Article ID Journal Published Year Pages File Type
5783912 Journal of Volcanology and Geothermal Research 2016 19 Pages PDF
Abstract

•The 1669 Monti Rossi eruption is one of the most destructive flank eruptions of Etna in historical times.•The eruption was characterized by simultaneous explosive and effusive activity during the first three months.•We focus on the stratigraphy of the products of the explosive activity.•A total volume of tephra fallout of about 8 x 107 m3, including the Monti Rossi cone, was estimated.•The 1669 event can be considered an archetype of the most hazardous expected eruption at Etna.

Preceded by 14 days of intense seismic activity, a new eruption started on the south flank of Mt. Etna, Sicily (Italy) early in the morning of 11 March 1669 opening up a series of NS eruptive fissures.The eruption is one of the most destructive flank eruptions of Etna in historical times; it lasted until 11 July, and was characterized by simultaneous explosive and effusive activity during the first three months, while only lava flow output in the last month. The activity built up the large composite cone of the “Monti Rossi” at the lower end of the eruptive fissures, and caused severe damage to the nearby inhabited areas. The prolonged effusive activity generated lava flows for > 15 km, which destroyed several villages and the western part of the town of Catania before reaching the coastline and entering the sea.In this paper, we examine the tephro-stratigraphy of the products of the explosive activity. An in-depth analysis of historical accounts was used to define the chronology of the main eruptive phases (precursors, explosive activity and initial effusive phenomena). The geology of the cone and of the fallout deposits were defined through a field survey over a distance of 5 km from the Monti Rossi. Textural (grain-size, morphological, componentry), density and petrological analyses of tephra samples provided a sedimentological, physical and geochemical characterization of erupted products. Integrating ground and historical data enabled defining the evolution of the cone, identifying and correlating four main cone-forming units. By tracing the dispersal map of the main distal tephra beds (the finer ash being dispersed mainly to the NE as far as Calabria and to the south of Sicily and the 10-cm isopach of the total deposit covering an area up to 53 km2), we estimated a total tephra fallout volume, including the Monti Rossi cone, of about 6.6 × 107 m3 (about 3.2 × 107 m3 DRE).The 1669 event can be considered an archetype of the most hazardous expected eruption on the densely populated flanks of Etna. Reconstructing the eruptive chronology and styles of the 1669 eruption therefore, represents the basic data to assess volcanic hazard from eventual similar flank events in the future.

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Physical Sciences and Engineering Earth and Planetary Sciences Geochemistry and Petrology
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