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Soil-Water Conservation, Erosion, and Landslide



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Autore: Chen Su-Chin Visualizza persona
Titolo: Soil-Water Conservation, Erosion, and Landslide Visualizza cluster
Pubblicazione: Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica: 1 electronic resource (392 p.)
Soggetto topico: Technology: general issues
Environmental science, engineering & technology
Soggetto non controllato: landslide
image classification
spectrum similarity analysis
extreme rainfall-induced landslide susceptibility model
landslide ratio-based logistic regression
landslide evolution
Typhoon Morakot
Taiwan
vegetation community
vegetation importance value
root system
soil erosion
grey correlation analysis
sediment yield
RUSLE
Lancang-Mekong River basin
rainfall threshold
landslide probability model
debris flow
Zechawa Gully
mitigation countermeasures
Jiuzhaigou Valley
water erosion
susceptibility
Gaussian process
climate change
radial basis function kernel
weighted subspace random forest
extreme events
extreme weather
naive Bayes
feature selection
machine learning
hydrologic model
simulated annealing
earth system science
PSED Model
loess
ICU
static liquefaction
mechanical behavior
pore structure
alpine swamp meadow
alpine meadow
degradation of riparian vegetation
root distribution
tensile strength
tensile crack
soil management
land cover changes
Syria
hillslopes
gully erosion
vegetation restoration
soil erodibility
land use
bridge pier
overfall
scour
landform change impact on pier
shallow water equations
wet-dry front
outburst flood
TVD-scheme
MUSCL-Hancock method
laboratory model test
extreme rainfall
rill erosion
shallow landslides
deep lip surface
safety factor
rainfall erosivity factor
USLE R
Deep Neural Network
tree ring
dendrogeomorphology
landslide activity
deciduous broadleaved tree
Shirakami Mountains
spatiotemporal cluster analysis
landslide hotspots
dam breach
seepage
overtopping
seismic signal
flume test
breach model
Persona (resp. second.): ChenSu-Chin
Sommario/riassunto: The predicted climate change is likely to cause extreme storm events and, subsequently, catastrophic disasters, including soil erosion, debris and landslide formation, loss of life, etc. In the decade from 1976, natural disasters affected less than a billion lives. These numbers have surged in the last decade alone. It is said that natural disasters have affected over 3 billion lives, killed on average 750,000 people, and cost more than 600 billion US dollars. Of these numbers, a greater proportion are due to sediment-related disasters, and these numbers are an indication of the amount of work still to be done in the field of soil erosion, conservation, and landslides. Scientists, engineers, and planners are all under immense pressure to develop and improve existing scientific tools to model erosion and landslides and, in the process, better conserve the soil. Therefore, the purpose of this Special Issue is to improve our knowledge on the processes and mechanics of soil erosion and landslides. In turn, these will be crucial in developing the right tools and models for soil and water conservation, disaster mitigation, and early warning systems.
Titolo autorizzato: Soil-Water Conservation, Erosion, and Landslide  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910566467403321
Lo trovi qui: Univ. Federico II
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