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MARC Record from Library of Congress

Record ID marc_loc_updates/v40.i20.records.utf8:13649099:5404
Source Library of Congress
Download Link /show-records/marc_loc_updates/v40.i20.records.utf8:13649099:5404?format=raw

LEADER: 05404nam a22003378a 4500
001 2012014480
003 DLC
005 20120509120525.0
008 120406s2012 nyu b 001 0 eng
010 $a 2012014480
020 $a9781107002067 (hardback)
040 $aDLC$cDLC
042 $apcc
050 00 $aQE599.2$b.L365 2012
082 00 $a551.3/07$223
084 $aSCI030000$2bisacsh
245 00 $aLandslides :$btypes, mechanisms, and modeling /$cedited by John Clague, Doug Stead.
260 $aNew York :$bCambridge University Press,$c2012.
263 $a1207
300 $ap. cm.
520 $a"Landslides have geological causes but can be triggered by natural processes (rainfall, snowmelt, erosion and earthquakes) or by human actions such as agriculture and construction. Research aimed at better understanding slope stability and failure has accelerated in recent years, accompanied by basic field research and numerical modeling of slope failure processes, mechanisms of debris movement, and landslide causes and triggers. Written by 75 world-leading researchers and practitioners, this book provides a state-of-the-art summary of landslide science. It features both field geology and engineering approaches, as well as modeling of slope failure and run-out using a variety of numerical codes. It is illustrated with international case studies integrating geological, geotechnical and remote sensing studies and includes recent slope investigations in North America, Europe and Asia. This is an essential reference for researchers and graduate students in geomorphology, engineering geology, geotechnical engineering and geophysics, as well as professionals in natural hazard analysis"--$cProvided by publisher.
504 $aIncludes bibliographical references and index.
505 8 $aMachine generated contents note: List of contributors; Preface John J. Clague and Doug Stead; 1. Landslide hazard and risk John J. Clague and Nick Roberts; 2. Landslides in the Earth system Oliver Korup; 3. Earthquake ground motion and patterns of seismically induced landsliding Niels Hovius and Patrick Meunier; 4. Landslides at stratovolcanoes initiated by volcanic unrest Christopher F. Waythomas; 5. Mobility of long-runout rock avalanches Tim Davies and Mauri McSaveney; 6. Rapid rock slope failures Reginald L. Hermanns and Oddvar Longva; 7. Risk assessment for debris flows Matthias Jakob and Kris Holm; 8. Landslides in quick clay J. Kenneth Torrance; 9. Controls on the distribution of major types of submarine landslides David J. W. Piper, David C. Mosher and D. Calvin Campbell; 10. Tsunami hazard assessment related to slope failures in coastal waters Brian D. Bornhold and Richard E. Thomson; 11. Physical impacts of climate change on landslide occurrence and related adaptation Christian Huggel, N. Khabarov, Oliver Korup and M. Obersteinter; 12. Landslides and geological environments Robin Fell, David Stapledon and Patrick MacGregor; 13. Numerical modeling of rock slope instability Doug Stead and John Coggan; 14. Remote sensing techniques and landslides David Petley; 15. Engineering geomorphology of landslides James S. Griffiths and Malcolm Whitworth; 16. Developments in landslide runout prediction Scott McDougall, Mika McKinnon and Oldrich Hungr; 17. Models of the triggering of landslides during earthquakes Randall W. Jibson; 18. Slow rock slope deformation Federico Agliardi, Giovanni B. Crosta and Paolo Frattini; 19. Landslide monitoring: the role of investigative monitoring to improve understanding and early warning of failure Erik Eberhardt; 20. Groundwater in slopes Luciano Picarelli, S. Leroueil, L. Olivares, L. Pagano, P. Tommasi and G. Urciuoli; 21. Soil slope stabilization Edward N. Bromhead, Seyyedmahdi Hosseyni and Nobuyuki Torii; 22. Rock fall characterization and modeling Paolo Frattini, Giovanni B. Crosta and Federico Agliardi; 23. The 2006 Eiger rockslide, European Alps Michel Jaboyedoff, Marc-Henri Derron, Julien Jakubowski, Thierry Oppikofer and Andrea Pedrazzini; 24. Randa: kinematics and driving mechanisms of a large complex rockslide Simon Loew, V. Gischig, H. Willenberg, A. Alpiger and J. R. Moore; 25. Characterization and management of rockslide hazard at Turtle Mountain, Alberta, Canada Corey R. Froese, Marie Charrière, Florian Humair, Michel Jaboyedoff and Andrea Pedrazzini; 26. The Åknes rockslide, Norway Lars Harald Blikra; 27. A seismometric approach for back-analysing an unusual rockfall in the Appenines of Italy G. Bianchi Fasani, C. Esposito, S. Martino, G. Scarascia Mugnozza, L. Lenti and M. Pecci; 28. Downie Slide, British Columbia, Canada Katherine Kalenchuk, D. Jean Hutchinson, Mark Diederichs and Dennis Moore; 29. The 1963 Vaiont landslide, Italy Monica Ghirotti; 30. Hong Kong landslides S. R. Hencher and A. W. Malone; 31. Landslides induced by the Wenchuan earthquake Mashiro Chigira, Wang Gonghui and Wu Xiyong; 32. Landslides on other planets M. H. K. Bulmer; Index.
650 0 $aLandslide hazard analysis.
650 0 $aSlopes (Soil mechanics)$xStability.
650 0 $aLandslides$xMathematical models.
650 0 $aSlopes (Soil mechanics)$xMathematical models.
650 7 $aSCIENCE / Earth Sciences / Geography$2bisacsh.
700 1 $aClague, J. J.$q(John Joseph),$d1946-
700 1 $aStead, D.$q(Doug)
856 42 $3Cover image$uhttp://assets.cambridge.org/97811070/02067/cover/9781107002067.jpg