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Geohazards: Risk Assessment, Mitigation and Prevention

Edited by
October 2023
608 pages
  • ISBN978-3-0365-9039-4 (Hardback)
  • ISBN978-3-0365-9038-7 (PDF)
https://doi.org/10.3390/books978-3-0365-9038-7
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This book is a reprint of the Special Issue Geohazards: Risk Assessment, Mitigation and Prevention that was published in

Biology & Life Sciences
Chemistry & Materials Science
Computer Science & Mathematics
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary

This reprint aims to provide a common forum to share knowledge about the growing threat of geohazards such as landslides, earthquakes, floods, tsunamis, coastal changes, and drought, among many others, due to the expanding size of cities and urban areas, the critical use of agricultural lands, the increased use of infrastructure, and the effects of climate change.A total of thirty-one papers (twenty-eight research papers, one review paper, and one technical note) on different topics like coastal changes, landslides, earthquakes, and others are presented in this reprint. The published works have been carried out in different parts of the world, such as Spain, Portugal, France, Italy, Hungary, China, South Korea, India, Malaysia, Algeria, Canada, or Mexico.

Format
  • Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
debris flow; berm; mitigation measure; volumetric concentration; gas hydrates; European margins; geohazard assessment; electric tomography; three-dimensional; electrodes; seat control; foundations; stabilization methodology; landslide displacement prediction; decomposition-ensemble model; recurrent neural network (RNN); ensemble empirical mode decomposition (EEMD); maximal information coefficient (MIC); flood vulnerability; spatial analysis; logistic regression; ROC analysis; flood detection; site effects; spectral ratio; trans-mexican volcanic belt; landslide; safety factor; Central Spanish Pyrenees; soft rocks; stabilization measures; b value; stable state; depth; Longmenshan fault; flood risk; cultural heritage sites; bathymetric data; manning’s roughness coefficient; hydrodynamic modelling; beach erosion; storm waves; recovery process; video monitoring; pocket beach; Middle-Chelif sedimentary basin; HVSR; array measurement; frequency–wavenumber (F–K) method; landslide-induced wave; lake-tsunami assessment; mountain lakes; landslides; artificial rainfall; grain size; rainfall pattern; pore water pressure; generator of earthquakes; low-to-moderate seismicity; stochastic; France; loess; dry-wet cycles; triaxial creep test; creep behavior; strain-time; long-term strength; forest fires; Cat model; climate change; disaster risk; machine learning; R programming language; extreme droughts; climate change; modeling; crop yield losses; crop insurance; landslide dynamics; landslide classification; dynamic models; depth-averaged model; GIS; coastal morpho-sedimentary dynamics; erosion/accretion patterns; remote sensing; beach types; meteo-ocean effects; landslide susceptibility; volume ratio; reserve increase-rate-analysis method; GIS; Loess Plateau; landslide risk; natural phenomena; Reggio Calabria; GIS; AHP method; multi-hazard; earthquake; wind; flood; hazards; hurricane; mitigation; resilience; risk assessment; bridge; building; wind turbine; control system; Middle-Chelif Basin; ambient vibrations; HVSR; array techniques; Vs30; site classification; liquefaction; electron bursts; NOAA satellite; East Pacific earthquakes; conditional probability; risk reduction; landslide susceptibility; validation; predictive capability; disaster risk; tropical climate; Malaysia; insurance hazard model; earthquake clustering; space–time ETAS model; Hungarian earthquake catalogue; 2020 Petrinja earthquake; landslide; multi-criteria decision analysis (MCDA); analytical hierarchy process (AHP); receiver operating characteristics; area under the curve (AUC); completely weathered granite; runoff; sediment production; slope erosion; flow velocity hydrodynamic characteristics; combination weighting method; cluster analysis; optimization; classification of debris flows; risk assessment; Longmenshan Town; climate change; beach erosion; dune cliff; land management; data analysis; earth fissure; microtremor testing; spectrum analysis; amplification effect