Search Results

1 - 10 of 19 items :

  • "seismites" x
Clear All

References Alfaro, P., Gibert, L., Moretti, M., García-Tortosa, F.J., Sanz de Galdeano, C., Jesüs Galindo-Zaldívar, J. & López-Garrido, A.C., 2010. The significance of giant seismites in the Plio-Pleistocene Baza palaeo-lake (S Spain). Terra Nova 22, 172-179. Anderson, R.A., 1967. Graben structure in the Coeur d'Alene district, Idaho. Economic Geology 62, 10921094. Brodzikowski, K., Gotowala, R., Kasza, L. & Van Loon, A.J., 1987. The Kleszczów Graben (central Poland): reconstruction of the deformational history and inventory of the resulting soft

.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

. Sedimentology 22, 157-204. Malone, S.J., Meert, J.G., Banerjee, D.M., Pandit, M.K., Tamrat, E., Kamenov, G.D., Pradhan, V.R. & Sohl, L.E., 2008. Paleomagnetism and detrital zircon ge-ochronology of the Upper Vindhyan sequence, Son Valley and Rajasthan, India: a ca. 1000 Ma closure age for the Purana basins? Precambrian Research 164, 137-159. Moretti, M. & Van Loon, A.J., 2014. Restrictions to the application of ‘diagnostic’ criteria for recognizing ancient seismites. Journal of Palaeogeography 3, 13-24. Nagtegaal, P.J.C., 1963. Convolute lamination, meta

the Jiyang depression. Chinese Journal of Geology 38, 377-384 (in Chinese with English abstract). Du, Y.S. & Han, X., 2000. Seismo-deposition and seis-mites. Advance in Earth Sciences 15, 389-394 (in Chinese with English abstract). Du, Y.S., Zhang, C.H., Han, X., Gu, S.Z. & Lin, W.J., 2001. Earthquake event deposits in Mesoproterozoic Kun-yang Group in central Yunnan and its geological implications. Science China (D: Earth Sciences) 31, 284-290 Du, Y.S., Shi, G., Gong, Y.M. & Xu, Y.J., 2007. Permian soft-sediment deformation structures related to earthquakes in

), 274 pp. He, B., Qiao, X., Jiao, C., Xu, Z., Cai, Z., Guo, X., Zhang, Y. & Zhang, M., 2014. Palaeo-earthquake events in the late Early Palaeozoic of the central Tarim Basin: evidence from deep drilling cores. Geologos 20, 105-123. Hilbert-Wolf, H.L., Simpson, E.L., Simpson, W.S., Tin- dallw, S.E. & Wizevichz, M.C., 2009. Insights into syndepositional fault movement in a foreland basin; trends in seismites of the Upper Cretaceous Wah-weap Formation, Kaiparowits Basin, Utah, USA. Basin Research 21, 856-871. Ietto, A., Pescatore, T. & Cocco, E., 1965. Il flysch meso

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

America Bulletin 77, 1315-1326. He, B., Qiao, X., Jiao, C., Xu, Z., Cai, Z., Guo, X., Zhang, Y. & Zhang, M., 2014. Paleo-earthquake events in the late Early Palaeozoic of the central Tarim Basin: evidence from deep drilling cores. Geologos 20, 105-123. Jiang, H., Mao, X. Xu, H., Yang, H., Ma, X., Zhong, N. & Li, Y., 2014. Provenance and earthquake signature of the last deglacial Xinmocun lacustrine sediments at Diexi, East Tibet. Geomorphology 204, 518-531. Kleverlaan, K., 1987. Gordo megabed: a possible seismite in a Tortonian submarine fan, Tabernas Basin, province

., Fagel, N. & De Ba-tist, M., 2008. Reconstruction of the Holocene seismo-tectonic activity of the Southern Andes from seismites recorded in Lago Icalma, Chile, 39°S. Palaeogeography Palaeoclimatology Palaeoecology 259, 301-322. Field, M.E., Gardner, J.V., Jennings, A.E. & Edwards, B.D., 1982. Earthquake-induced sediment failures on a 0.25° slope, Klamath River delta, California. Geology 10, 542-546. García-Tortosa, F.J., Alfaro, P., Gibert, L. & Scott, G., 2011. Seismically induced slump on an extremely gentle slope (<1°) of the Pleistocene Tecopa paleolake

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

References 1. FUKUTAKE K., OHTSUKI A., SATO M. & SHAMOTO Y. (1990): Analysis of saturated dense sand-structure system and comparison with results from shaking table test, Earthquake Engineering & Structural Dynamics, 19, 7, 977-992. 2. MATSUO O., TSUTSUMI T., YOKOYAMA K. & SAITO Y. (1998): Shaking table tests and analyses of geosynthetic-reinforced soil retaining walls, Geosynthetics International, 5, 1-2, 97-126. 3. MORETTI M., ALFARO P., CASELLES O. & CANAS J. A. (1999): Modelling seismites with a digital shaking table, Tectonophysics, 304, 4, 369-383. 4