1. bookTom 20 (2014): Zeszyt 2 (June 2014)
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2080-6574
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24 Dec 2009
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Seismic and non-seismic soft-sediment deformation structures in the Proterozoic Bhander Limestone, central India

Data publikacji: 08 Jul 2014
Tom & Zeszyt: Tom 20 (2014) - Zeszyt 2 (June 2014)
Zakres stron: 89 - 103
Otrzymano: 11 Jan 2014
Przyjęty: 10 Apr 2014
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2080-6574
Pierwsze wydanie
24 Dec 2009
Częstotliwość wydawania
3 razy w roku
Języki
Angielski

Akhtar, K., 1996. Facies, sedimentation processes and environments in the Proterozoic Vindhyan Basin, India. Memoir of Geological Society of India36, 127-136.Search in Google Scholar

Amorosi, A., 1997. Detecting compositional, spatial, and temporal attributes of glaucony: a tool for provenance research. Sedimentary Geology109, 135-153.10.1016/S0037-0738(96)00042-5Search in Google Scholar

Banerjee, S., Bhattacharya, S.K. & Sarkar, S., 2006. Carbon and oxygen isotope compositions of the carbonate fa-cies in the Vindhyan Supergroup, central India. Journal of Earth Systems Science115, 113-134.10.1007/BF02703029Search in Google Scholar

Banerjee, S., Jeevankumar, S. & Eriksson, P.G., 2008. Mg-rich illite in marine transgressive and highstand system tracts: examples from the Palaeoproterozoic Semri Group, central India. Precambrian Research162, 212-226.10.1016/j.precamres.2007.07.018Search in Google Scholar

Banerjee, S., Chattoraj, S.L., Saraswati, P.K., Dasgupta, S. & Sarkar, U., 2012a. Substrate control on formation and maturation of glauconites in the Middle Eocene Harudi Formation, western Kutch, India. Marine and Petroleum Geology30, 144-160.10.1016/j.marpetgeo.2011.10.008Search in Google Scholar

Banerjee, S., Chattoraj, S.L., Saraswati, P.K., Dasgupta, S., Sarkar, U. & Bumby, A., 2012b. The origin and maturation of lagoonal glauconites: a case study from the Oligocene Maniyara Fort Formation, western Kutch, India. Geological Journal,doi: 10.1002/gj.1345.10.1002/gj.1345Search in Google Scholar

Bathurst, R.G.C., 1975. Carbonate sediments and their di-agenesis.Developments in Sedimentology, Vol. 12. Elsevier (Amsterdam) 439 pp.Search in Google Scholar

Berra, F., & Felletti, F., 2011. Syndepositional tectonics recorded by soft-sediment deformation and liquefac-tionstructures (continental Lower Permian sediments, Southern Alps, Northern Italy): Stratigraphic significance. Sedimentary Geology235, 249-263.10.1016/j.sedgeo.2010.08.006Search in Google Scholar

Bose, P.K. & Chakraborty, P.P., 1994. Marine to fluvial transition: Proterozoic Upper Rewa Sandstone, Mai-har, India. Sedimentary Geology89, 285-302.10.1016/0037-0738(94)90098-1Search in Google Scholar

Bose, P.K., Banerjee, S., & Sarkar, S., 1997. Slope-controlled seismic deformation and tectonic framework of deposition: Koldaha Shale, India. Tectonophysics 269, 151-169.10.1016/S0040-1951(96)00110-2Search in Google Scholar

Bose, P.K., Sarkar, S., Chakraborty, S. & Banerjee, S., 2001. Overview of the Meso- to Neoproterozoic evolution of the Vindhyan basin, central India. Sedimentary Geology141, 395-419.10.1016/S0037-0738(01)00084-7Search in Google Scholar

Bose, P.K., Eriksson, P.G., Sarkar, S., Wright, D., Samanta, P., Mukhopadhyay, S., Mandal, S., Banerjee, S. & Al-termann, W., 2012. Sedimentation patterns during the Precambrian: a unique record. Marine and Petroleum Geology33, 34-68.10.1016/j.marpetgeo.2010.11.002Search in Google Scholar

Campbell, K.A., Nesbitt, E.A. & Bourgeois, J., 2006. Signatures of storms, oceanic floods and forearc tectonism in marine shelf strata of the Quinault Formation (Pliocene), Washington, USA. Sedimentology53, 945-969.10.1111/j.1365-3091.2006.00788.xSearch in Google Scholar

Chakraborty, P.P., 1996. Facies and sequence development in some late Proterozoic Formations in Son valley, India with some clues for basin evolution.Unpublished Ph.D. thesis Jadavpur University (Calcutta) 104 pp.Search in Google Scholar

Chakraborty, P.P., 2011. Slides, soft-sediment deformations, and mass flows from Proterozoic Lakheri Limestone Formation, Vindhyan Supergroup, central India, and their implications towards basin tectonics. Facies57, 331-349.10.1007/s10347-010-0241-1Search in Google Scholar

Chakraborty, P.P., Sarkar, S. & Bose, P.K., 1998. A viewpoint on intracratonic chenier evolution: clue from a reappraisal of the Proterozoic Ganurgarh Shale, central India. [In:] B.S. Palliwal (Ed.): The Indian Pre-cambrians.Scientific Publishers (Jodhpur), 61-72.Search in Google Scholar

Chakraborty, P.P., Sarkar, A., Bhattacharya, S.K. & San-yal, P., 2002. Isotopic and sedimentological clues to productivity change in Late Riphean Sea: a case study from two intracratonic basins of India. Proceedings of the Indian Academy of Sciences (Earth and PlanetarySciences)111, 379-390.10.1007/BF02702051Search in Google Scholar

Chanda, S.K. & Bhattacharya, A., 1982. Vindhyan sedimentation and paleogeography: Post-Auden developments. [In:] K.S. Valdiya, S.B. Bhatia & V.K. Gaur (Eds.): Geology of Vindyanchal.Hindustan Publ. Corporation, Delhi, 88-101Search in Google Scholar

Chen, J., Chough, S.K., Chun, S.S. & Han, Z., 2009. Limestone pseudoconglomerates in the Late Cambrian Gushan and Chaomidian Formations (Shandong Province, China): soft-sediment deformation induced by storm-wave loading. Sedimentology56, 1174-1195.10.1111/j.1365-3091.2008.01028.xSearch in Google Scholar

Coleman, M.L. & Raiswell, R., 1995. Source of carbonate and origin of zonation in pyritiferous carbonate concretions: evaluation of a dynamic model. AmericanJournal of Science295, 282-308.10.2475/ajs.295.3.282Search in Google Scholar

Cook, H.E. & Mullins, H.T., 1983. Basin margin environment. American Association of Petroleum GeologistsMemoir33, 540-617.10.1306/M33429C18Search in Google Scholar

Dasgupta, S., Chaudhuri, A.K. & Fukuoka, M., 1990. Compositional characteristics of glauconitic alterations of K-feldspar from India and their implications. Journal of Sedimentary Petrology60, 277-281.10.1306/212F916F-2B24-11D7-8648000102C1865DSearch in Google Scholar

Davies, S.J. & Gibling, M.R., 2003. Architecture of coastal and alluvial deposits in an extensional basin: the Carboniferous Joggins Formation of eastern Canada. Sedimentology50, 415-439.10.1046/j.1365-3091.2003.00553.xSearch in Google Scholar

Deb, S.P. & Fukuoka, M., 1998. Fe-illites in a Proterozoic deep marine slope deposit in the Penganga Group of the Pranhita Godavari valley: their origin and environmental significance. Journal of Geology106, 741-749.10.1086/516057Search in Google Scholar

De Raaf, J.F.M., Boersma, J.R. & Van Gelder, A., 1977. Wave generated structures and sequences from a shallow marine succession. Lower Carboniferous County Cork, Ireland. Sedimentology24, 451-483.10.1111/j.1365-3091.1977.tb00134.xSearch in Google Scholar

Enos, P., 1977. Flow regimes in debris flow. Sedimentology 24, 133-142.10.1111/j.1365-3091.1977.tb00123.xSearch in Google Scholar

Fisher, R.V., 1981. Flow transformation in sediment gravity flows. Geology11, 273-274.10.1130/0091-7613(1983)11<273:FTISGF>2.0.CO;2Search in Google Scholar

Ghosh, S.K. & Lahiri, S., 1990. Soft sediment deformation by vertical movement. Indian Journal of Earth Science 17, 23-43.Search in Google Scholar

Gopalan, K., Kumar, A., Kumar, S. & Vijayagopal, B., 2013. Depositional history of the Upper Vindhyan succession, central India: time constraint from Pb-Pb isochron ages of its carbonate components. Precambri-an Research233, 103-117.10.1016/j.precamres.2013.04.014Search in Google Scholar

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. Geologos20, 105-123.10.2478/logos-2014-0006Search in Google Scholar

Horita, J., Zimmermann, H. & Holland, H.D., 2007. Chemical evolution of seawater during the Phanero-zoic: implications from the record of marine evapo-rites. Geochimica et Cosmochimica Acta66, 3733-3756.10.1016/S0016-7037(01)00884-5Search in Google Scholar

Kumar, S., Schidlowski, M. & Joachimski, M.M., 2005. Carbon isotope stratigraphy of the Palaeo-Neoprote-rozoic Vindhyan Supergroup, central India: implications for basin evolution and intrabasinal correlation. Journal of the Palaeontological Society of India50, 65-81.Search in Google Scholar

Kump, L.R., 2008. The role of seafloor hydrothermal systems in the evolution of seawater composition during the Phanerozoic. [In:] R.P. Lowell, J.S. Seewald, A. Metaxas & M.R. Perfit (Eds): Magma to microbe: modeling hydrothermal processes at ocean spreading centers. Geophysical Monograph Series American Geophysical Union178, 275-28310.1029/178GM14Search in Google Scholar

Lowe, D.R., 1975. Water escape structures in coarsegrained sediments. Sedimentology22, 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 Research164, 137-159.Search in Google Scholar

Moretti, M. & Van Loon, A.J., 2014. Restrictions to the application of ‘diagnostic’ criteria for recognizing ancient seismites. Journal of Palaeogeography3, 13-24.Search in Google Scholar

Nagtegaal, P.J.C., 1963. Convolute lamination, meta-depositional ruptures and slumping in an exposure near Pobla de Segur (Spain). Geologie en Mijnbouw42, 363-374.Search in Google Scholar

Odin, G.S. & Matter, A., 1981. De glauconiarum origine. Sedimentology28, 611-641.10.1111/j.1365-3091.1981.tb01925.xSearch in Google Scholar

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. Sedimentology50, 361386.10.1046/j.1365-3091.2003.00558.xSearch in Google Scholar

Owen, G., 1996. Experimental soft-sediment deformation: structures formed by the liquefaction of unconsolidat-ed sands and some ancient examples. Sedimentology43, 279-293.10.1046/j.1365-3091.1996.d01-5.xSearch in Google Scholar

Owen, G., Moretti, M. & Alfaro, P. (Eds), 2011. Recognising triggers for soft-sediment deformation: current understanding and future directions. Sedimentary Geology235, 3/4.10.1016/j.sedgeo.2010.12.010Search in Google Scholar

Perucca, L.P., Godoy, E. & Pantano, A., 2014. Late Pleis- tocene-Holocene earthquake-induced slumps and soft-sediment deformation structures in the Acequion River valley, Central Precordillera, Argentina. Geolo-gos20, 147-156.10.2478/logos-2014-0007Search in Google Scholar

Ray, J.S., 2006. Age of the Vindhyan Supergroup: a review of recent findings. Journal of Earth System Science 115, 149-160.10.1007/BF02703031Search in Google Scholar

Ray, J.S., Veizer, J. & Davis, W.J., 2003. C, O, Sr and Pb isotope systematics of carbonate sequences of the Vindhyan Supergroup, India: age, diagenesis, correlations and implications for global events. PrecambrianResearch121, 103-140.10.1016/S0301-9268(02)00223-1Search in Google Scholar

Sanders, J.E., 1960. Origin of convolute lamination. Geological Magazine97, 409-421.10.1017/S0016756800061768Search in Google Scholar

Sarkar, S., Chakraborty, P.P. & Bose, P.K., 1994. Multi-mode generation of carbonate tabular intraclast deposits: unnamed Proterozoic formation, Maharastra. Journal of the Geological Society of India43, 415-423.Search in Google Scholar

Sarkar, S., Banerjee, S. & Chakraborty, S., 1995. Synsedi-mentary seismic signature in Mesoproterozoic Kolda-ha Shale, Kheinjua Formation, central India. Indian Journal of Earth Science22, 158-164.Search in Google Scholar

Sarkar, S., Chakrabarty, P.P. & Bose, P.K., 1996. Protero- zoic Lakheri (Bhander) Limestone, central India: facies, paleogeography and physiography. [In:] A. Bhat-tacharya (Ed.): Recent advances in Vindhyan geology. Memoir of Geological Society of India36, 5-26.Search in Google Scholar

Sarkar, S., Chakraborty, P.P., Bhattacharyya, S.K. & Ba-nerjee, S., 1998. C-12 enrichment along intraforma-tional unconformities within Proterozoic Bhander Limestone, Son Valley, India and its implications. Carbonates and Evaporites13, 108-114. Sarkar, S., Chakraborty, S., Banerjee, S. & Bose, P.K., 2002. Facies sequence and cryptic imprint of sag tectonics in late Proterozoic Sirbu Shale, central India. [In:] W. Altermann & P. Corcoran (Eds): Precambrian sedimentary environments: a modern approach to ancient depositional systems. International Association of Sedi-mentologists Special Publication(Blackwell Science) 33, 369-382.Search in Google Scholar

Seth, A., Sarkar, S. & Bose, P.K., 1990. Synsedimentary seismic activity in an immature passive margin basin, lower member of Katrol Formation, Upper Jurassic, Kutch, India. Sedimentary Geology68, 279-291.10.1016/0037-0738(90)90015-LSearch in Google Scholar

Seilacher, A., 1984. Sedimentary structures tentatively attributed to seismic events. Marine Geology55, 1-12.10.1016/0025-3227(84)90129-4Search in Google Scholar

Seilacher, A., 2001. Concretion morphologies reflecting diagenetic and epigenetic pathways. Sedimentary Geology143, 41-57.10.1016/S0037-0738(01)00092-6Search in Google Scholar

Uner, S., 2014. Seismogenic structures in Quaternary lacustrine deposits of Lake Van (eastern Turkey). Geo-logos20, 79-87.10.2478/logos-2014-0011Search in Google Scholar

Valente, A., Ślączka, A. & Cavuoto, G., 2014. Soft-sediment deformation in Miocene deep-sea clastic deposits (Cilento, southern Italy). Geologos20, 67-78.10.2478/logos-2014-0009Search 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., 2014a. The life cycle of seismite research. Geologos20, 61-66.10.2478/logos-2014-0005Search in Google Scholar

Van Loon, A.J., 2014b. The Mesoproterozoic ‘seismite’ at Laiyuan (Hebei Province, E China) re-interpreted. Geologos20, 139-146.10.2478/logos-2014-0012Search in Google Scholar

Van Loon, A.J. & Pisarska-Jamroźy, M., 2014. Sedimen-tological evidence of Pleistocene earthquakes in NW Poland induced by glacio-isostatic rebound. Sedimentary Geology300, 1-10.10.1016/j.sedgeo.2013.11.006Search in Google Scholar

Van Loon, A.J., Han, Z. & Han, Y., 2013. Origin of the vertically orientated clasts in brecciated shallow-marine limestones of the Chaomidian Formation (Furo-ngian, Shandong Province, China). Sedimentology60, 1059-1070.10.1111/sed.12018Search in Google Scholar

Venkateshwarlu, M. & Rao, J.M., 2013. Palaeomagnetism of Bhander sediments from Bhopal inlier, Vindhyan Supergroup. Journal of the Geological Society of India81, 330-336.10.1007/s12594-013-0043-5Search in Google Scholar

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