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Main Title Submarine Mass Movements and Their Consequences 6th International Symposium / [electronic resource] :
Type EBOOK
Author Krastel, Sebastian.
Other Authors
Author Title of a Work
Behrmann, Jan-Hinrich.
Völker, David.
Stipp, Michael.
Berndt, Christian.
Urgeles, Roger.
Chaytor, Jason.
Huhn, Katrin.
Strasser, Michael.
Harbitz, Carl Bonnevie.
Publisher Springer International Publishing : Imprint: Springer,
Year Published 2014
Call Number GC1-1581
ISBN 9783319009728
Subjects Geography. ; Oceanography. ; Sedimentology. ; Physical geography.
Internet Access
Description Access URL
http://dx.doi.org/10.1007/978-3-319-00972-8
Collation XVI, 683 p. 264 illus., 231 illus. in color. online resource.
Notes
Due to license restrictions, this resource is available to EPA employees and authorized contractors only
Contents Notes
Physical properties of sediments -- Gas hydrates and role of interstitial fluids in submarine slope failure -- Slope stability and risk assessment -- Monitoring, observation and repeated surveys of active slope failure processes -- Understanding failure processes from submarine landslide geomorphology -- Interaction between ocean circulation and MTDs -- Landslide generated tsunamis -- Long-term record of submarine landslides and MTD paleoseismology -- Outcrops of ancient submarine landslides. Submarine mass movements are a hidden geohazard with large destructive potential for submarine installations and coastal areas. This hazard and associated risk is growing in proportion with increasing population of coastal urban agglomerations, industrial infrastructure, and coastal tourism. Also, the intensified use of the seafloor for natural resource production, and deep sea cables constitutes an increasing risk. Submarine slides may alter the coastline and bear a high tsunamogenic potential. There is a potential link of submarine mass wasting with climate change, as submarine landslides can uncover and release large amounts greenhouse gases, mainly methane, that are now stored in marine sediments. The factors that govern the stability of submarine slopes against failure, the processes that lead to slope collapses and the collapse processes by themselves need to be better understood in order to foresee and prepare society for potentially hazardous events. This book volume consists of a collection of cutting edge scientific research by international experts in the field, covering geological, geophysical, engineering and environmental aspects of submarine slope failures. The focus is on understanding the full spectrum of challenges presented by this major coastal and offshore geohazard.