Turbidites

 

• Al-ja'aidi Geology Homepage
• Atlas of Sedimentary Structures from the Polish Flysch Carpathians and Their Experimental Replicas
• Conditions for formation of massive turbiditic sandstones by primary depositional processes
• Deposits of depletive high-density turbidity currents: A flume analogue of bed geometry, structure and texture
• Determining Flow Directions in Turbidites: An Integrated Sedimentological and Magnetic Fabric Study of Two Miocene Turbiditic Systems (Northern Apennines, Italy)
• Distinctive Properties of Turbiditic and Hemipelagic Mud Layers in the Algero-Balearic Basin, Western Mediterranean Sea
• Duration of deposition from decelerating high-density turbidity currents
• Early Cretaceous flysch from Betic-Maghrebian and Europe Alpine Chains (Gibraltar Strait to the Balkans): comparison and palaeotectonic implications
• Eocene to Early Oligocene turbidite sedimentation in the SE Aegean (Karpathos Island, SE Greece): stratigraphy, facies analysis, nannofossil study, and possible hydrocarbon potential
• Flows that left no trace: Very large-volume turbidity currents that bypassed sediment through submarine channels without eroding the sea floor
• Geometry and microstructures of muddy turbidites in the Plio-Pleistocene deep-watersuccessions on the Boso Peninsula, central Japan
• High Resolution Sequence Stratigraphy Correlation and Sedimentary Model of Turbidites: A Case on the 1st Member of the Kqn Formation in the Dabusu Area, South Songliao Basin
• Interplay of Mass-Transport and Turbidite-System Deposits in Different Active Tectonic and Passive Continental Margin Settings: External and Local Controlling Factors
• Intrabasinal and Extrabasinal Turbidites: Origin and Distinctive Characteristics
• Lacustrine Turbidites in Rift Basins: Genesis, Morphology, and Petroleum Potential ‐ A Case Study from Barmer Basin
• Les courants de turbidité
• Mapping Turbidite System Pathways on the Lousiana Continental Slope with GLORIA and Multibeam Bathymetry
• Marine Geology G226 Turbidites
• Modelling Small-Scale Heterogeneities in a Channelised Turbidite System: Digital Outcrop Study from the Ainsa I Turbidite System
• Morphodynamics of supercritical high-density turbidity currents
• Multi-stage development of the joint network in the flysch rocks of western Podhale (InnerWestern Carpathians, Poland)
• Oligocene to Holocene mass-transport deposits of the New Jersey continental margin
• Paleoflow Directions of Albian Basin-Floor Turbidity Currents in the Newfoundland Basin
• Palaeogeography of a Mid Miocene Turbidite Complex, Moki Formation, Taranaki Basin, New Zealand
• Provenance and Sedimentologic Variations of Turbidite and Slump Deposits at Sites 955 and 956
• Reservoir Architecture of Turbidite Channels: Models and Mysteries
• Reservoir modelling of a small-scale heterogeneities in a sand-rich channelised turbidite system; Ross Formation, SW Ireland
• Revised Late Campanian-Danian age of the melange-related turbiditic sequence in the Mersin area (Central Taurides, S. Turkey)
• Roger G. Walker - Turbidity currents and turbidites
• Sedimentary Features in Turbidites
• Structural Setting of Turbidite Systems: A Global Comparison
• Talus et Bassin Oceanique
• Textural trends in turbidites and slurry beds from the Oligocene flysch of the East Carpathians, Romania
• Turbidite Architecture in Proximal Foreland Basin-System Deep-Water Depocenters: Insights from the Cenozoic of Western Europe
• Turbidite Research at the Institute for Crustal Studies, University of California at Santa Barbara
• Turbidites Characterization from Seismic Stratigraphy Analysis: Application to the Netherlands Offshore F3 Block
• Turbidites Research Group, Earth Sciences Dept - Leeds University
• turbidites.org - default portal for Ben Kneller's deep marine clastics research group at University of Aberdeen
• Turbidity Currents
• Turbidity Currents
• Turbidity Currents That Co-Evolve With Channels over Lengths as Much as 1000 km: How Can they do it?

Books about turbidites

	Confined Turbidite Systems This publication arose from a growing appreciation of the extent to which the development of turbidite depositional systems is fundamentally affected by basin-floor topography. In many turbidite systems and turbidite hydrocarbon reservoirs, depositional patterns have been moderately to strongly confined by pre-existing slopes; thus 'submarine fans' may be far from fan-shaped where constrained by significant bathymetric features. This volume examines aspects of sediment dispersal and accumulation in deep-water systems where sea-floor topography has exerted a decisive control on deposition, and explores the associated controls on hydrocarbon reservoir architecture and heterogeneity. The papers presented here offer a global perspective, which is wide-ranging in terms of approach as well as location, including contrasting reviews and case studies of outcrop, subsurface, modern and experimental systems. This book will be of use both to academic geologists and to geoscience professionals in industry dealing with the characterization/modelling of deep-water clastic reservoirs.
	Submarine Mass Movements and Their Consequences This book provides a world-wide perspective of submarine mass movements and their consequences. This has been made possible by assembling excellent contributions from active researchers, groups, or institutions, thus providing full coverage of the many scientific and engineering aspects of this type of marine and coastal geo-hazard. It covers fundamental as well as site specific studies from many areas including the Atlantic and Pacific Oceans, inner seas such as the Mediterranean Sea, and fjords using the most recent technologies from multibeam sonar imaging techniques, 3D seismic analysis, slope stability analysis, to debris flow and tsunami modeling.
	Submarine Slope Systems: Processes and Products Submarine slopes provide the critical link between shallow-water and deep-water sedimentary environments. They accumulate a sensitive record of sediment supply, accommodation creation/destruction, and tectonic processes during basin filling. There is a complex stratigraphic response to the interplay between parameters that control the evolution of submarine slope systems, e.g. slope gradient, topographic complexity, sediment flux and calibre, base-level change, tectonic setting, and post-depositional sediment remobilization processes. The increased understanding of submarine slope systems has been driven partly by the discovery of large hydrocarbon fields in morphologically complex slope settings, such as the Gulf of Mexico and offshore West Africa, and has led to detailed case studies and improved generic models for their evolution.