation: Sedimentologic and stratigraphic context of the Triassic–Jurassic boundary in the Four Corners area, southwestern USA. Palaeogeography, Palaeoclimatology, Palaeoecology 244, 111–125.10.1016/j.palaeo.2005.06.039]Search in Google Scholar
[Taşgın, C.K. & Türkmen, I., 2009. Analysis of soft-sediment deformation structures in Neogene fluvio-lacustrine deposits of Çaybağı Formation, Eastern Turkey. Sedimentary Geology 218, 16–30.10.1016/j.sedgeo.2009.04.009]Search in Google Scholar
[Taşgın, C.K., Orhan, H., Türkmen, I. & Aksoy, E., 2011. Soft-sediment deformation structures in the late Miocene Şelmo Formation around Adıyaman area, Southeastern Turkey. Sedimentary Geology 235, 277–291.10.1016/j.sedgeo.2010.08.005]Search in Google Scholar
[Tipper, J.C., Sach, V.J. & Heizmann, E.P.J., 2003. Loading fractures and Liesegang laminae: new sedimentary structures found in the north-western North Alpine Foreland Basin (Oligocene-Miocene, south-west Germany). Sedimentology 50, 791–813.10.1046/j.1365-3091.2003.00578.x]Search in Google Scholar
[Uchman, A., Bak, K. & Rodríguez-Tovar, F.J., 2008. Ichnological record of deep-sea palaeoenvironmental changes around the Oceanic Anoxic Event 2 (Cenomanian-Turonian boundary): an example from the Barnasiówka section, Polish Outer Carpathians. Palaeo-geography, Palaeoclimatology, Palaeoecology 262, 61–71.10.1016/j.palaeo.2008.02.002]Search in Google Scholar
[Van Loon, A.J., 2009. Soft-sediment deformation structures in siliciclastic sediments: an overview. Geologos 15, 3–55.]Search in Google Scholar
[Van Loon, A.J., 2002. Soft-sediment deformations in the Kleszczów Graben (central Poland). [In:] P.K. Bose, S. Sarkar & P.G. Ericksson (Eds): Rift basins: sedimentology and palaeontology – Chanda Memorial Issue. Sedimentary Geology 147, 57–70.10.1016/S0037-0738(01)00187-7]Search in Google Scholar
[Williams, G.E., Gostin, V.A., McKirdy, D.M. & Preiss, W.V., 2008. The Elatina glaciation, late Cryogenian (Marinoan Epoch), South Australia: Sedimentary facies and palaeoenvironments. Precambrian Research 163, 307–331.10.1016/j.precamres.2007.12.001]Search in Google Scholar
[Wynn, J.C., 1998. The day that sands got fire. Scientific American Magazine 279, 64–71.10.1038/scientificamerican1198-64]Search in Google Scholar
[Yang, R. & Van Loon, A.J., 2016. Early Cretaceous slumps and turbidites with peculiar soft-sediment deformation structures on Lingshan Island (Qingdao, China) indicating a tensional tectonic regime. Journal of Asian Earth Sciences 129, 206–219.10.1016/j.jseaes.2016.08.014]Search in Google Scholar
[Yang, R., Van Loon, A.J., Yin, W., Fan, A. & Han, Z., 2016. Soft-sediment deformation structures in cores from lacustrine slurry deposits of the Late Triassic Yanchang Fm. (central China). Geologos 22, 201–211.10.1515/logos-2016-0021]Search in Google Scholar
[Yang, R., Fan, A., Han, Z. & Van Loon, A.J., 2017. Lithofacies and origin of the Late Triassic muddy gravity-flow deposits in the Ordos Basin, central China. Marine and Petroleum Geology 85, 194–219.10.1016/j.marpetgeo.2017.05.005]Search in Google Scholar
[Zhao, L., Zhou, Y. & Van Loon, A.J., 2018. Soft-sediment deformation structures induced by rapid sedimentation in Early Cretaceous turbidites, Lingshan Island, eastern China. Canadian Journal of Earth Sciences 55, 118–129.10.1139/cjes-2017-0106]Search in Google Scholar