Present-Day Surface Deformation in North-East Italy Using InSAR and GNSS Data

Areggi, Giulia; Pezzo, Giuseppe; Boncori, John Peter Merryman; Anderlini, Letizia; Rossi, G.; Serpelloni, Enrico; Zuliani, David; Bonini, Lorenzo

doi:10.3390/rs15061704

Cited by 6 publications

References 117 publications

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Non-linear ground deformation detection and monitoring using time series InSAR along the coastal urban areas of Pakistan

Hussain,

Pan,

Afzal

et al. 2024

Environ Sci Pollut Res

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Conventional geodetic methods rely on point measurements, which have drawbacks for detecting and tracking geologic disasters at speci c locations. In this study, the time-series InSAR approach was incorporated to estimate non-linear surface deformation caused by tectonic, shoreline reclamation, and other anthropogenic activities in economically important urban regions of Pakistan's southern coast, which possesses around 270 km. The shoreline is extended from the low-populated area on the premises of the Hub River in the west to the highly populated Karachi city and Eastern Industrial Zone, where we collected the Sentinel-1A C-band data from 2017 to 2023 to address urban security and threats to human life and property. The main advantage of opting for the non-linear persistent scatterer interferometric SAR (PSInSAR) approach for this study is that it exposes minute movements without any prior consideration of conventional monitoring techniques, making it valid in continuously varying regions. A vertical displacement range of −170 mm to +80 mm per year was found, which was used to investigate the potential correlation with the most effective causative parameters of deformation. The densely populated areas of the study area experience an annual subsidence of 170 mm, and the less populated western region experiences an uplift of 82 mm annually. Land deformation varies along the coast of the study area, where the eastern region is highly reclaimed and is affected by erosion.Groundwater table-depleting regions experienced high levels of land subsidence, and tectonic activities controlled vertical displacement in the region. Major variation was detected after an earthquake occurred along fault lines. This study was designed because a non-linear approach is required to address ground movement activities acutely, and it will make it possible to plan surface infrastructure and handle issues brought on by subsidence more effectively.

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Non-linear ground deformation detection and monitoring using time series InSAR along the coastal urban areas of Pakistan

Hussain,

Pan,

Afzal

et al. 2024

Environ Sci Pollut Res

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Structural inheritances, fault segmentation and seismogenic potential at the front of the eastern Southern Alps (central Carnic Prealps, NE Italy)

Poli,

Patricelli,

Monegato

et al. 2024

Tectonophysics

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An overview of the spatiotemporal patterns of land displacements in Western Greece

Fasoulis,

Orfanoudakis,

Hadjidoukas

et al. 2024

Earth Resources and Environmental Remote Sensing/Gis Applications XV

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Understanding and monitoring geohazards, including not only abrupt phenomena but also gradual land displacements, is of key scientific importance with socioeconomic implications. Satellite remote sensing techniques, such as Interferometric Synthetic Aperture Radar (InSAR), allow for detailed estimation of land displacements. Here, we focused on the area of Western Greece, characterized by numerous faults and high seismicity, and we quantified the spatiotemporal patterns of land displacements across the study domain from 2018 to 2022. We used the Persistent Scatterer Interferometric Synthetic Aperture Radar (PSInSAR) technique to process Sentinel-1 InSAR data following the Stanford Method for Persistent Scatterer (StaMPS) workflow. Vertical and horizontal land displacements across the study area were estimated and compared with estimates from the European Ground Motion Service (EGMS). The magnitude of these displacements was further scrutinized at the annual and sub-annual time scale by examining the EGMS-derived time series of vertical and horizontal land motion at selected areas with critical infrastructures. The increasing availability of InSAR data, in tandem with advancements and ease in data handling and processing, facilitate the deployment of such remote sensing techniques, and, when combined with observations from ground networks, could assist towards comprehensive monitoring of land processes and infrastructures.

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Present-Day Surface Deformation in North-East Italy Using InSAR and GNSS Data

Cited by 6 publications

References 117 publications

Non-linear ground deformation detection and monitoring using time series InSAR along the coastal urban areas of Pakistan

Non-linear ground deformation detection and monitoring using time series InSAR along the coastal urban areas of Pakistan

Structural inheritances, fault segmentation and seismogenic potential at the front of the eastern Southern Alps (central Carnic Prealps, NE Italy)

An overview of the spatiotemporal patterns of land displacements in Western Greece

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