Using InSAR and GPR Techniques to Detect Subsidence: Application to the Coastal Area of “A Xunqueira” (NW Spain)

Alonso-Díaz, Alex; Rabasco, Josué Casado; Solla, Mercedes; Lagüela, S.

doi:10.3390/rs15153729

Remote Sensing

2023

DOI: 10.3390/rs15153729

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Using InSAR and GPR Techniques to Detect Subsidence: Application to the Coastal Area of “A Xunqueira” (NW Spain)

Alex Alonso-Díaz

Josué Casado Rabasco

Mercedes Solla

et al.

Abstract: Climate change represents an important cause of subsidence, especially in coastal cities affected by changes in surface water level and water table. This paper presents a complementary study of Interferometric Synthetic Aperture Radar (InSAR) and Ground Penetrating Radar (GPR) for the early detection of subsidence and sinkhole phenomena. The methodology was applied to a coastal urban area in Galicia, northwest Spain (humid region), showing apparent signs of subsidence and building settlement during the last tw… Show more

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Cited by 4 publications

(1 citation statement)

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“…Alonso-Díaz et al [12] present a complementary study of Interferometric Synthetic Aperture Radar (InSAR) and GPR for the early detection of subsidence and sinkhole phenomena. Once again, this paper demonstrates how GPR represents a valuable tool for improving the understanding of subsurface phenomena by highlighting information, such as sinkhole and settlements, that are hardly inferable from InSAR techniques only.…”

mentioning

confidence: 99%

Editorial for the Special Issue “Review of Application Areas of GPR”

Lombardi,

Podd,

Solla

2023

Remote Sensing

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mentioning

confidence: 99%

Editorial for the Special Issue “Review of Application Areas of GPR”

Lombardi,

Podd,

Solla

2023

Remote Sensing

Self Cite

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Comparative analysis of MT-InSAR algorithms supported by GNSS data and corner reflectors: Assessing performance and accuracy

Alonso-Díaz,

Roque,

Solla

et al. 2024

Procedia Computer Science

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A Comprehensive Review on Mining Subsidence and its Geo-environmental Impact

Behera,

Rawat

2023

jmmf

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Over the course of several decades, subsidence has exerted a notable impact on the mining sector. The preponderance of subsidence occurrences is evident within coal mines. Remote sensing and Geographic Information Systems (GIS) have emerged as principal instruments for the evaluation and characterization of subsidence phenomena. The manifestation of mininginduced subsidence engenders concerns encompassing roof collapse, infrastructural damage, and the formidable challenge of preserving human lives. The repercussions of mining-related subsidence extend to indigenous flora and subterranean water reservoirs. This phenomenon critically impedes the sustainable advancement of mining zones, precipitates the depletion of natural reservoirs, and engenders a host of ecological and environmental predicaments that cast an adverse influence on socio-economic dynamics. Within mining contexts, subsidence manifests as both vertical and horizontal ground displacement, presenting as fissures, depressions, troughs, and sinkholes. The present article furnishes a comparative discourse on diverse methodologies harnessed for the assessment of mining-induced subsidence. The scholarly community has employed a repertoire of eight predominant techniques, as delineated in the conclusive remarks of this study. Over the bygone two decades, considerable strides have been taken, enabling the deployment of sophisticated paradigms, such as remote sensing and GIS, Light Detection and Ranging (LiDAR), and Differential Interferometric Synthetic Aperture Radar (DiNSAR), for the identification and quantification of land subsidence phenomena.

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Using InSAR and GPR Techniques to Detect Subsidence: Application to the Coastal Area of “A Xunqueira” (NW Spain)

Cited by 4 publications

References 60 publications

Editorial for the Special Issue “Review of Application Areas of GPR”

Editorial for the Special Issue “Review of Application Areas of GPR”

Comparative analysis of MT-InSAR algorithms supported by GNSS data and corner reflectors: Assessing performance and accuracy

A Comprehensive Review on Mining Subsidence and its Geo-environmental Impact

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