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References

  • Balmforth, N. J., R. V. Craster, and A. C. Rust (2005), Instability in flow through elastic conduits and volcanic tremor, J. Fluid Mech., 527, 353377.
  • Baptie, B., and G. Thomson (2003), Post-collapse banded tremor at the Soufriere hills volcano, Montserrat, West Indies, Geophys. Res. Abstr., 5, 13276.
  • Barker, S. R., D. R. Sherrod, M. Lisowski, C. Heliker, and J. S. Nakata (2003), Correlation between lava-pond drainback, seismicity and ground deformation at Pu'u O'o, U.S. Geol. Surv. Prof. Pap., 1676, 5362.
  • Chouet, B. (2003), Volcano seismology, Pure Appl. Geophys., 160, 739788.
  • Edmonds, M., C. M. Oppenheimer, D. M. Pyle, and M. Staff (2000), Spaceborne and ground-based remote sensing and geochemical investigation of the sulfur chlorine budgets at Soufriere Hills volcano, Montserrat, Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract V72A-18.
  • Fujii, T., K. Akagawa, and Y. Itoh (1999), Dynamic Plumb Planing for Gas-Liquid Two-Phase Flow, p. 243, Nikkann-Kogyo Shinbun (in Japanese).
  • Fujita, E., and Y. Ida (2003), Geometrical effects and low attenuation resonance of volcanic fluid inclusions for the source mechanism of volcanic tremor, J. Geophys. Res., 108(B2), 2118, doi:10.1029/2002JB001806.
  • Fujita, E., M. Ukawa, and E. Yamamoto (2004), Subsurface cyclic magma sill expansion in the 2000 Miyakejima volcano eruption: Possibility of two-phase flow oscillation, J. Geophys. Res., 109, B04205, doi:10.1029/2003JB002556.
  • Geshi, N., T. Shimano, T. Chiba, and S. Nakada (2002), Caldera collapse during the 2000 eruption of Miyakejima volcano, Japan, Bull. Volcanol., 64, 5568.
  • Iwamura, K., and S. Kaneshima (2005), Numerical simulation of the steam-water flow instability as a mechanism of long-period ground vibrations at geothermal areas, Geophys. J. Int., 163, 833851.
  • Julian, B. R. (1994), Volcanic tremor: Nonlinear excitation by fluid flow, J. Geophys. Res., 99, 11,85911,877.
  • Konstantinou, K. I., and V. Schlindwein (2003), Nature, wavefield properties and source mechanism of volcanic tremor: A review, J. Volcanol. Geotherm. Res., 119, 161187.
  • Matsushima, Y., and Y. Nishi (2001), An estimation of water and mass discharge rate from Miyake-jima summit crater (1), Abstracts 2001 Japan Earth and Planetary Science Joint Meeting, V0-P009 (in Japanese).
  • Meteorological Research Institute (2005), Heat discharge from Miyakejima (September 2000–October 2004), Rep. of Coord. Comm. for Prediction of Volcanic Eruption, 89, 6263.
  • Mori, J., A. White, D. H. Harlow, P. Ohkubo, J. A. Power, R. P. Hoblitt, E. P. Laguerta, A. Lanuza, and B. C. Bautista (1996), Volcanic earthquakes following the 1991 climatic eruption of Mount Pinatubo: Strong seismicity during a waning eruption, in Fire and Mud, edited by C. Newhall, and R. Punongbayan, pp. 339350.
  • Smithsonian National Museum of Natural History (1992), Bull. of the Global Volc. Network 17:09.
  • Trusdell, F. A., M. K. Sako, R. B. Moore, R. Y. Koyanagi, and S. Schilling (2001), Preliminary studies of seismicity, ground deformation, and geology, commonwealth of the northern Mariana Islands, Report of US Depart. Interior Geological Survey.
  • Ueda, H., E. Fujita, M. Ukawa, E. Yamamoto, M. Irwan, and F. Kimata (2005), Magma intrusion and discharge process at the initial stage of the 2000 activity of Miyakejima, central Japan, inferred from tilt and GPS data, Geophys. J. Int., 161, 116.
  • Zuber, N. (1966), An analysis of thermally induced flow oscillations in the near-critical and super-critical thermodynamic region, Marshall Space Flight Center Report, 8-11422, p. 159.