Seismic imaging and petrology explain highly explosive eruptions of Merapi Volcano, Indonesia

S. Widiyantoro; M. Ramdhan; J.-P. Métaxian; P. R. Cummins; C. Martel; S. Erdmann; A. D. Nugraha; A. Budi-Santoso; A. Laurin; A. A. Fahmi

doi:10.1038/s41598-018-31293-w

Scientific Reports (Sep 2018)

Seismic imaging and petrology explain highly explosive eruptions of Merapi Volcano, Indonesia

S. Widiyantoro,
M. Ramdhan,
J.-P. Métaxian,
P. R. Cummins,
C. Martel,
S. Erdmann,
A. D. Nugraha,
A. Budi-Santoso,
A. Laurin,
A. A. Fahmi

Affiliations

S. Widiyantoro: Global Geophysics Research Group, Faculty of Mining and Petroleum Engineering, Bandung Institute of Technology
M. Ramdhan: Study Program of Earth Sciences, Faculty of Earth Sciences and Technology, Bandung Institute of Technology
J.-P. Métaxian: ISTerre, IRD R219, CNRS, Université de Savoie Mont Blanc
P. R. Cummins: Research School of Earth Sciences, Australian National University
C. Martel: Institut des Sciences de la Terre d’Orléans (ISTO), Université d’Orléans-CNRS-BRGM
S. Erdmann: Institut des Sciences de la Terre d’Orléans (ISTO), Université d’Orléans-CNRS-BRGM
A. D. Nugraha: Global Geophysics Research Group, Faculty of Mining and Petroleum Engineering, Bandung Institute of Technology
A. Budi-Santoso: Center for Volcanology and Geological Hazard Mitigation, Geological Agency
A. Laurin: ISTerre, IRD R219, CNRS, Université de Savoie Mont Blanc
A. A. Fahmi: ISTerre, IRD R219, CNRS, Université de Savoie Mont Blanc

DOI: https://doi.org/10.1038/s41598-018-31293-w
Journal volume & issue: Vol. 8, no. 1
pp. 1 – 7

Abstract

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Abstract Our seismic tomographic images characterize, for the first time, spatial and volumetric details of the subvertical magma plumbing system of Merapi Volcano. We present P- and S-wave arrival time data, which were collected in a dense seismic network, known as DOMERAPI, installed around the volcano for 18 months. The P- and S-wave arrival time data with similar path coverage reveal a high Vp/Vs structure extending from a depth of ≥20 km below mean sea level (MSL) up to the summit of the volcano. Combined with results of petrological studies, our seismic tomography data allow us to propose: (1) the existence of a shallow zone of intense fluid percolation, directly below the summit of the volcano; (2) a main, pre-eruptive magma reservoir at ≥ 10 to 20 km below MSL that is orders of magnitude larger than erupted magma volumes; (3) a deep magma reservoir at MOHO depth which supplies the main reservoir; and (4) an extensive, subvertical fluid-magma-transfer zone from the mantle to the surface. Such high-resolution spatial constraints on the volcano plumbing system as shown are an important advance in our ability to forecast and to mitigate the hazard potential of Merapi’s future eruptions.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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