Your search keyword '"Lykousis, Vasilis"' showing total 116 results

1. Sediment Failure Processes In Active Grabens: The Western Gulf Of Corinth (Greece)

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Rousakis, G., Alexandri, S., Kaberi, H., Nomikou, P., Georgiou, P., Balas, D., Lykousis, Vasilis, editor, Sakellariou, Dimitris, editor, and Locat, Jacques, editor

Published

2007

2. Late Pleistocene Environmental Factors of the Aegean Region (Aegean Sea Including the Hellenic Arc) and the Identification of Potential Areas for Seabed Prehistoric Sites and Landscapes

Author

Sakellariou, Dimitris, primary, Lykousis, Vasilis, additional, Geraga, Maria, additional, Rousakis, Grigoris, additional, and Soukisian, Takvor, additional

Published

2017

3. CASCADES IN MEDITERRANEAN SUBMARINE GRAND CANYONS

Author

CANALS, MIQUEL, DANOVARO, ROBERTO, HEUSSNER, SERGE, LYKOUSIS, VASILIS, PUIG, PERE, TRINCARDI, FABIO, CALAFAT, ANTONI M., DE MADRON, XAVIER DURRIEU, PALANQUES, ALBERT, and SÀNCHEZ-VIDAL, ANNA

Published

2009

4. Sliding and regional slope stability in active margins: North Aegean Trough (Mediterranean)

Author

Lykousis, Vasilis, Roussakis, Grigoris, Alexandri, Matina, Pavlakis, Petros, and Papoulia, Ioanna

Published

2002

5. Tsunamigenic potential of a Holocene submarine landslide along the North Anatolian Fault (northern Aegean Sea, off Thasos island): insights from numerical modelling

Author

Janin, Alexandre, primary, Rodriguez, Mathieu, additional, Sakellariou, Dimitris, additional, Lykousis, Vasilis, additional, and Gorini, Christian, additional

Published

2019

6. Supplementary material to "Tsunamigenic potential of a Holocene submarine landslide along the North Anatolian Fault (North Aegean Sea, off Thasos Island): insights from numerical modeling"

Author

Janin, Alexandre, primary, Rodriguez, Mathieu, additional, Sakellariou, Dimitris, additional, Lykousis, Vasilis, additional, and Gorini, Christian, additional

Published

2018

7. Tsunamigenic potential of a Holocene submarine landslide along the North Anatolian Fault (North Aegean Sea, off Thasos Island): insights from numerical modeling

Author

Janin, Alexandre, primary, Rodriguez, Mathieu, additional, Sakellariou, Dimitris, additional, Lykousis, Vasilis, additional, and Gorini, Christian, additional

Published

2018

8. Pelagic-benthic coupling and diagenesis of nucleic acids in a deep-sea continental margin and an open-slope system of the eastern Mediterranean

Author

Dell'Anno, Antonio, Corinaldesi, Cinzia, Stavrakakis, Spyros, Lykousis, Vasilis, and Danovaro, Roberto

Subjects

Mediterranean region -- Environmental aspects, Benthos -- Research, Nucleic acids -- Research, Biological sciences

Abstract

The nucleic acid fluxes, sedimentary DNA and RNA concentrations and the enzymetic hydrolyzable fraction of DNA in the bathyl continental margin and an open sea system of the Eastern Mediterranean were compared and studied. The results revealed that the preservation of DNA in deeper sediments layers favored in benthic system characterized by high sedimentation rates.

Published

2005

9. European Multidisciplinary and Water-Column Observatory - European Research Infrastructure Consortium (EMSO ERIC): challenges and opportunities for strategic European marine sciences

Author

Faviali, Paolo, Dañobeitia, Juan José, Beranzoli, Laura, Rolin, Jean-François, Lykousis, Vasilis, Ruhl, Henry A., Gaughan, Paul, Piera Fernández, Jaume, Huber, Robert, Río Fernandez, Joaquín del|||0000-0002-6191-2201, Llinás, Octavio, Miranda, Jorge M.A. de, Terrinha, Pedro, Radulescu, Vlad, and O'Neill, Nick

Subjects

Ocean bottom -- Research, Enginyeria civil::Geologia::Oceanografia [Àrees temàtiques de la UPC], Environmental processes, Research infrastructure, Seafloor and water-column, Fons marins -- Investigació

Abstract

EMSO (European Multidisciplinary Seafloor and water-column Observatory, www.emso-eu.org) is a large‐scale European Research Infrastructure I. It is a distributed infrastructure of strategically placed, deep‐sea seafloor and water column observatory nodes with the essential scientific objective of real‐time, longterm observation of environmental processes related to the interaction between the geosphere, biosphere, and hydrosphere. The geographic locations of the EMSO observatory nodes represent key sites in European waters, from the Arctic, through the Atlantic and Mediterranean, to the Black Sea (Figure 1), as defined through previous studies performed in FP6 and FP7 EC projects such as ESONET‐CA, ESONET‐NoE, EMSO-PP (Person et al., 2015)

Published

2016

10. Geomorphologic structures on the South Cretan Margin, Greece [Abstract]

Author

Nomikou, Paraskevi, Lykousis, Vasilis, Alexandri, Matina, Rousakis, Grigoris, Sakellariou, Dimitris, Lampridou, Danai, Alves, Tiago Marcos, and Ballas, Dyonisios

Subjects

QE

Published

2015

11. The deep sea and sub-seafloor frontier

Author

Kopf, Achim, Camerlenghi, Angelo, Canals, Miquel, Ferdelman, Timothy, Mevel, Catherine, Pälike, Heiko, Roest, Walter, Ask, Maria, Jørgensen, Bo Barker, Boetius, Antje, De Santis, Angelo, Früh-Green, Gretchen, Lykousis, Vasilis, McKenzie, Judith, Meinert, Jürgen, Parkes, John, Schneider, Rasph, and Weaver, Philipp

Published

2012

12. Physical properties and their relationship to sedimentary processes and texture in sediments from mud volcanoes in the Anaximander Mountains (Eastern Mediterranean)

Author

Casas, David, Ercilla, Gemma, Lykousis, Vasilis, Ioakim, Chryssanthi, and Perissoratis, Constantine

Subjects

Anaximander, volcanes de fango, propiedades físicas, textura, propiedades índice, gas, mud volcano, physical properties, sediment texture, index property

Abstract

This research focuses on the mud volcanoes Amsterdam, Kazan and Kula located in the Anaximander Mountains (SW Turkey continental margin), which are characterized by the presence of sediments containing gas and gas hydrate. These mud volcanoes were sampled by recovering four gravity cores. For sediment located right on top (crater or active part of the summit) of the mud volcanoes, the physical properties are controlled by lithology and mud volcanic processes rather than the degree of compaction. This could suggest the possibility of current mud volcanic activity. In contrast, the sediment located in the external flank of Kula mud volcano displays physical properties mostly related to consolidation effects and to the type of sediment at a detailed scale, as occurs typically in deep-sea fine grained sediments. This suggests a restricted influence of mud volcanic processes., Este trabajo se centra en el estudio de sedimentos procedentes de los volcanes de fango Ámsterdam, Kazan y Kula localizados en las montañas submarinas Anaximander (SO del margen continental de Turquía), caracterizados por la presencia de sedimentos que contienen gas e hidratos de gas. Estos volcanes de fango se muestrearon con cuatro testigos de gravedad. En los sedimentos localizados en los cráteres (o en las cimas activas) de los volcanes de fango, las propiedades físicas están básicamente controladas por la litología y procesos volcánicos. Esto sugiere un actividad volcánica reciente. Por el contrario, el sedimento localizado en el flanco externo de Kula presenta unas propiedades físicas básicamente relacionadas con el efecto de consolidación y, a escala de detalle, con el tipo de sedimento como ocurre en general en sedimentos marinos profundos. Esto sugiere una influencia restringida de los procesos volcánicos.

Published

2006

13. Tsunamigenic potential of a Holocene submarine landslide along the North Anatolian Fault (North Aegean Sea, off Thasos Island): insights from numerical modeling.

Author

Janin, Alexandre, Rodriguez, Mathieu, Sakellariou, Dimitris, Lykousis, Vasilis, and Gorini, Christian

Subjects

LANDSLIDES, GEOLOGIC faults, NORTH Anatolian Fault Zone (Turkey)

Abstract

The North Anatolian Fault in the northern Aegean Sea triggers frequent earthquakes of magnitude up to Mw ~ 7. This seismicity can be a source of modest tsunamis for the surrounding coastlines with less than 50 cm height according to numerical modelling and analysis of tsunami deposits. However, other tsunami sources may be involved, like submarine landslides. We assess the severity of this potential hazard by performing numerical simulations of tsunami generation and propagation from a Holocene landslide (1.85 km³ in volume) identified off Thasos island. We use a model coupling the simulation of the submarine landslide, assimilated to a granular flow, to the propagation of the tsunami wave. The results of these simulations show that a tsunami wave of water height between 1.10 m and 1.65 m reaches the coastline at Alexandroupolis (58.000 inhabitants) one hour after the triggering of the landslide. In the same way, tsunamis waves of water height between 0.80 m and 2.00 m reach the coastline of the Athos peninsula 9 min after the triggering of the landslide. Landslide tsunamis should not be neglected as a potential source of tsunami in the area. Despite numerous earthquakes of Mw > 7 and strong detrital input (on the order of 30 cm ka-1), only a few Holocene landslides have been recognized so far, asking the question of the relationships between seismicity and landslide frequency in the area. [ABSTRACT FROM AUTHOR]

Published

2018

14. Physical properties and their relationship to texture and consolidation effects in sediments from mud volcanoes in the Anaximander mountains (Eastern Mediterranean)

Author

Casas, David, Ercilla, Gemma, Lykousis, Vasilis, Georgiou, Panos, and Roussakis, Grigoris

Subjects

Physical properties, Texture, Mud volcano, Consolidation, Gas Hydrate

Abstract

1 page, 1 figure, This research is focussed on the mud volcanoes Amsterdam, Kazan and Kula located in Anaximander Mountains. These volcanoes, characterized by the presence of sediments containing gas and gas hydrate, have been sampled, recovering four gravity cores. For those sediment located inside the mud volcanoes the physical properties are controlled by lithology and volcanic processes rather than degree of compaction. This could suggest the possible present volcanic activity. Contrasting, the core located outside the Kula mud volcano displays physical properties mostly related to consolidation effects and to the type of sediment at a detailed scale, as it occurs typically in deep sea fine grained sediments. This suggests a restricted in?uence of volcanic processes outside the crater

Published

2004

15. Mud volcanoes and gas hydrates in the Anaximander mountains (Eastern Mediterranean Sea)

Author

Lykousis, Vasilis, Casas, David, Ercilla, Gemma, Lykousis, Vasilis, Casas, David, and Ercilla, Gemma

Abstract

Detailed multibeam, sedimentological, and geophysical surveys provide ample new data to confirm that the Anaximander Mountains (Eastern Mediterranean) are an important area for active mud volcanism and gas hydrate formation. More than 3000 km of multibeam track length was acquired during two recent missions and 80 gravity and box cores were recovered. Morphology and backscatter data of the study area have better resolution than previous surveys, and very detailed morphology maps have been made of the known targeted mud volcanoes (Amsterdam, Kazan and Kula), especially the Amsterdam "crater" and the related mud breccia flows. Gas hydrates collected repeatedly from a large area of Amsterdam mud volcano at a sub-bottom depth of around 0.3-1.5 m resemble compacted snow and have a rather flaky form. New gas hydrate sites were found at Amsterdam mud volcano, including the mud flow sloping off to the south. Gas hydrates sampled for the first time at Kazan mud volcano are dispersed throughout the core samples deeper than 0.3 m and display a 'rice'-like appearance. Relative chronology and AMS dating of interbedded pelagic sediments (Late Holocene hemipelagic, sapropel layer S1 and ash layers) within the mud flows indicate that successive eruptions of Kula mud volcano have a periodicity of about 5-10 kyrs. New mud volcanoes identified on the basis of multibeam backscatter intensity were sampled, documented as active and named "Athina" and "Thessaloniki". Gas hydrates were sampled also in Thessaloniki mud volcano, the shallowest (1264 m) among all the active Mediterranean sites, at the boundary of the gas hydrate stability zone. Biostratigraphical analyses of mud breccia clasts indicated that the source of the subsurface sedimentary sequences consists of Late Cretaceous limestones, Paleocene siliciclastic rocks, Eocene biogenic limestones and Miocene mudstones. Rough estimations of the total capacity of the Anaximander mud volcanoes in methane gas are 2.56-6.40 km3. © 2008 Els

Published

2009

16. The southern flank of the Storegga Slide: imaging and geomorphological analyses using 3d Seismic

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Gafeira, J., Bulat, J., Evans, D., Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Gafeira, J., Bulat, J., and Evans, D.

Abstract

The Holocene Storegga Slide is one of the world’s largest exposed slides and also the most studied of all the Norwegian slides. However due to its complexity it is far from being fully understood. Three-dimensional (3D) seismic combined with swath bathymetry data from the southern flank of the Storegga Slide have been used to study mass movement processes occurring in the region. The high spatial resolution provided by the 3D seismic data has allowed a detailed geomorphological analysis of sedimentary and deformational structures. The Holocene Storegga failure affected a significant part of the studied area. The predominant feature is a compression zone, comprising two lobes, where the seabed shows marked parallel ridges. Down slope it is possible to identify another compression zone. A relative chronology of events was established and it is proposed that these two compressions zones are the result of gravity-driven slope failures related to different stages of the Holocene Storegga Slide.

Published

2007

17. Submarine Mass Movements In The Betsiamites Area, Lower St. Lawrence Estuary, Québec, Canada.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Cauchon-Voyer, Genevieve, Locat, Jacques, and St-Onge, Guillaume

Abstract

A complex submarine geomorphology was revealed from multibeam bathymetry and seismic reflection surveys conducted between 2001 and 2006 in the Lower St. Lawrence Estuary offshore Betsiamites River, Québec, Canada. In this paper, we describe the submarine morpho-sedimentology of an area of ~500 km with focus on the consequences of three mass movement events. A chronology suggesting the ages for the failures is established. A major landslide scar is characterized by two large channels on the shelf and a sediments fan in the Laurentian Channel. This landslide is dated around 7.25 kyr cal BP. Morphological observations and sediment core analyses allow us to identify a least two different recent (i.e., less than 1 kyr BP) debris flow accumulations on the shelf and in the Laurentian Channel. Two different 210Pb-dated debris flow deposits were identified and associated to two recent earthquake episodes: (1) the AD 1663 (M~7) earthquake and (2) AD 1860 (M~6) or AD 1870 (M~6.5) earthquakes. The 1663 debris flow deposit is associated with a subaerial landslide observed on shore. [ABSTRACT FROM AUTHOR]

Published

2007

18. Sediment Failure Processes In Active Grabens: The Western Gulf Of Corinth (Greece).

Author

Locat, Jacques, Lykousis, Vasilis, Sakellariou, Dimitris, Rousakis, G., Alexandri, S., Kaberi, H., Nomikou, P., Georgiou, P., and Balas, D.

Abstract

On steep (2-6°) offshore fan deltas of Western Gulf of Corinth medium to small scale (106-107 m3) debris flows and avalanches are the prominent slope features. Loose sands, gravels and pebbles are observed in the lower fan while silty/sandy turbidites/tsunamites detected in cores, implying sediment dissociation during failure and downslope transport. These failures are associated with significant upslope retrogression that has caused coastal retreat with important human and economic impact. All the events were estimated to have occurred during the late 4-5 kyr after or during the deposition (progradation) of the HST fan delta. Recent (late 0.1-0.15 kyr) prodelta failures in the Gulf of Corinth are evidenced by the destruction of telecommunication cables, coastal collapse and the initiation of destructive tsunami waves (i.e. 1963AD). The frequency of major failure events in the Western Gulf of Corinth is estimated to 2-3 events/0.1 kyr, usually associated with strong earthquakes and tsunamis (i.e. 1817, 1861, 1917?/,1963 1995AD events) [ABSTRACT FROM AUTHOR]

Published

2007

19. Geotechnical Considerations Of Submarine Canyon Formation: The Case Of Cap De Creus Canyon.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Sansoucy, M., Locat, Jacques, and Lee, H. J.

Abstract

A portion of the Cap de Creus canyon, situated in the Gulf of Lion, has been selected for a detailed analysis of slope instability. This sector has been chosen because of morphological evidence for slide. Three piston cores have been taken at different water depths along an axis perpendicular to the thalweg and a box core has also been taken in the thalweg. At the top of the flank, the geotechnical signature suggests that clay sedimentation has been continuous. In contrast, overconsolidated silty clay has been observed in the core taken on the flank, about 60 m below a headwall escarpment, on a failure plane. The geotechnical profile of the core taken at the toe of the flank suggests that rapid depositional events, such as debris flows and turbidity currents, occur frequently. A series of triaxial tests have been performed, and provided input parameters for analyzing the initial stability of the flank with Slope/W. The impacts of several natural processes on failure development have been tested. Drained failures initiated by axial incisions seem to correspond to the main active process of the canyon, for small shallow failures. Large failure can occur under undrained conditions during earthquakes. [ABSTRACT FROM AUTHOR]

Published

2007

20. Tsunamis Generated By Coastal And Submarine Landslides In The Mediterranean Sea.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Papadopoulos, G. A., Daskalaki, E., and Fokaefs, A.

Abstract

The main cause of tsunami generation in the Mediterranean Sea is tectonic activity associated with strong earthquakes. However, tsunami waves are also generated by landslides. From a compilation of 32 reliable cases of landslide tsunamis it comes out that most of them were caused by subaerial landslides or marine slides induced mainly by earthquakes and less frequently by volcanic eruptions. Others were caused by gravitative landslides or marine slides. The most frequent events were observed in the Corinth Gulf, Greece (11 out of 32 cases). In the volcanic Aeolian islands, Italy, 7 out of 32 cases were reported. In the Hellenic arc only 3 events are known, in contrast to the abundant, large-size tsunamis of seismotectonic origin historically documented. In Cyclades, South Aegean, only 2 but large landslide tsunamis were reported. Only few events have occurred in Marmara Sea, Cyprus, East Sicily, Liguria-Côte d'Azur and Algeria. Such a pattern of geographical distribution makes possible to assess the potential for landslide tsunami generation. [ABSTRACT FROM AUTHOR]

Published

2007

21. Tsunamigenic Landslides In The Western Corinth Gulf: Numerical Scenarios.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Tinti, S., Zaniboni, F., Armigliato, A., Pagnoni, G., Gallazzi, S., Manucci, A., Reyes, B. Brizuela, Bressan, L., and Tonini, R.

Abstract

The western Corinth Gulf, central Greece, is characterized by steep slopes and large sediment river discharge, that are factors increasing the occurrence probability of underwater landslides. Thus the generation of tsunamis from submarine movements is expected to be frequent in this region, and this is confirmed in the historical tsunami catalogues, where reports of tsunamis related to landslides exist either triggered by earthquakes or by gravitational load. In this work we concentrate on the numerical simulation of submarine landslides and of the propagation of the ensuing tsunamis. We elaborate different scenarios basing on recent swath-bathymetry and seismic profiling surveys performed by the Hellenic Centre for Marine Research (HCMR). The most prominent potentially unstable bodies are found in three different regions: one is placed in the area off the city of Aigion, the second is located close to the Psathopyrgos fault, and the third occupies an elongated area off Eratini on the northern side of the gulf. All considered landslides are characterized by relatively small volumes (in the order ranging from 105-107 m3). For each scenario, the slide motion is simulated by means of a Lagrangian block model, implemented in the numerical code UBO-BLOCK1, developed by the Tsunami Research Team (TRT) of the University of Bologna, Italy. The tsunami generation and propagation modelling is carried out through the finiteelement code UBO-TSUFE, developed by the same research team, solving the Navier- Stokes equation in the shallow water approximation on a triangular-element mesh. We will show how landslide-induced sunamis propagate inside the western Corinth Gulf, the amplitude and period of the tsunami waves at some selected coastal points, and the spatial distribution of the extreme wave heights along the coast. [ABSTRACT FROM AUTHOR]

Published

2007

22. Revisiting Submarine Mass Movements Along The U.S. Atlantic Continental Margin: Implications For Tsunami Hazards.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Chaytor, J. D., Twichell, D. C., Brink, U. S. Ten, Buczkowski, B. J., and Andrews, B. D.

Abstract

Interest in the generation of tsunamis by submarine mass movements has warranted a reassessment of their distribution and the nature of submarine landslides offshore of the eastern U.S. The recent acquisition and analysis of multibeam bathymetric data over most of this continental slope and rise provides clearer view into the extent and style of mass movements on this margin. Debris flows appear to be the dominant type of mass movement, although some translational slides have also been identified. Areas affected by mass movements range in size from less than 9 km2 to greater than 15,200 km2 and reach measured thicknesses of up to 70 m. Failures are seen to originate on either the open-slope or in submarine canyons. Slope-sourced failures are larger than canyonsourced failures, suggesting they have a higher potential for tsunami generation although the volume of material displaced during individual failure events still needs to be refined. The slope-sourced failures are most common offshore of the northern, glaciated part of the coast, but others are found downslope of shelf-edge deltas and near salt diapirs, suggesting that several geological conditions control their distribution. [ABSTRACT FROM AUTHOR]

Published

2007

23. Role Of Soil Behavior On The Initial Kinematics Of Tsunamigenic Slides.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Bradshaw, A. S., Grilli, S., Baxter, C. D. P., and Taylor, O.-D. S.

Abstract

Recent investigations on tsunami generation from submarine mass failures show that one of the most important factors influencing the source characteristics of the wave is the initial acceleration of the failure itself. In a number of these studies, a translational slide is modeled as a rigid body sliding down an inclined plane and basal resistance is neglected. In this paper, a similar rigid body model is proposed that incorporates basal resistance, which is related to the shear strength of the soil. Initial slide kinematics were investigated under two triggering mechanisms including overpressures at depth and rapid sedimentation. The model results show that soil behavior significantly influences the acceleration time history as well as the magnitude of the peak acceleration. The slide kinematics depend largely on the initial stress state and on the undrained residual shear strength of the soil along a potential failure surface, which highlights the importance of performing detailed geotechnical site investigations when assessing these geohazards. More research is needed to determine the influence of using more realistic basal friction models on the initial wave heights generated by submarine mass failures. [ABSTRACT FROM AUTHOR]

Published

2007

24. Probabilistic Smf Tsunami Hazard Assessment For The Upper East Coast Of The United States.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Maretzki, S., Grilli, S., and Baxter, C. D. P.

Abstract

The level of tsunami hazard to the east coast of the United States is not well understood. This information is critical for the population, emergency services, and industry of the region. Assessing this hazard is particularly difficult because of the lack of tsunamis in the historical record and the uncertainty regarding the return periods of large-scale events that have been proposed, such as a large transoceanic tsunami possibly caused by a collapse of the Cumbre Vieja volcano in the Canary Islands, or a large co-seismic tsunami initiated in the Puerto Rican subduction zone. The most significant tsunami hazard in this region, however, may be due to local submarine mass failures (SMF), which could cause concentrated damage in coastal communities located near the failures. This paper presents results of a probabilistic analysis that estimates the hazard, expressed in terms of runup (at a given probability of occurrence), of SMF tsunamis triggered by earthquakes, on the upper northeast coast of the United States. A Monte Carlo approach is employed, in which distributions of relevant parameters (seismicity, sediment properties, type and location of slide, volume of slide, water depth, etc.) are used to perform large numbers of stochastic stability analyses of underwater slopes, based on standard geotechnical methods. When slope failure occurs, initial tsunami characteristic height and runup are estimated, based on earlier numerical work, for specified return periods of seismic events. The overall hazard associated with SMF tsunamis along the coast is found to be quite low at most locations as compared, e.g., to the typical 100 year hurricane storm surge in the region (5 m). Two sites, however, located off of Long Island, New York and Atlantic City, New Jersey, show an elevated risk of higher tsunami runup (5.0-7.5 m). These two sites should be the focus of more detailed studies. [ABSTRACT FROM AUTHOR]

Published

2007

25. Towards The Mitigation Of The Tsunami Risk By Submarine Mass Failures In The Gulf Of Corinth: The Xylocastro Resort Town Case Study.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Charalampakis, M., Stefatos, A., Ferentinos, G., and Mpourdopoulos, K.

Abstract

Submarine-mass-failure-generated tsunamis pose a significant threat to the coastal communities around the Corinth Gulf. An effort was made towards the mitigation of a potential tsunami generated in the eastern part of the gulf, due to a submarine landslide. The impact of the tsunami was assessed along the coastal segment of the summer resort town of Xylocastro. The analysis (study) of the data within a Geographical Information System revealed that a 4 m tsunami run-up will flood 12% of the town's district. One fifth of the permanent residents are expected to be affected, while one fourth of the infrastructure is likely to undergo damages. Although alarm and reaction times to a possible local tsunami are short, there is just enough time for evacuation. Therefore a more detailed hazard assessment and an emergency management plan should be undertaken, not only for Xylocastro, but also for other coastal regions in the Corinth Gulf, where extensive development is taking place. [ABSTRACT FROM AUTHOR]

Published

2007

26. Reassessment Of Seismically Induced, Tsunamigenic Submarine Slope Failures In Port Valdez, Alaska, USA.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Lee, H. J., Ryan, H. F., Haeussler, P. J., Kayen, R. E., Hampton, M. A., Locat, Jacques, Suleimani, E., and Alexander, C. R.

Abstract

The M9.2 Alaska earthquake of 1964 caused major damage to the port facilities and town of Valdez, most of it the result of submarine landslide and the consequent tsunamis. Recent bathymetric multibeam surveys, high-resolution subbottom profiles, and dated sediment cores in Port Valdez supply new information about the morphology and character of the landslide deposits. A comparison of pre- and post-earthquake bathymetry provides an estimate of the net volume of landslide debris deposited in the basin and the volume of sediment removed from the source region. Landslide features include (1) large blocks (up to 40-m high) near the location of the greatest tsunamiwave runup (~50 m), (2) two debris lobes associated with the blocks, (3) a series of gullies, channels and talus, near the fjord-head delta and badly damaged old town of Valdez, and (4) the front of a debris lobe that flowed half-way down the fjord from the east end. [ABSTRACT FROM AUTHOR]

Published

2007

27. Triggering Factors And Tsunamigenic Potential Of A Large Submarine Mass Failure On The Western Nile Margin (Rosetta Area, Egypt).

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Garziglia, S., Ioulalen, M., Migeon, S., Ducassou, E., Mascle, J., Sardou, O., and Brosolo, L.

Abstract

A large-scale mass-transport deposit (MTD) called Sl6 was recognized on the upper slope of the western Nile margin, downslope from of a 30 km-long scarp located along the outer shelf. Regional mapping indicated that this MTD extends on nearly 505 km2 and involved about 14 km3 of Pleistocene-Holocene sediment. Sl6 was triggered between 10 and 9 kyr BP, during the Holocene sea-level rise and coeval pluvial period (increased river flow). The consequent enhanced sediment supply on the upper slope and the outer shelf area caused local overburdening. This factor combined with the potential accumulation of gas in the sediment and earthquake activity is thought to have been the main factor triggering the Sl6 MTD. From the estimated volume of the MTD, a potential slide-generated tsunami was numerically simulated using the GEOWAVE software. The results indicate that the ~80 km wide Egyptian continental shelf protects the main part of the coastline from a slide-induced tsunami coming from the Rosetta area. An exception is the part of the coastline around Alexandria because focussing and shoaling processes can be simulated very close to the coast. [ABSTRACT FROM AUTHOR]

Published

2007

28. Slope Failures Of The Flanks Of The Southern Cape Verde Islands.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Le Bas, T. P., Masson, Douglas G., Holtom, R. T., and Grevemeyer, I.

Abstract

The flanks of the Cape Verde Islands Fogo, Brava and Santiago show extensive evidence of past and potential slope failure. Analyses of bathymetric and subaerial datasets show debris avalanches, turbidite pathways and debris flows, with the transportation of large volumes of rock and sediment. Similarities are seen with many of the processes operating on the flanks of the Canary Islands. In this paper we show the use of different multibeam bathymetry systems for geomorphological description and quantitative analysis. Slope maps, profiles and backscatter analysis can be used to classify the bathymetric characteristics. These derivative processes delineate the size and shape of the debris avalanches and flows and identify channel systems, as well as areas of recent seafloor volcanic activity. Two distinct debris fields covering at least 2000 km2 sourced from the east coast of Fogo are thought to contain up to 250km3 of material. Large slope failures, such as those from Fogo, may result in damage to seafloor installations such as submarine cables. However, greater hazards may be posed by the consequent generation of tsunamis. [ABSTRACT FROM AUTHOR]

Published

2007

29. Mass Wasting Processes - Offshore Sumatra.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Tappin, D. R., McNeil, L. C., Henstock, T., and Mosher, D. C.

Abstract

Earthquakes are a commonly cited mechanism for triggering submarine landslides that have the potential to generate locally damaging tsunamis. With measured runups of over 35 metres in northern Sumatra from the December 26th 2004 tsunami source, these runups might be expected to be due, in part, to local submarine landslides. Mapping of the convergent margin offshore of Sumatra using swath bathymetry, single channel seismic and seabed photography reveals that seabed failures are common, but mainly small-scale, and composed of blocky debris avalanches and sediment flows. These failures would have contributed little to local tsunami runups. Large landslides are usually formed where there is significant sediment input. In the instance of Sumatra, most sediment is derived from the oceanic plate, and there is little sediment entering the system from the adjacent land areas. Input from the oceanic source is limited because of the diversion of sediment entering the subduction system off of Sumatra, that is attributed to collision between the Ninetyeast ridge and the Sunda Trench at approximately 1.5 million years ago. [ABSTRACT FROM AUTHOR]

Published

2007

30. Sediment Stability Conditions West Of Milos Island, West Hellenic Volcanic Arc.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Hasiotis, T., Papatheodorou, G., and Ferentinos, G.

Abstract

Examination of seismic profiles west of Milos Island (Aegean Sea) show that the north Milos slope is affected by extensive mass movements, whereas the south slope is generally stable. Conditions that promote sediment failures include late Quaternary volcanic activity and related seismic activity, tectonically oversteepened slopes and possibly hydrothermal fluid escape. Big and small depressions indicative of phreatic explosions and hydrothermal venting, respectively, have been observed in Milos shelf. Sediment coring revealed that the surficial sediments are relatively soft and thus prone to failure. The lack or presence of sapropel layers is also indicative of unstable or stable slope conditions of the surficial sedimentary cover, respectively. [ABSTRACT FROM AUTHOR]

Published

2007

31. High Frequency Sediment Failures In A Submarine Volcanic Environment: The Santorini (Thera) Basin In The Aegean Sea.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Hasiotis, T., Papatheodorou, G., Charalampakis, M., Stefatos, A., and Ferentinos, G.

Abstract

Seismic data have been used to evaluate the extent, characteristics and importance of the sediment failures in the Santorini basin. The failures are small but abundant, occupying almost half of the areal extent of the study area, and modify the relief of the basin and the surrounding slopes. The fact that surficial mass flow deposits are the source area of younger sediment failures is evident of the high intensity and frequency of the sediment instabilities. The major factors which are responsible for the observed instabilities are seismic activity and seismicity related to modern volcanic activity, steep slopes and the open sediment structure due to the specific texture of the volcanic material. Sediment failures are believed to compose a big part of the deeper sedimentary column. [ABSTRACT FROM AUTHOR]

Published

2007

32. Morphosedimentology Of Submarine Mass-Movements And Gravity Flows Offshore Sept-Îles, Nw Gulf Of St. Lawrence (Québec, Canada).

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Lajeunesse, P., Locat, Jacques, St-Onge, Guillaume, and Labbé, G.

Abstract

Recent multibeam sonar and acoustic subbottom profiler surveys and sediment coring offshore the city of Sept-Îles (NW Gulf of St. Lawrence) reveal different types of submarine mass-movements and gravity flows in glaciomarine, paraglacial and postglacial deposits. These mass-movement and gravity flow features are slumps, gullies and channel-levee systems and fans. The key results of this study include: 1) slumps involve the entire deglacial and postglacial sequence, indicating their recent triggering; 2) identification of a 57-cm thick turbidite and several sand layers in sediment cores collected in a deep and isolated basin unaffected by fluvial inputs, along with 210Pb measurements, indicate the recent activity of mass wasting events derived from slope instabilities; 3) important volumes of sediments are being transported from the coastal to the deeper marine environment by gravity flows processes on the prodelta of the Moisie River. Hypotheses for explaining the widespread occurrence of recent mass-movements due to slope instabilities in the area possibly include their possible triggering by the AD 1663 (M~7) or another large earthquake. [ABSTRACT FROM AUTHOR]

Published

2007

33. The Ad 1881 Earthquake-Triggered Slump And Late Holocene Flood-Induced Turbidites From Proglacial Lake Bramant, Western French Alps.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Guyard, H., St-Onge, Guillaume, Chapron, E., Anselmetti, F. S., and Francus, P.

Abstract

High-resolution seismic analyses on the sedimentary subsurface of the deep basin of proglacial Lake Bramant (Grandes Rousses Massif, Western French Alps) allowed the detection of a large lens-shaped body with chaotic internal reflections corresponding to a mass wasting deposit (MWD) triggered by the nearby AD 1881 Allemond earthquake (MSK intensity VII). This MWD was only retrieved at the base of a short gravity core and the top of a piston core. Sediments associated with this MWD are remoulded and laminated. Locally, blocks of sediment have preserved the original stratification. This earthquake-induced mass movement is an example of a slide that evolved into a slump. In addition, several Late Holocene turbidite and hyperpycnal deposits related to exceptional flood events were identified using highresolution sedimentological, physical and geochemical analyses. However, the identification of hyperpycnites is sometimes complicated as erosion of the basal sequence can occur during the rising limb of the flood. While the precise dating of the oldest flood event is still ongoing, two flood events are coeval with the St. Sorlin glacier retreat following the end of the "Little Ice Age", suggesting outbursts of temporary ice contact lakes or subglacial lakes during warmer periods. [ABSTRACT FROM AUTHOR]

Published

2007

34. Submarine Slope Failures Near Seward, Alaska, During The M9.2 1964 Earthquake.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Haeussler, P. J., Lee, H. J., Ryan, H. F., Labay, K., Kayen, R. E., Hampton, M. A., and Suleimani, E.

Abstract

Following the 1964 M9.2 megathrust earthquake in southern Alaska, Seward was the only town hit by tsunamis generated from both submarine landslides and tectonic sources. Within 45 seconds of the start of the earthquake, a 1.2-km-long section of waterfront began sliding seaward, and soon after, ~6-8-m high waves inundated the town. Studies soon after the earthquake concluded that submarine landslides along the Seward waterfront generated the tsunamis that occurred immediately after the earthquake. We analyze pre- and post-earthquake bathymetry data to assess the location and extent of submarine mass failures and sediment transport. New NOAA multibeam bathymetry shows the morphology of the entire fjord at 15 m resolution. We also assembled all older soundings from smooth sheets for comparison to the multibeam dataset. We gridded the sounding data, applied corrections for coseismic subsidence, post-seismic rebound, unrecovered co-seismic subsidence, sea-level rise (vertical datum shift), and measurement errors. The difference grids show changes resulting from the 1964 earthquake. We estimate the total volume of slide material to be about 211 million m3. Most of this material was transported to a deep, flat area, which we refer to as "the bathtub", about 6 to 13 km south of Seward. Sub-bottom profiling of the bathtub shows an acoustically transparent unit, which we interpret as a sediment flow deposit resulting from the submarine landslides. The scale of the submarine landslides and the distance over which sediment was transported is much larger than previously appreciated. [ABSTRACT FROM AUTHOR]

Published

2007

35. The 1990 Submarine Slide Outside The Nidelv River Mouth, Trondheim, Norway.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, L'Heureux, J.-S., Longva, O., Hansen, L., and Vingerhagen, G.

Abstract

The Trondheim harbor has been the locus for many large flow slides during the last century. The most recent of these occurred in 1990 just outside the mouth of the Nidelv River and mobilized ca. 5 106 m3 of sediments. The mass movement took place as a liquefaction-induced flow slide outside the river outlet and developed into a lateral spread. The sediment mass slid along a weak layer of loose silty sand recognized by a distinct seismic reflection interpreted from high resolution seismic data. A combination of static and dynamic loading probably triggered the slide. [ABSTRACT FROM AUTHOR]

Published

2007

36. Dynamics Of The Deltaic Canyon Area Of The Rv. Chorokhi, Georgia.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, and Bilashvili, K.

Abstract

The Cape of Batumi belongs to accumulative morphological forms and mainly consists of terrigenous sediments of Rv.Chorokhi. It's location in the central part of the City of Batumi stipulates an importance of intensive research of phenomena. The natural growth of the cape towards the sea was stopped in 30-40-ties of last century, when it's frontal part closely approached the head of the Rv.Chorokhi submarine canyon. Investigation of the stability conditions of the bottom sedimentary layers deposited inside the canyon has been undertaken on the base of field observations, that repeatedly was held in 1960-2003. Sediment material from Rv.Chorokhi is a main component of the littoral cell of the Adjarian coastline of the Black Sea. The Chorokhi Canyion head locates at depth of 7-8 m at a distance of 70-140 m from the river mouth and invades the area of sediment laden currents. Its frontal area spreads along the shore line for as much as 1,5 km. More, than 90% of the river's load discharge were transported through the Chorokhi Canyon. The stability conditions of submarine sediments are disturbed by changes in the tangential reaction between soil particles or blocks, increased pore pressures, storms, instability of the underlying rocks, structural motions, tsunamis, earthquakes ( e.g. stability conditions has been violated by strong earthquake occurred in Turkey on 14-th of January,1999).Conducted research deals with the analytical considerations of dynamical processes occurring in the given area. [ABSTRACT FROM AUTHOR]

Published

2007

37. Submerged Landslide Morphologies In The Albano Lake (Rome, Italy).

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Mazzanti, P., Bozzano, F., and Esposito, C.

Abstract

The geomorphological interpretation of the high resolution bathymetry of the Albano lake (central Italy), together with conventional geological and geomorphological investigations for the subaerial slope, allowed us to identify several subaerial and submerged morphologies due to slope failures of different size and presumably age. Two main landslide categories will be decribed in this paper: totally submerged, combined subaerial-submerged landslides. Furthermore a detailed description of two past large slope failures (volume of 106m3) and the 1997 subaerial and submerged debris flow are presented. The wave induced by the 1997 debris flow testifies also the tsunamigenic potential of these phenomena which is still more serious if the presence of coastal settlements is taken into account. [ABSTRACT FROM AUTHOR]

Published

2007

38. Recursive Failure Of The Gulf Of Mexico Continental Slope: Timing And Causes.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Urgeles, R., Locat, Jacques, and Dugan, B.

Abstract

Seismic and multibeam data have shown the occurrence of Plesitocene large-scale Mass Transport Deposits (MTDs) and Holocene failure events in Ursa Basin at ~1000 m depth in the eastern levee of the Mississippi Canyon, northern Gulf of Mexico. During IODP Expedition 308 Sites U1322 and U1324 were drilled adjacent to the Recent failures and through several MTDs of Holocene and Pleistocene age. A complete suite of logging, sedimentological and geotechnical data were acquired to reveal the factors controlling initiation of past sediment failures and to characterize the hazard potential of future slope instabilities. Fluid overpressure estimated from a variety of direct and indirect methods indicates that the vertical effective stress is 50 to 70 % lower than if hydrostatic conditions existed. Overpressure in Ursa Basin most likely results from deposition of fine-grained sediments with rates at least 1 m ky-1 with peaks up to 25 m ky-1. The thickest and most widespread MTDs occur in periods of highest sedimentation rate. Considering the very low seismicity experienced by the margin it is most probable that the changes in sedimentation rate might be the primary driving force of slope failure. At Sites U1322 and U1324 a total of 14 MTDs were identified, which leads to a frequency of emplacement of 1 MTD/4.5 ka. Considering only the thickest MTDs the recurrence interval reduces to 1 MTD/10 ka. [ABSTRACT FROM AUTHOR]

Published

2007

39. Marine Deep-Water Free-Fall Cpt Measurements For Landslide Characterisation Off Crete, Greece (Eastern Mediterranean Sea) Part 2: Initial Data From The Western Cretan Sea.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Kopf, A., Stegmann, S., Krastel, Sebastian, Förster, A., Strasser, M., and Irving, M.

Abstract

Pore pressure and shear strength are major controlling parameters for slope stability, which can be measured in situ using CPT (cone penetration testing) instruments. This paper presents results from initial tests with two free-fall CPT probes deployed in the neotectonically active submarine slope of northern Crete, Greece. Research expedition P336 investigated landslide-prone areas in the Cretan Sea using multibeam swathmapping, seismic reflection profiling, in situ CPT measurements, and gravity coring. Several large landslide complexes at the NE Cretan Margin as well as a small, but steep landslide scarp structure further east were identified on the seismic profiles. CPT devices were deployed in undisturbed slope sediments, across the slide scar, and in the main body of the slide, and remained stuck in the sediment for ~10 minutes to monitor pore pressure dissipation upon insertion. Excess pore pressure after insertion is in a range around 60 kPa in background sediment, and exceeds 80 kPa in the slide deposits. Cone resistance of the slope sediment ranges between 300 and 500 kPa, corresponding to undrained shear strengths of up to 40 kPa. The slid sediments (specifically the headwall material with <10 kPa strength) show velocity-weakening behaviour during ring shear experiments, indicating that those sediments are unlikely to show stable creep and instead may fail catastrophically. [ABSTRACT FROM AUTHOR]

Published

2007

40. Rheological Properties Of Fine-Grained Sediments In Modeling Submarine Mass Movements: The Role Of Texture.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Jeong, S. W., Locat, Jacques, Leroueil, S., and Malet, J. -P.

Abstract

The rheological behavior of soils depends on many factors, including their mineralogy and grain size distribution. This work comprises an extensive search of data collected from the literature, an experimental work on about 17 samples. These results, along with a compilation of existing data, have been used to show that, as a first approximation, the yield strength/viscosity ratio is about 1000, 100 and less than 10 for clayey, silty and sandy fine-grained sediments mixtures, respectively. Our research results on the rheological properties of fine-grained sediments indicate that they are very sensitive to the variation in grain size, shear rate, and geometry of the system. [ABSTRACT FROM AUTHOR]

Published

2007

41. Linking Geotechnical And Rheological Properties From Failure To Post-Failure: The Pointe-Du-Fort Slide, Saguenay Fjord, Québec.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Locat, P., Locat, A., and Leroueil, S.

Abstract

The Pointe-du-Fort submarine mass movement likely took place at the time of the February 5th 1663 earthquake as a sidewall slope failure which generated a mudflow with a run out distance of 1070m and a final flow thickness of 10-15m resting on a slope of 1.4 degrees. The slide involved about 1.95 Mm3 of clayey sediments from an original slope of 24 degrees. The slide took place in normally consolidated sediments composed of stratified low organic Laflamme Sea clay at the base overlain by progressively more organic rich recent sediments. In situ strength testing and sampling on the tidal flat, morphological analysis and remolded strength of the debris lobe can be related to rheological tests to model the mobility of the debris. For the first time, it has been possible to link the mobility of a submarine slide with the characteristics of the sediments at the time of failure with no need to consider water content increase to explain the observed mobility. [ABSTRACT FROM AUTHOR]

Published

2007

42. Marine Deep-Water Free-Fall Cpt Measurements For Landslide Characterisation Off Crete, Greece (Eastern Mediterranean Sea) Part 1: A New 4000M Cone Penetrometer.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Stegmann, S., and Kopf, A.

Abstract

The in situ measurement of seafloor physical properties such as pore pressure, shear strength or compressibility poses a challenge to engineers, in particular in the marine realm. We present the design and first use of a marine, deep-water free-fall instrument for cone penetration testing (CPT). The probe can be operated in up to 4000 m water depth to measure cone resistance, sleeve friction, deceleration, temperature and tilt as well as pore pressure in u1 and u3 position. In this paper we discuss the advantages and disadvantages of the current prototype design, and dwell on the differences between quasi-static versus dynamic cone penetration testing. [ABSTRACT FROM AUTHOR]

Published

2007

43. Anthropogenic Turbidity Current Deposits In A Seismically Active Graben, The Gulf Of Corinth, Greece: A Useful Tool For Studying Turbidity Current Transport Processes.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Iatrou, M., Ferentinos, G., Papatheodorou, G., Piper, David J. W., and Tripsanas, E.

Abstract

A detailed marine survey in Antikyra Bay in the northern margin of the Gulf of Corinth graben in Greece was carried out to examine the distribution and dispersion of bauxitic "red mud" tailings. The red mud tailings have been discharged at a rate of 500 000 to 640 000 tonnes/year via submerged outfalls on the shelf at a water depth of 100 m. The red mud tailings at the mouth of the outfalls have formed three oval shaped mounds. These mounds have a maximum thickness of about 27 m and thin out radially in the downslope direction along the longitudinal axis of the bay in a south-southwestward direction forming a common depositional lobe. The "red mud" tailings are transported by turbidity currents, via channels which incise the slope, to the basin floor at a water depth of 800 m and over a distance of 17 km, where they form small sheet-like deposits. High-resolution sedimentological analysis of 30 short cores using visual inspection, Xradiography, grain size measurements, X-ray diffraction and smear slides have shown the presence of seven (7) distinct turbidity flow events which were activated on the shelf and the slope and have occurred during the 24 years of tailing discharge. Five of these have their source at the "red-mud" mounds at the mouths of the outfalls and two of them have their source at the shelf break and the upper slope. The analysis revealed that the former consist of (a) graded structureless red mud deposits and/or bioturbated red mud deposits, or (b) laminated red mud deposits, whereas the latter are mostly structureless and poorly graded. [ABSTRACT FROM AUTHOR]

Published

2007

44. Probability Study On Submarine Slope Stability.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Yang, S., Nadim, F., and Forsberg, C. F.

Abstract

Most of the parameters used in slope stability analyses, in particular the mechanical soil properties, are uncertain. Probability theory and reliability analyses can provide a rational framework for dealing with uncertainties. Different methods for doing reliability analysis for slopes are discussed in this study and applied to case studies. The results obtained from FOSM, PEM, and FORM via response surface method combined with the finite element method are compared, and the parameters which contribute most to the uncertainty in the factor of safety are identified. [ABSTRACT FROM AUTHOR]

Published

2007

45. Flood-Induced Turbidites From Northern Hudson Bay And Western Hudson Strait: A Two-Pulse Record Of Lake Agassiz Final Outburst Flood?

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, St-Onge, Guillaume, and Lajeunesse, P.

Abstract

In Hudson Bay and Hudson Strait, the rapid collapse of the Laurentide Ice Sheet (LIS) culminated in the catastrophic drainage of proglacial Lake Agassiz into the North Atlantic around 8500 cal BP. It has been suggested that this catastrophic event may have triggered the 8200 cal BP cold event recorded in Greenland ice cores. Evidence for that outburst flood was the identification of a centimeter to decimeter-thick hematiterich red layer that was observed in Hudson Strait sediments around 8000 yr BP. In this paper, we have identified a sequence of two flood-induced turbidites (i.e., hyperpycnites) in a reddish layer from two cores collected in northern Hudson Bay (core AMD0509-27bLEH) and western Hudson Strait (core AMD0509-28PC) in 2005 onboard the ice-breaker CCGS Amundsen. These two reddish layers can be correlated to a red bed previously identified as a regional isochron in Hudson Strait and associated with the final drainage of Lake Agassiz around 8500 cal BP. Regardless of the exact timing of the catastrophic drainage, the hyperpycnites described in this paper suggest that they were deposited following two pulses, which is in agreement with the one of the scenarios proposed by Clarke et al. (2003) [Science 301, 922-923] for the drainage of Lake Agassiz. Finally, this study demonstrates for the first time the turbiditic and the flood-induced nature of the Hudson Strait red bed isochron. [ABSTRACT FROM AUTHOR]

Published

2007

46. Underwater Rockfall Kinematics: A Preliminary Analysis.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, and Turmel, D.

Abstract

The marine environment presents various settings in which talus slopes are formed via a rock fall process similar to what exists on land. This is the case along fjords and submarine canyons in particular. Although many studies have been carried out on land, surprisingly very little is known for the submarine environment. We propose here the first kinematics analysis of underwater rockfall. It is postulated that the block have a diameter of more than one meter. As it can be expected, the main addition to the subaerial case is the consideration of the role of water (e.g. density or current). For submarine rockfall analysis, the effect of the ambient fluid cannot be neglected. Hydrodynamic constraints are controlled by the speed, shape, and size of the moving mass. Wind does not have a significant role in subaerial rockfall analysis, but currents must be considered in the subaqueous environment. In addition, coefficients of restitution are not only controlled by the elastic properties of the material, but also by impact Stokes number. This paper provides a summary of underwater rockfall kinematics in order to formulate underwater rockfall governing equations. [ABSTRACT FROM AUTHOR]

Published

2007

47. Submarine Spreading: Dynamics And Development.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Micallef, Aaron, Masson, Douglas G., Berndt, Christian, and Stow, Dorrik A. V.

Abstract

Spreading is a pervasive type of ground failure in subaerial environments, but its occurrence has hardly been documented in submarine settings. However, recent advances in seafloor imaging techniques show that repetitive extensional patterns of parallel ridges and troughs, oriented perpendicular to the direction of mass movement and typical of spreading, are widespread offshore. A spread develops via the failure of a surficial sediment unit into coherent blocks. These blocks are displaced downslope along a quasi-planar slip surface. Two modes of failure can be identified: retrogressive failure of the headwall, and slab failure and extension. Mechanical modelling indicates that loss of support and seismic loading are the main triggering mechanisms. The extent of displacement of the spreading sediment is controlled by gravitationally-induced stress, angle of internal friction of sediment, pore pressure escape and friction. The resulting block movement patterns entail an exponential increase of displacement and thinning of the failing sediment with distance downslope. A deeper insight into submarine spreading is important because of the widespread occurrence of ridge and trough morphology in numerous submarine slides, particularly in the vicinity of submarine infrastructures. [ABSTRACT FROM AUTHOR]

Published

2007

48. The General Behavior Of Mass Gravity Flows In The Marine Environment.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Niedoroda, A. W., Reed, C. W., Das, H., and Hatchett, L.

Abstract

Deep sea turbidity currents, mud flows, and debris flows have been the subject of a number of industry and government studies over the past two decades. While evidence of these flow events are common in a wide variety of continental slope and rise locations, the mode, scale, and frequency of these events have been shown to vary widely from place to place. Based on over more than a dozen field and modeling projects, we present an overview of the controls, scale, flow type, and flow behavior. The most general controlling factors are the type and scale of the triggering event, the slope and morphology of the seafloor, and the material properties of the flow. In this overview we focus on details of the evolving flows that need to be included in quantitative analyses with numerical models. [ABSTRACT FROM AUTHOR]

Published

2007

49. Experimental Studies Of Subaqueous Vs. Subaerial Debris Flows - Velocity Characteristics As A function Of The Ambient Fluid.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Breien, H., Pagliardi, M., De Blasio, F. V., Issler, D., and Elverhøi, A.

Abstract

A series of comparable subaerial and subaqueous debris flow experiments of sand-claywater mixtures has been performed at the St Anthony Falls Laboratory (SAFL) at University of Minnesota. Different compositions were tested and velocities measured in detail using PIV (Particle Image Velocimetry) techniques. The experimental series provides a unique data set highlighting the effects of the ambient and interstitial fluid in comparable subaerial and subaqueous debris flows. Based on our experimental data we emphasize the differences in the dynamical behaviour associated with the two environments and suggest important mechanisms to be included in numerical models. [ABSTRACT FROM AUTHOR]

Published

2007

50. Landslide And Gravity Flow Features And Processes Of The Nazaré And Setúbal Canyons, West Iberian Margin.

Author

Lykousis, Vasilis, Sakellariou, Dimitris, Locat, Jacques, Arzola, R. G., Wynn, Russell B., Masson, Douglas G., Weaver, P. P. E., and Lastras, G.

Abstract

The Nazaré and Setúbal Canyons of the west Iberian margin are highly complex seafloor environments, displaying a range of sedimentary features and processes that reflect the transition from erosive upper to depositional lower canyon. Upper sections are characterised by a deeply incised, narrow, V-shaped thalweg, and frequent localised intra-canyon slope failures. Lower sections have a U-shaped floor with heterogeneous sediment distribution. Two types of gravity flow are observed: thin-bedded, finegrained deposits that may be the result of frequent turbidity currents generated by high sediment supply to canyon heads, and thicker, siliciclastic coarse sandy turbidites, probably generated by larger earthquake-triggered slope failures on much longer timescales. Our results highlight the complex interplay of sedimentary processes operating within major canyon systems. [ABSTRACT FROM AUTHOR]

Published

2007