• Koulakov, I., et al., P and S velocity structure of the crust and the upper mantle beneath central Java from local tomography inversion, J. Geophys. Res., 112B0831010.1029/2006JB004712, 2007.
  • Lavigne, F., and J. C. Thouret, Sediment transportation and deposition by rain-triggered lahars at Merapi Volcano, central Java, Indonesia, Geomorphologv., 491–2, 4569, 2003.
  • Lee, W. H. K., and J. C. Lahr, HYP071 (Revised): A computer program for determining hypocenter, magnitude, and first motion pattern of local earthquakesOpen File Rep., 75–311, 113U.S. Geol.Surv., 1975.
  • Rahardjo, W., Sukandarrumidi, and Rosidi, H. (1977), Geologic map of the Yogyakarta quadrangle, Java, 1:100,000, 1-8, Geol. Surv. of Indonesia, Minist. of Mines, Bandung..
  • , United Nations, United Nations preliminary damage and loss assessment: Yogyakarta and central Java natural disaster15th Meeting of the Consultative Group on IndonesiaWorld BankJakarta14 June., 2006.
  • Wagner, D., et al., Joint inversion of active and passive seismic data in central Java, Geophys. J. Int., 1702, 923932, 2007.
  • Walter, T. R., R. Wang, M. Zimmer, H. Grosser, B.-G. Lühr, and A. Ratdomopurbo, Volcanic activity influenced by tectonic earthquakes: Static versus dynamic stress triggering at Mount Merapi, Indonesia, Geophys. Res. Lett., 34L0530410.1029/2006GL028710, 2007.