Late Quaternary co-seismic sedimentation in the Sea of Marmara's deep basins
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R. Armijo | B. Meyer | S. Schmidt | B. Lépinay | O. Weber | N. Cagatay | N. Pondard | J. Schneider | M. Cremer | C. Beck | K. Eriș | G. Ménot | E. Wendenbaum | S. Boutareaud
[1] W. Nemec. Aspects of Sediment Movement on Steep Delta Slopes , 2009 .
[2] T. Voigt,et al. Synsedimentary Deformation in the Lower Muschelkalk of the Germanic Basin , 2009 .
[3] Y. Kubo,et al. Theoretical Study on Breaking of Waves on Antidunes , 2009 .
[4] F. Jouanne,et al. A Late Pleistocene-Holocene natural seismograph along the Boconó Fault (Mérida Andes, Venezuela): the moraine-dammed Los Zerpa paleo-lake , 2006 .
[5] D. Stow,et al. HEMITURBIDITE : A NEW TYPE OF DEEP-WATER SEDIMENT , 2006 .
[6] Christian Beck,et al. Submarine fault scarps in the Sea of Marmara pull‐apart (North Anatolian Fault): Implications for seismic hazard in Istanbul , 2005 .
[7] Domenico Giardini,et al. Multiarchive paleoseismic record of late Pleistocene and Holocene strong earthquakes in Switzerland , 2005 .
[8] Cecilia M. G. McHugh,et al. Sea-level changes and depositional environments in the İzmit Gulf, eastern Marmara Sea, during the late glacial–Holocene period , 2003 .
[9] X. Pichon,et al. Investigation of the tectonics of the Main Marmara Fault by means of deep-towed seismic data , 2003 .
[10] Bertrand Meyer,et al. Slip partitioning in the Sea of Marmara pull‐apart determined from GPS velocity vectors , 2002 .
[11] W. Ryan,et al. Constraints on Black Sea outflow to the Sea of Marmara during the last glacial–interglacial transition , 2002 .
[12] L. Tolun,et al. Organic geochemistry and origin of Late Glacial–Holocene sapropelic layers and associated sediments in Marmara Sea , 2002 .
[13] A. Aksu,et al. Seismic stratigraphy of Late Quaternary deposits from the southwestern Black Sea shelf: evidence for non-catastrophic variations in sea-level during the last ∼10 000 yr , 2002 .
[14] A. Aksu,et al. Late Quaternary history of the Marmara Sea and Black Sea from high-resolution seismic and gravity-core studies , 2002 .
[15] A. Aksu,et al. Last glacial–Holocene paleoceanography of the Black Sea and Marmara Sea: stable isotopic, foraminiferal and coccolith evidence , 2002 .
[16] Fumihiko Imamura,et al. Tsunamis in the Sea of Marmara - Historical documents for the past, models for the future , 2002 .
[17] F. Arnaud,et al. Flood and earthquake disturbance of 210Pb geochronology (Lake Anterne, NW Alps) , 2002 .
[18] Domenico Giardini,et al. Palaeoseismicity studies on end-Pleistocene and Holocene lake deposits around Basle, Switzerland , 2002 .
[19] N. N. Ambraseys,et al. The Seismic Activity of the Marmara Sea Region over the Last 2000 Years , 2002 .
[20] Ross D. Hartleb,et al. The Surface Rupture and Slip Distribution of the 17 August 1999 İzmit Earthquake (M 7.4), North Anatolian Fault , 2002 .
[21] J. Klerkx,et al. Lake Issyk-Kul : its natural environment , 2002 .
[22] P. Vermeesch,et al. Bathymetry and sedimentary environments of Lake Issyk-Kul, Kyrgyz Republic (Central Asia): a large, high-altitude, tectonic lake , 2002 .
[23] Bertrand Meyer,et al. Asymmetric slip partitioning in the Sea of Marmara pull‐apart: a clue to propagation processes of the North Anatolian Fault? , 2001 .
[24] Bertrand Meyer,et al. The active Main Marmara Fault , 2001 .
[25] J. Peakall,et al. Particulate Gravity Currents , 2013 .
[26] C. Imren. The North Anatolian Fault within the Sea of Marmara: a new interpretation based on multi-channel seismic and multi-beam bathymetry data , 2001 .
[27] Vincent Lignier. Les sédiments lacustres et l'enregistrement de la paléosismicité : étude comparative de différents cas dans le Quaternaire des Alpes Nord-Occidentales et du Tien-Shan Kyrghyze , 2001 .
[28] C. Rangin,et al. Marine Atlas of the Sea of Marmara (Turkey). Data collected on board R. V Le Suroît, September 2000 , 2001 .
[29] J. Calvo,et al. Soft-sediment deformation structures interpreted as seismites in lacustrine sediments of the Prebetic Zone, SE Spain, and their potential use as indicators of earthquake magnitudes during the Late Miocene , 2000 .
[30] Y. Kanai,et al. Sedimentary features of seismoturbidites triggered by the 1983 and older historical earthquakes in the eastern margin of the Japan Sea , 2000 .
[31] D. Gorsline,et al. Seismically triggered turbidites in small margin basins: Alfonso Basin, Western Gulf of California and Santa Monica Basin, California Borderland , 2000 .
[32] T. Shiki,et al. Sedimentary features of the seismo-turbidites, Lake Biwa, Japan , 2000 .
[33] C. Eastoe,et al. Late Glacial-Holocene palaeoceanography of the Sea of Marmara: timing of connections with the Mediterranean and the Black Seas , 2000 .
[34] Aral I. Okay,et al. Active faults and evolving strike-slip basins in the Marmara Sea, northwest Turkey: a multichannel seismic reflection study , 2000 .
[35] Bertrand Meyer,et al. Seismic hazard in the Marmara Sea region following the 17 August 1999 Izmit earthquake , 2000, Nature.
[36] Demitris Paradissis,et al. Global Positioning System constraints on plate kinematics and dynamics in the eastern Mediterranean and Caucasus , 2000 .
[37] Arnold H. Bouma,et al. Coarse-grained and fine-grained turbidite systems as end member models: applicability and dangers , 2000 .
[38] Bertrand Meyer,et al. Seismic hazard in the Sea of Marmara following the 17 August 1999 Izmit Earthquake , 2000 .
[39] J. Canas,et al. Modelling seismites with a digital shaking table , 1999 .
[40] M. Pourchet,et al. 1822 earthquake‐triggered homogenite in Lake Le Bourget (NW Alps) , 1999 .
[41] Bertrand Meyer,et al. Westward propagation of the North Anatolian fault into the northern Aegean: Timing and kinematics , 1999 .
[42] E. Chapron. Contrôles climatique et sismo-tectonique de la sédimentation lacustre dans l'avant pays alpin ( Lac du Bourget) durant le quaternaire récent. (Alpes françaises) , 1999 .
[43] E. Akça,et al. Grain size and clay mineralogy of Late Quaternary sediments on a tectonically active shelf, the southern Sea of Marmara: clues to hydrographic, tectonic and climatic evolution , 1999 .
[44] A. Aksu,et al. Oscillating Quaternary water levels of the Marmara Sea and vigorous outflow into the Aegean Sea from the Marmara Sea–Black Sea drainage corridor , 1999 .
[46] B. Pratt. Syneresis cracks: subaqueous shrinkage in argillaceous sediments caused by earthquake-induced dewatering , 1998 .
[47] J. Calvo,et al. Microdeformation of lacustrine laminite sequences from Late Miocene formations of SE Spain: an interpretation of loop bedding , 1998 .
[48] J. W. Beck,et al. INTCAL98 Radiocarbon Age Calibration, 24,000–0 cal BP , 1998, Radiocarbon.
[49] M. Cita,et al. Geological and geophysical evidence for a holocene tsunami deposit in the astern Mediterranean deep-sea record , 1997 .
[50] W. Ryan,et al. An abrupt drowning of the Black Sea shelf , 1997 .
[51] James H. Dieterich,et al. Progressive failure on the North Anatolian fault since 1939 by earthquake stress triggering , 1997 .
[52] A. Barka,et al. Slip distribution along the North Anatolian fault associated with the large earthquakes of the period 1939 to 1967 , 1996, Bulletin of the Seismological Society of America.
[53] M. Batist,et al. Enhanced seismicity in the early post-glacial period: Evidence from the post-Wurm sediments of Lake Annecy, northwestern Alps. , 1996 .
[54] A. Camerlenghi,et al. Deep-sea tsunami deposits in the eastern Mediterranean: New evidence and depositional models , 1996 .
[55] J. Syvitski,et al. Evidence for an earthquake-triggered basin collapse in Saguenay Fjord, Canada , 1996 .
[56] T. Mulder,et al. Classification of Offshore Mass Movements , 1996 .
[57] N. Mörner. Liquefaction and varve deformation as evidence of paleoseismic events and tsunamis. The autumn 10,430 BP case in Sweden , 1996 .
[58] M. Batist,et al. Lacustrine sedimentary records of brutal events in Lake Le Bourget (Northwestern Alps-Southern Jura) [ Enregistrements d'événements brutaux dans la sédimentation lacustre du Lac du Bourget (Alpes occidentales-Jura méridional).] , 1996 .
[59] J. A. Canas,et al. Estructuras sedimentarias de deformación (sismitas) inducidas por licuefacción con un simulador de terremotos. , 1996 .
[60] A. Agnon,et al. Prehistoric earthquake deformations near Masada, Dead Sea graben , 1995 .
[61] T. Lüdmann,et al. The Sea of Marmara: a plate boundary sea in an escape tectonic regime , 1995 .
[62] A. V. Loon,et al. Shock-induced resuspension deposits from a Pleistocene proglacial lake (Kleszczow Graben, central Poland) , 1995 .
[63] D. Canfield,et al. Concentration and transport of nitrate by the mat-forming sulphur bacterium Thioploca , 1995, Nature.
[64] T. Mulder,et al. Regional assessment of mass failure events in the Baie des Anges, Mediterranean Sea , 1994 .
[65] M. Guiraud,et al. Seismites in the fluviatile Bima sandstones: identification of paleoseisms and discussion of their magnitudes in a Cretaceous synsedimentary strike-slip basin (Upper Benue, Nigeria) , 1993 .
[66] T. Roep,et al. Pillow‐beds: a new type of seismites? An example from an Oligocene turbidite fan complex, Alicante, Spain , 1992 .
[67] Pierre Cochonat,et al. Evolution progressive d'un glissement rotationnel en un courant de turbidité : cas du séïsme de 1929 des Grands Bancs (Terre Neuve) , 1992 .
[68] F. Audemard,et al. Survey of liquefaction structures induced by recent moderate earthquakes , 1991 .
[69] N. N. Ambraseys,et al. Long‐term seismicity of Istanbul and of the Marmara Sea region , 1991 .
[70] R. Doig. Effects of strong seismic shaking in lake sediments, and earthquake recurrence interval, Témiscaming, Quebec , 1991 .
[71] E. Vittori,et al. Palaeoseismology: review of the state-of-the-art , 1991 .
[72] L. Seeber,et al. Historic and prehistoric earthquake-induced liquefaction in Newbury, Massachusetts , 1991 .
[73] J. Odum,et al. Evidence of Strong Earthquake Shaking in the Lower Wabash Valley from Prehistoric Liquefaction Features , 1991, Science.
[74] M. N. Bodur,et al. Distribution of surficial shelf sediments in the northeastern and southwestern parts of the Sea of Marmara: Strait and canyon regimes of the Dardanelles and Bosporus , 1991 .
[75] John Adams,et al. Paleoseismicity of the Cascadia Subduction Zone: Evidence from turbidites off the Oregon‐Washington Margin , 1990 .
[76] D. Stow,et al. 3. HEMITURBIDITE : A NEW TYPE OF DEEP-WATER SEDIMENT1 , 1990 .
[77] K. Brown,et al. 15. GENESIS AND EVOLUTION OF SMALL-SCALE STRUCTURES IN THE TOE OF THE BARBADOS RIDGE ACCRETIONARY WEDGE1 , 1990 .
[78] Y. Ogawa,et al. Upslope deposition of extremely distal turbidites: an example from the Tiburon Rise, west-central Atlantic , 1989 .
[79] P. Ringrose. Palaeoseismic (?) liquefaction event in late Quaternary lake sediment at Glen Roy, Scotland , 1989 .
[80] S. F. Obermeier,et al. The New Madrid earthquakes : an engineering-geologic interpretation of relict liquefaction features , 1989 .
[81] J. Plaziat,et al. Diversity of neogene seismites of the northwest Red Sea (Egypt): a characteristic sedimentary expression of rifting , 1988 .
[82] A. Barka,et al. Strike‐slip fault geometry in Turkey and its influence on earthquake activity , 1988 .
[83] Arvind Anand,et al. Earthquakes and deformational structures (seismites) in Holocene sediments from the Himalayan-Andaman Arc, India , 1987 .
[84] Su-min Wang,et al. Earthquake and seiche deposits in Lake Lucerne, Switzerland , 1987 .
[85] Z. El-Isa,et al. Earthquake deformations in the Lisan deposits and seismotectonic implications , 1986 .
[86] R. Doig. A method for determining the frequency of large-magnitude earthquakes using lake sediments , 1986 .
[87] J. Allen. Earthquake magnitude-frequency, epicentral distance, and soft-sediment deformation in sedimentary basins , 1986 .
[88] Kevin T. Pickering,et al. Contained (reflected) turbidity currents from the Middle Ordovician Cloridorme Formation, Quebec, Canada: an alternative to the antidune hypothesis , 1985 .
[89] J. R. Allen,et al. Principles of physical sedimentology , 1985 .
[90] A. Bowen,et al. Modelling of turbidity currents on Navy Submarine Fan, California Continental Borderland , 1984 .
[91] R. Madariaga,et al. Eocene seismicity in the Pyrenees from megaturbidites of the South Pyrenean Basin (Spain) , 1984 .
[92] A. Seilacher. Sedimentary structures tentatively attributed to seismic events , 1984 .
[93] J. Dewey,et al. Earthquake-induced deformational structures in young lacustrine sediments, East Anatolian Fault, southeast Turkey , 1983 .
[94] D. Cowan. Origin of "Vein Structure" in Slope Sediments on the Inner Slope of the Middle America Trench off Guatemala , 1982 .
[95] James V. Gardner,et al. Earthquake-induced sediment failures on a 0.25° slope, Klamath River delta, California , 1982 .
[96] K. Kastens,et al. Tsunami-induced sediment transport in the abyssal Mediterranean Sea , 1981 .
[97] D. Stanley. Unifites: structureless muds of gravity-flow origin in Mediterranean basins , 1981 .
[98] D. Stanley,et al. Depositional models for fine-grained sediment in the western Hellenic Trench, Eastern Mediterranean , 1981 .
[99] A. Ben-menahem. Dating of historical earthquakes by mud profiles of lake-bottom sediments , 1976, Nature.
[100] J. Sims. Determining earthquake recurrence intervals from deformational structures in young lacustrine sediments , 1975 .
[101] J. Sims. Earthquake-Induced Structures in Sediments of Van Norman Lake, San Fernando, California , 1973, Science.
[102] P. Komar. Hydraulic Jumps in Turbidity Currents , 1971 .
[103] P. Kuenen. I.—Experiments in Geology , 1958, Transactions of the Glasgow Geological Society.