RT info:eu-repo/semantics/article
T1 Understanding the retreat of the Jurassic Cantabrian coast (N. Spain): Comprehensive monitoring and 4D evolution model of the Tazones Lighthouse landslide
A1 Domínguez-Cuesta, M.J.
A1 González-Pumariega, P.
A1 Valenzuela Mendizábal, Pablo
A1 López-Fernández, C.
A1 Rodríguez-Rodríguez, L.
A1 Ballesteros, D.
A1 Mora, M.
A1 Meléndez, M.
A1 Herrera, F.
A1 Marigil, M.A.
A1 Pando, L.
A1 Cuervas-Mons, J.
A1 Jiménez-Sánchez, M.
A2 Geodinamica Externa
K1 Geodinámica
K1 Coastal cliff retreat
K1 Jurassic Cantabrian Coast
K1 Landslide monitoring
K1 Maritime storms
K1 Rainfall influence
K1 25 Ciencias de la Tierra y del Espacio
AB [EN] Forecasting coastal dynamics and sea cliff retreat under different sea level rise scenarios requires a good understandingof the conditioning factors and their relative contribution to cliff stability. The so-called JurassicCantabrian Coast extends along 76 km of the coastline of the Asturias region (N Spain) and is well-knownworldwide due to its paleontological heritage, in particular the presence of dinosaur remains and footprints.The abundance of stratigraphic, paleontological and tectonic studies contrasts with the scarcity of studies focusedon the stability of this rocky coastline where cliffs predominate, sometimes exceeding 120 m in height. In fact,evidence of current and recent instability processes can be observed along the entire coastline. In this regard,continuous monitoring is crucial to understand ongoing instabilities in rocky coastlines, as in these settings someinstabilities might initiate as slow movements that induce subtle topographic changes whose detection fromeither satellite or aerial imagery is problematic due to the spatial and temporal resolutions. This contributionpresents a 4D evolution model of a key site, the Tazones Lighthouse landslide, located on the Cantabrian Coast ofAsturias (N Spain), which affects subvertical rocky cliffs sculpted in the Jurassic bedrock made of alternatingsandstone and marl. A high resolution multiapproach methodology was developed in order to understand itsstructure and kinematic characteristics, including: i) interpretation of aerial photographs and unmanned aerialphotogrammetric surveys (UAV); ii) 22 monthly monitoring campaigns by total station; iii) 5 manual boreholes;iv) geomechanical characterization of the cliff bedrock; v) geomorphological evidence mapping; vi) analysis oflandscape deformations obtained from UAV; and vii) precipitation, soil moisture and significant wave height (Hs)data analysis. The results show that the slope evolves by means of a complex-type mass movement, whichcombines translational and sliding mechanisms, and occupies tens of thousands of square meters. DTM andfieldwork analysis indicate that mass movement is mainly controlled by bedrock discontinuities (S0, 360/15-17;J1, 262/85; J2 166/75). The most important accelerations of slope movement correlate very well with rainfall,soil moisture and waves. Thus, the largest displacements occurring in January and October–November 2019,coincide with 2 periods of storms (maximum 24-h rainfall of 64.5 mm and 82.1 mm and maximum Hs of 6.54 and9.09, respectively) and soil moisture values above 90%. Half of the markers moved more than 1 m and one ofthem exceeded 15 m. The 4D model obtained after the interpretation of the Tazones Lighthouse slope whole dataset, allows an understanding of how the surrounding cliffs have evolved in the past, fundamental to predictingtheir future behaviour.
PB Elsevier
SN 0025-3227
LK https://hdl.handle.net/10612/21484
UL https://hdl.handle.net/10612/21484
NO Domínguez-Cuesta, González-Pumariega, Valenzuela, López-Fernández, Rodríguez-Rodríguez, Ballesteros, Mora, Meléndez, Herrera, Marigil, Pando, Cuervas-Mons, & Jiménez-Sánchez. (2022). Understanding the retreat of the Jurassic Cantabrian coast (N. Spain): Comprehensive monitoring and 4D evolution model of the Tazones Lighthouse landslide. Marine Geology, 449. https://doi.org/10.1016/J.MARGEO.2022.106836
DS BULERIA. Repositorio Institucional de la Universidad de León
RD 29-jun-2024