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GEOPHYSICAL RESEARCH LETTERS, VOL. 40, 4299–4304, doi:[removed]grl.50828, 2013 Landslide velocity, thickness, and rheology from remote sensing: La Clapière landslide, France Adam M. Booth,1 Michael P. Lamb,1 Jean-Phil
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Document Date: 2014-04-25 12:45:03

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City

Alps / BOOTH ET / Pasadena / L. A. / Plouzané / Washington / Shizuoka / /

Company

Oxford University Press / The star / CVX Research Inc. / /

Country

Italy / France / Japan / United States / Columbia / /

Currency

DEM / /

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Event

Natural Disaster / /

Facility

Keck Institute / Gravitational Landslide Observatory / Iglière bar / California Institute of Technology / /

IndustryTerm

discontinuous network / power law landslide rheology / online version / repeat high resolution satellite / satellite images / transport law / /

Movie

A. I. / /

NaturalFeature

Alps / Tinée Valley / Van Duzen River / Tinée River / Upper Tinée valley / /

Organization

California Institute of Technology / Keck Institute for Space Studies and Terrestrial Hazard Observation / Liaison Lab. / Congress / American Geophysical Union / Division of Geological and Planetary Sciences / Terrestrial Hazard Observation and Reporting Center / Oxford University / /

Person

Adam M. Booth / Nat / Y. Guglielmi / V / H. Seroussi / E. Rignot / George Hilley / H. Ben Dhia / D. Aubry / J. Geophys / E. Larour / /

Position

Editor / Corresponding author / landscape evolution model / Bishop / /

ProvinceOrState

Nebraska / Alaska / Umbria / California / /

PublishedMedium

GEOPHYSICAL RESEARCH LETTERS / Soft Matter / /

Region

central Italy / southeastern France / Southern Alps / southern France / /

Technology

remote sensing / 3-D / GPS / http / /

SocialTag