Abstract
Analysis of ground movement rates along the coastline and upper sections of the Ventnor landslide complex was carried out utilizing Persistent Scatterer Interferometric Synthetic Aperture Radar methods using Sentinel-1 SAR data from 2015 to 2019 (four years). Results were compared with rainfall data, historical ground investigation records and monitoring surveys carried out at Ventnor to relate observations to geology, geomorphology and rainfall. Decomposition of InSAR viewing geometries to vertical and horizontal aligned well with previous ground-based studies. Subsidence of −9.8 mm a−1 at the Lowtherville Graben and heave of +8.5 mm a−1 along the coastline south of Ventnor Park were observed. Decomposition to east-west geometry results showed an eastward displacement of approximately 12.4 mm a−1 along the coastline south of Ventnor Park, and a westward displacement of −3.7 mm a−1 throughout built up sections of Ventnor town, indicating the landslide was displacing more in an eastern direction than vertically. The cause of this movement was investigated by using publicly available intrusive boreholes paired with Persistent Scatterer Interferometry, and a new ground model spanning east-west parallel to the coastline was presented. No evidence of significant ground movement was observed along heavily protected sections of the coastline, suggesting coastal defences comprised of concrete aprons and rip rap appear to be an effective coastal management/landslide stabilisation tool when compared to rip rap alone. The mechanism of this increased stability is likely due to the combination of toe weighting and reduced toe erosion. A lag of approximately 13–20 days was observed between high rainfall events and subsequent peaks in ground displacement, which was shorter than a 29 day lag observed in a previous study. Similar observations of prolonged rainfall resulting in prolonged displacements were also observed. The study demonstrates the capabilities of the PSI methodology in identifying the same ground movements that conventional methods provide. By providing detailed analysis of ground deformation of the Ventnor landslide, we demonstrate small ground movements, validated with existing ground movement surveys. Similar methodology can be applied to coastal landslides in urban environments worldwide, providing a relatively cheap and rapid resource for coastal landslide monitoring.
Highlights
Coastal instabilities are an ongoing problem worldwide, occurring in various climates, topography, and geological formations
The image was created on QGIS with background imagery from Bing Maps (2020). While this gives an indication of point locations with high VLOS, it is still not directly comparable to purely vertical measurements obtained during field surveys and does not offer insight into the overall trends occurring throughout the Ventnor landslide
Methods was covered in the literature [11,12,13,14], no studies to date have focused on coastal landslides, which was the aim of this paper
Summary
Coastal instabilities are an ongoing problem worldwide, occurring in various climates, topography, and geological formations. It was estimated that approximately 28,000 km of coastline worldwide (excluding polar regions) were eroded between 1984–2015, twice that of land area gained during the same period [1]. In Europe, approximately 20,000 km of coastline was classified as being at risk of coastal erosion in 2004, which has likely increased and will continue to do so with rising sea levels and climate change [2]. On a regional scale in the United Kingdom, the southern coastline is susceptible to ongoing movement and erosion; well documented examples include Folkstone Warren due to the impact on the railway and the urban chalk coast of East Sussex [3,4,5]. The focus of this research is the town of Ventnor on the Isle of Wight, which was built on a slope which dips down to the coast and was subject to ongoing movement in recent years [6].
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