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

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.

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