Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
61--66
Opis fizyczny
Bibliogr. 44 poz.
Twórcy
autor
- Geological Institute, Adam Mickiewicz University, Maków Polnych 16, 61-606 Poznań, Poland
Bibliografia
- Anketell, J.M., Cegła, J. & Dżułyński, S., 1969. Unconformable surfaces formed in the absence of current erosion. Geologia Romaniei 8, 41–46.
- Anketell, J.M., Cegła, J. & Dżułyński, S., 1970. On the deformational structures in systems with reversed density gradients. Annales Societatis Geologorum Poloniae 1, 3–30.
- Dżułyński, S. & Walton, E.K., 1965. Sedimentary features of flysch and greywackes. Elsevier (Amsterdam), 274 pp.
- Goodman, R.E. & Appuhn, R.A., 1966. Model experiments on the earthquake response of soil-filled basins. Geological Society of 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 Almeria, southeast Spain. Sedimentary Geology 51, 165–180.
- Koga, Y. & Matsuo, O., 1990. Shaking table tests of embankments resting on liquefiable sandy ground. Soils and Foundation 30, 163–174.
- Korzhenkov, A.M., Avanesian, M.A., Karakhanian, A.S. & Virgino, A., 2014. Seismic convolutions in the Quaternary deposits of Lake Sevan, Armenia. Russian Geology and Geophysics 55, 46–53.
- Kuenen, P.H., 1958. Experiments in geology. Transactions of the Geological Society of Glasgow 23, 1–26.
- Liang, D.Y., Song, Z.M. & Nie, Z.T., 2002. Seismites in the Middle Proterozoic at 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 (fine-grained facies of the Chaibasa Fm., E India) and their soft-sediment deformation structures. [In:] S. Reddy, R. Mazumder, D. Evans & A. Collins (Eds): Palaeoproterozoic supercontinents and global evolution. Geological Society, London, Special Publications 323, 301–318.
- McKee, E.D. & Goldberg, M., 1969. Experiments on formation of contorted structures in mud. Geological Society of America Bulletin 80, 231–244.
- Montenat, C., Barrier, P., Ott d’Estevou, P. & Hibsch, C., 2007. Seismites: an attempt at critical analysis and classification. Sedimentary Geology 196, 5–30.
- Moretti, M. & Van Loon, A.J., 2014. Restrictions to the application of ‘diagnostic’ criteria for recognizing ancient seismites. Journal of Palaeogeography 3 (162–173).
- Moretti, M., Alfaro, P., Caselles, O. & Canas, J.A., 1999. Modelling seismites with a digital shaking table. Tectonophysics 304, 369–383.
- Mugnier, J.-L., Gajurel, A., Huyghe, P., Jayangondaperumal, R., Jouanne, F. & Upreti, B., 2013. Structural interpretation of the great earthquakes of the last millennium in the central Himalaya. Earth-Science Reviews 127, 30–47.
- Nichols, R.J., Sparks, R.S.J. & Wilson, C.J.N., 1994. Experimental studies of the fluidisation of layered sediments and the formation of fluid escape structures. Sedimentology 41, 233–253.
- Owen, G., 1985. Mechanism and controls of deformation in unconsolidated sands: an experimental approach. Ph.D. Thesis University of Reading, 2 volumes, 674 pp.
- Owen, G., 1987. Deformation processes in unconsolidated sands. [In:] M.E. Jones & R.M.F. Preston (Eds): Deformation of sediments and sedimentary rocks. Geological Society, London, Special Publications 29, 11–24.
- Owen, G., 1996. Experimental soft-sediment deformation: structures formed by the liquefaction of unconsolidated sands and some ancient examples. Sedimentology 43, 279–293.
- Owen, G. & Moretti, M., 2011. Identifying triggers for liquefaction-induced soft-sediment deformation in sands. Sedimentary Geology 235, 141–147.
- Perucca, L.P., Godoy, E. & Pantano, A., 2014. Late Pleistocene-Holocene earthquake-induced slumps and soft-sediment deformation structures in the Acequion River valley, Central Precordillera, Argentina. Geologos 20, 147–156.
- Qiao, X., Gao, L. & Peng, Y., 2007. Mesoproterozoic earthquake event and breakup of the Sino-Korean Plate. Acta Geologica Sinica (English Edition) 81, 385–397.
- Rettger, R.E., 1935. Experiments on soft-rock deformation. American Association of Petroleum Geologists Bulletin 19, 271–292.
- Rogers, F.J., 1930. Experiments with a shaking machine. Bulletin of the Seismological Society of America 20, 149–155.
- Santos, M.G.M., Almeida, R.P., Mountney, N.P. & Fragoso-Cesar, A.R.S., 2012. Seismites as a tool in the palaeoenvironmental reconstruction of fluvial deposits: the Cambrian Guarda Velha Formation, southern Brazil. Sedimentary Geology 277/278, 52–60.
- Sarkar, S., Choudhuri, A., 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.
- Schneiderhan, E.A., Bhattacharya, H.N., Zimmermann, U. & Gutzmer, J., 2013. Archean seismites of the Ventersdorp Supergroup, South Africa. South African Journal of Geology 108, 345–350.
- Seilacher, A., 1969. Fault-graded beds interpreted as seismites. Sedimentology 13, 15–159.
- Seilacher, A., 1984. Sedimentary structures tentatively attributed to seismic events. Marine Geology 55, 1–12.
- Sims, J.D., 1973. Earthquake-induced structures in sediments of Van Norman Lake, San Fernando, California. Science 182, 161–163.
- Sims, J.D., 1975. Determining earthquake recurrence intervals from deformational structures in young lacustrine sediments. Tectonophysics 29, 141–152.
- Spalletta, C. & Vai, G.B., 1984. Upper Devonian intraclast parabreccias interpreted as seismites. Marine Geology 55, 133–144.
- Tian, H.S., Zhang, B.H., Zhang, S.H. & Lü, M.Y., 2014, Neogene seismites and seismic volcanic rocks in the Linqu area , Shandong Province, E China. Geologos 20, 125–137.
- Tohver, E., Cawood, P.A., Riccomini, C., Lana, C. & Trindade, R.I.F., 2013. Shaking a methane fizz: seismicity from the Araguainha impact event and the Permian-Triassic global carbon isotope record. Palaeogeography, Palaeoclimatology, Palaeoecology 387, 66–75.
- Üner, S., 2014. Seismogenic structures in Quaternary lacustrine deposits of Lake Van (eastern Turkey). Geologos 20, 79–87.
- Valente, A., Ślączka, A. & Cavuoto, G., 2014. Soft-sediment deformation in Miocene deep-sea clastic deposits (Cilento, southern Italy). Geologos 20, 67–78.
- Van Loon, A.J., 2009. Soft-sediment deformation structures in siliciclastic sediments: an overview. Geologos 15, 3–55.
- Van Loon, A.J., 2014. The Mesoproterozoic ‘seismite’ at Laiyuan (Hebei Province, E China) re-interpreted. Geologos 20, 139–146.
- Van Loon, A.J. & Pisarka-Jamroży, M., 2014. Sedimentological evidence of Pleistocene earthquakes in NW Poland induced by glacio-isostatic rebound. Sedimentary Geology 300, 1–10.
- Van Loon, A.J. & Su, D., 2013. Deformed stromatolites in marbles of the Mesoproterozoic Wumishan Formation as evidence for synsedimentary seismic activity. Journal of Palaeogeography 2, 390–401.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ce5a74c8-1018-410a-84dc-5823b5ec17d0