LEADER 04700nam  2201105z- 450 
001 9910566460903321
005 20231214133241.0
035   $a(CKB)5680000000037772
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/80970
035   $a(EXLCZ)995680000000037772
100   $a20202205d2022      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aLandslide Hazard and Environment Risk Assessment
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 electronic resource (318 p.)
311   $a3-0365-3693-0 
311   $a3-0365-3694-9 
330   $aLandslides are among the most widespread and frequent natural hazards. Landsliding is linked to the combination of geological, geomorphological, and climatic factors in response to trigger mechanisms, mostly represented by heavy rainfall events, seismicity, or human action. Landslides directly and indirectly impact a territory, causing fatalities and huge socio-economic losses. Consequently, to avoid serious consequences and support sustainable territorial planning, there is a clear need of correct land use policies and best practices for long-term risk mitigation and reduction. In this context, geomorphological field activities, satellite remote sensing, landslide susceptibility mapping, and innovative GIS analysis offer effective support for mapping and monitoring landslides? activity at both the local and regional scales. All landslide types are considered, from rockfalls to debris flows, from slow-moving slides to very rapid rock avalanches. Contributions to this Special Issue report key advances in landslide susceptibility mapping, environmental risk management in mass movement-prone areas, and landslide analysis in different geomorphological/morphostructural environments. Each article describes a distinct methodological approach to accurately investigate landslide phenomena and assess slope stability. Each article provides a scientific basis useful for the implementation of land planning, civil protection activities, and mitigation measures in different geological?geomorphological frameworks.
606   $aResearch & information: general$2bicssc
610   $aKenya
610   $alandslide susceptibility
610   $afuzzy analytic hierarchy process
610   $atriangular fuzzy numbers
610   $aGIS
610   $ainteraction matrix
610   $aheuristic
610   $asusceptibility
610   $ainventory
610   $aGreece
610   $ahistorical landslides
610   $amultitemporal analysis
610   $ageomorphological mapping
610   $aGIS analysis
610   $apiedmont area
610   $aAbruzzo Region
610   $alandslide
610   $ahydromechanical modeling
610   $aearly-warning
610   $aslope stability
610   $arainfall-induced landslides
610   $alocal factor of safety
610   $aSoilNet
610   $ageophysical characterization
610   $awater content distribution
610   $abedrock topography
610   $alarge-scale landslides
610   $aDSGSDs
610   $anormal faults and overthrusts
610   $aSibillini Mts.
610   $aCentral Apennines
610   $aItaly
610   $arisk
610   $asoil sealing
610   $alandslides
610   $afactor of safety
610   $anumerical models
610   $aHoek-Brown method
610   $amonoclinal setting
610   $ahybrid modeling
610   $aGeographical Detector
610   $ainformation value
610   $amachine learning
610   $aKerala
610   $ahazard
610   $ahydroseeding
610   $aslope
610   $avegetation
610   $aAHP
610   $asnow avalanche
610   $amass movements-prone areas
610   $ahazard assessment
610   $aclimate extremization
610   $aenvironmental risk
610   $aGran Sasso Massif
610   $amorphotectonic
610   $amorphostratigraphy
610   $aDGSDs
610   $ariver capture
610   $afluvial terraces
610   $aSardinia
615  7$aResearch & information: general
700   $aMiccadei$b Enrico$4edt$0303058
702   $aCarabella$b Cristiano$4edt
702   $aPaglia$b Giorgio$4edt
702   $aMiccadei$b Enrico$4oth
702   $aCarabella$b Cristiano$4oth
702   $aPaglia$b Giorgio$4oth
906   $aBOOK
912   $a9910566460903321
996   $aLandslide Hazard and Environment Risk Assessment$93037207
997   $aUNINA