Monitoring of La Palma 2021 volcanic eruption using Interferometric and Amplitude SAR data

Pablo Ezquerro Martín; Guadalupe Brú Cruz; Ines Galindo; Oriol Monserrat; Juan Carlos López-Davalillo; Nieves Sánchez; Isabel Montoya; Riccardo Palamà; Rosa María Mateos; Raul Pérez-López; Elena González-Alonso; Raphaël Grandin; Carolina Guardiola-Albert; Juan López-Vinielles; José Antonio Fenández-Merodo; Gerardo Herrera; Marta Béjar-Pizarro

doi:https://doi.org/10.5194/egusphere-egu24-17922

[Back] [Session NH6.2]

EGU24-17922, updated on 11 Mar 2024

https://doi.org/10.5194/egusphere-egu24-17922

EGU General Assembly 2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Monitoring of La Palma 2021 volcanic eruption using Interferometric and Amplitude SAR data

Pablo Ezquerro Martín¹, Guadalupe Brú Cruz¹, Ines Galindo², Oriol Monserrat³, Juan Carlos López-Davalillo¹, Nieves Sánchez², Isabel Montoya², Riccardo Palamà³, Rosa María Mateos¹, Raul Pérez-López¹, Elena González-Alonso⁴, Raphaël Grandin⁵, Carolina Guardiola-Albert¹, Juan López-Vinielles¹, José Antonio Fenández-Merodo¹, Gerardo Herrera¹, and Marta Béjar-Pizarro¹

Pablo Ezquerro Martín et al.

¹IGME-CSIC, Geological Risk and Climate Change Department, Madrid, Spain
²IGME-CSIC, Geological Risk and Climate Change Department, Las Palmas, Spain
³Remote Sensing Department, Geomatics Research Unit, Centre Tecnologic de Telecomunicacions de Catalunya, Castelldefels, Spain
⁴Instituto Geográfico Nacional, Madrid, Spain
⁵Université de Paris, Institut de physique du globe de Paris, CNRS, Paris, France

Volcanic eruptions are a severe threat to approximately 800 million people living around 100 km from a volcano in 86 countries. For the eruptions affecting densely populated areas it is necessary to guarantee, during the emergency, the safety of the population, which requires a precise and reliable monitoring of the evolution of the volcano and the associated geological hazards.

This work shows the application of monitoring products during an emergency. Under those circumstances some requirements like the quick availability of the satellite data, the availability of experts to generate the needed products or the accessibility of the results for the decision-making authorities are of crucial importance.

During La Palma eruption in 2021, SAR data from 4 different satellites were used to generate three SAR-derived products to monitor the evolution of the morphology of the volcanic building, the extension of lava flows and ground deformation evolution in time. The availability of data from various satellites with different characteristics allows for their comparison, analyzing and identifying which is the optimal satellite and/or SAR dataset to generate each result.

This work is part of the Spanish Grant SARAI, PID2020-116540RB-C21, funded by MCIN/AEI/ 10.13039/501100011033.

How to cite: Ezquerro Martín, P., Brú Cruz, G., Galindo, I., Monserrat, O., López-Davalillo, J. C., Sánchez, N., Montoya, I., Palamà, R., Mateos, R. M., Pérez-López, R., González-Alonso, E., Grandin, R., Guardiola-Albert, C., López-Vinielles, J., Fenández-Merodo, J. A., Herrera, G., and Béjar-Pizarro, M.: Monitoring of La Palma 2021 volcanic eruption using Interferometric and Amplitude SAR data, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-17922, https://doi.org/10.5194/egusphere-egu24-17922, 2024.