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High magma decompression rates at the peak of a violent caldera-forming eruption (Lower Pumice 1 eruption, Santorini, Greece)

Simmons, JM, Carey, RJ ORCID: 0000-0003-2015-6419, Cas, RAF and Druitt, TH 2017 , 'High magma decompression rates at the peak of a violent caldera-forming eruption (Lower Pumice 1 eruption, Santorini, Greece)' , Bulletin of Volcanology, vol. 79 , pp. 1-12 , doi: 10.1007/s00445-017-1120-1.

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We use the deposit sequence resulting from the first catastrophic caldera collapse event recorded at Santorini (associated with 184 ka Lower Pumice 1 eruption), to study the shallow conduit dynamics at the peak of caldera collapse. The main phase of the Lower Pumice 1 eruption commenced with the development of a sustained buoyant eruption column, producing a clast-supported framework of rhyodacitic white pumice (LP1-A). The clasts have densities of 310–740 kg m−3, large coalesced vesicles that define unimodal size distributions and moderate to high vesicle number densities (1.2 × 109–1.7 × 109 cm−3). Eruption column collapse, possibly associated with incipient caldera collapse, resulted in the development of pyroclastic flows (LP1-B). The resulting ignimbrite is characterised by rhyodacitic white pumice with a narrow density range (250–620 kg m−3) and moderate to high vesicle number densities (1.3 × 109–2.1 × 109 cm−3), comparable to clasts from LP1-A. An absence of deep, basement-derived lithic clast assemblages, together with the occurrence of large vesicles and relatively high vesicle number densities in pumice from the fallout and pyroclastic flow phases, suggests shallow fragmentation depths, a prolonged period of bubble nucleation and growth, and moderate rates of decompression prior to fragmentation (7–11 MPa s−1). Evacuation of magma during the pyroclastic flow phase led to under-pressurisation of the magma reservoir, the propagation of faults (associated with the main phase of caldera collapse) and the formation of 20 m thick lithic lag breccias (LP1-C). Rhyodacitic pumices from the base of the proximal lithic lag breccias show a broader range of density (330–990 kg m−3), higher vesicle number densities (4.5 × 109–1.1 × 1010 cm−3) and higher calculated magma decompression rates of 15–28 MPa s−1 than pyroclasts from the pre-collapse eruptive phases. In addition, the abundance of lithic clasts, including deeper, basement-derived lithic assemblages, records the opening of new vents and a deepening of the fragmentation surface. These data support numerical simulations which predict rapid increases in magma decompression and mass discharge rates at the onset of caldera collapse.

Item Type: Article
Authors/Creators:Simmons, JM and Carey, RJ and Cas, RAF and Druitt, TH
Keywords: caldera eruption, volcano, Santorini, vesicle textures, caldera collapse, pumice, magma decompression
Journal or Publication Title: Bulletin of Volcanology
Publisher: Springer-Verlag
ISSN: 0258-8900
DOI / ID Number: 10.1007/s00445-017-1120-1
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Copyright 2017 Springer-Verlag Berlin Heidelberg

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