Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In this book are reported nine works related to land subsidence monitoring using remote sensing techniques. Land subsidence is a common phenomenon in many regions of the world, where it causes degradation of local ecosystems and disruption of economic activities. Its effects are more evident in densely populated areas in particular in low-lying territories such as river deltas and coastal areas where the combination of land subsidence and sea level rise increases the flooding risk. For this reason, the monitoring of ground deformations is a crucial step to obtain important information for the development of risk mitigation strategies. In the presented papers, the characteristics of land subsidence occurring in different study areas are described, and recent developments in the used methodologies for the monitoring of the ground displacements are discussed and validated also by means of ground-based data. Moreover, advantages and disadvantages of the adopted techniques are highlighted. The outcomes of these research works can provide national and local authorities with useful information for the implementation of integrated monitoring systems in the areas most affected by land subsidence.

land subsidence --- IPTA --- land-use --- water resource utilization --- groundwater change --- deformation --- geology --- Gävle --- InSAR --- PSI --- precise levelling --- sentinel-1 --- subsidence --- Sweden --- ALOS/PALSAR --- time series analysis --- SBAS --- hot spring water --- hydrothermal fluids --- Hakone Volcano --- satellite geodesy --- radar interferometry --- persistent scatterers --- distributed scatterers --- orbit combination --- Sentinel-1 --- cavern field --- salt deposit --- geophysical modeling --- underground gas storage --- GNSS --- ground movement --- subsidence monitoring --- integrated numerical simulation --- Dubrovnik --- satellite altimetry --- tide gauges --- vertical land motion --- DInSAR --- mining-induced tremors --- land surface deformation --- Upper Silesian Coal Basin --- Interferometry --- SNAP-StaMPS --- Ground deformation --- Po River Delta --- integrated monitoring --- time-series analysis --- n/a --- Gävle

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In the last few centuries, the study of sea-level changes along the world's shores has been a primary scientific focus in analyses of climate change, but also for scientists exploring past landscape evolution, geomorphological processes, human impacts, and system responses. The relative variation in sea level derives as a result of global, regional, and local processes. All these processes are spatially and temporally variable and cause complex sea-level changes at both regional and local scales. A multidisciplinary approach addressed to palaeo sea-level reconstructions at regional and local scale is the best method to understand the role of natural and anthropogenic forcing in the landscape evolution, as well as to discover the historical human adaptions to natural modifications of the landscape. Definitely, investigating these regional and local patterns is mandatory to reconstruct possible scenarios of the relative sea level rise impacts and to prepare the adaptation of coastal communities threatened by future climate changes. The aim of this Special Issue has been to collect contributions addressing and discussing methodological and multi-disciplinary approaches to studying the regional and local coastal modifications in relation to historical and recent relative sea-level changes to hypothesize future trends.

Research & information: general --- Environmental economics --- sea-level rise --- Mediterranean Sea --- tide gauges --- natural variability --- vertical land motion --- Mississippi River Delta --- Louisiana --- salinity --- sediment --- wetland loss --- estuary --- diversion --- environmental planning --- coastal restoration --- sea level --- coastal erosion --- coastal morphometry --- Baltic Sea --- coastal changes --- vertical ground movements --- geoarchaeology --- 3D model --- relative sea level changes --- Campi Flegrei --- Holocene --- coastal lagoon --- geochronology --- sea level change --- bio-indicators --- climate change --- adaptation costs --- investment decision --- Spain and Portugal coastal cities --- uncertainty --- stochastic model --- coastal dynamics --- erosion --- accretion --- submersion --- boulders --- Medicane --- flow --- UAV --- waves --- coastal barrier --- continuous backstepping pattern --- incised valley --- sapropel S1 --- coastal plains --- relative sea-level rise --- 2100 --- marine submersion --- tide-gauges --- atmospheric variability --- Tyrrhenian sea --- interannual variations --- acqua alta --- well log correlation --- late Quaternary environments --- sea-level changes --- Volturno plain --- southern Italy --- geomorphological coastal changes --- sea storm effects --- integrated 3D remote sensing surveys --- sedimentary dynamics --- western Ligurian sea --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In the last few centuries, the study of sea-level changes along the world's shores has been a primary scientific focus in analyses of climate change, but also for scientists exploring past landscape evolution, geomorphological processes, human impacts, and system responses. The relative variation in sea level derives as a result of global, regional, and local processes. All these processes are spatially and temporally variable and cause complex sea-level changes at both regional and local scales. A multidisciplinary approach addressed to palaeo sea-level reconstructions at regional and local scale is the best method to understand the role of natural and anthropogenic forcing in the landscape evolution, as well as to discover the historical human adaptions to natural modifications of the landscape. Definitely, investigating these regional and local patterns is mandatory to reconstruct possible scenarios of the relative sea level rise impacts and to prepare the adaptation of coastal communities threatened by future climate changes. The aim of this Special Issue has been to collect contributions addressing and discussing methodological and multi-disciplinary approaches to studying the regional and local coastal modifications in relation to historical and recent relative sea-level changes to hypothesize future trends.

Research & information: general --- Environmental economics --- sea-level rise --- Mediterranean Sea --- tide gauges --- natural variability --- vertical land motion --- Mississippi River Delta --- Louisiana --- salinity --- sediment --- wetland loss --- estuary --- diversion --- environmental planning --- coastal restoration --- sea level --- coastal erosion --- coastal morphometry --- Baltic Sea --- coastal changes --- vertical ground movements --- geoarchaeology --- 3D model --- relative sea level changes --- Campi Flegrei --- Holocene --- coastal lagoon --- geochronology --- sea level change --- bio-indicators --- climate change --- adaptation costs --- investment decision --- Spain and Portugal coastal cities --- uncertainty --- stochastic model --- coastal dynamics --- erosion --- accretion --- submersion --- boulders --- Medicane --- flow --- UAV --- waves --- coastal barrier --- continuous backstepping pattern --- incised valley --- sapropel S1 --- coastal plains --- relative sea-level rise --- 2100 --- marine submersion --- tide-gauges --- atmospheric variability --- Tyrrhenian sea --- interannual variations --- acqua alta --- well log correlation --- late Quaternary environments --- sea-level changes --- Volturno plain --- southern Italy --- geomorphological coastal changes --- sea storm effects --- integrated 3D remote sensing surveys --- sedimentary dynamics --- western Ligurian sea --- sea-level rise --- Mediterranean Sea --- tide gauges --- natural variability --- vertical land motion --- Mississippi River Delta --- Louisiana --- salinity --- sediment --- wetland loss --- estuary --- diversion --- environmental planning --- coastal restoration --- sea level --- coastal erosion --- coastal morphometry --- Baltic Sea --- coastal changes --- vertical ground movements --- geoarchaeology --- 3D model --- relative sea level changes --- Campi Flegrei --- Holocene --- coastal lagoon --- geochronology --- sea level change --- bio-indicators --- climate change --- adaptation costs --- investment decision --- Spain and Portugal coastal cities --- uncertainty --- stochastic model --- coastal dynamics --- erosion --- accretion --- submersion --- boulders --- Medicane --- flow --- UAV --- waves --- coastal barrier --- continuous backstepping pattern --- incised valley --- sapropel S1 --- coastal plains --- relative sea-level rise --- 2100 --- marine submersion --- tide-gauges --- atmospheric variability --- Tyrrhenian sea --- interannual variations --- acqua alta --- well log correlation --- late Quaternary environments --- sea-level changes --- Volturno plain --- southern Italy --- geomorphological coastal changes --- sea storm effects --- integrated 3D remote sensing surveys --- sedimentary dynamics --- western Ligurian sea