Litcius/Paper detail

Lava flows of Mt Etna, Italy: the 2019 eruption within the context of the last two decades (1999–2019)

Emanuela De Beni, Massimo Cantarero, Marco Neri, A. Messina

2020Journal of Maps36 citationsDOIOpen Access PDF

Abstract

UAVs have become a useful tool for natural hazard monitoring. In volcanic areas, they allow wider observations of the eruptive behaviour, with no risk for the operator. The SfM technique enables obtaining orthoimages of lava flows and a DEM in a short time. These data are also useful to estimate lava flow volumes and the mass output rate characterizing an eruption. We present the results of ten UAV surveys made during and after the 30 May – 6 June 2019 eruption of Etna volcano, projecting the data in a time context back until 1999. Orthoimages taken on different days allowed monitoring the morpho-structural evolution of the fissures, capturing the lava flows propagation and the accumulation of pyroclastic deposits. From 1999 to 2018, there were nine flank-eruptions and dozens of summit-eruptions, which for graphic simplicity have been grouped by year in the map. The resulting map represents the most updated of the recent lava flows of Etna.

Topics & Concepts

LavaGeologyVolcanoPyroclastic rockContext (archaeology)SeismologyLateral eruptionVolcanologyLava fieldEffusive eruptionExplosive eruptionPaleontologyLandslides and related hazardsGeological and Geochemical AnalysisCryospheric studies and observations
Lava flows of Mt Etna, Italy: the 2019 eruption within the context of the last two decades (1999–2019) | Litcius