• Aspinall, W. P., A. D. Miller, L. L. Lynch, J. L. Latchman, R. C. Stewart, R. A. White, and J. A. Power (1998), Soufrière Hills Eruption, Montserrat, 1995–1997: Volcanic earthquake locations and fault plane solutions, Geophys. Res. Lett., 25(18), 33973400.
  • Browne, P. R. L. (1970), Hydrothermal alteration as an aid in investigating geothermal fields, Geothermics, 2(1), 564570.
  • Chiodini, G., R. Cioni, A. Frullani, M. Guidi, L. Marini, F. Prati, and B. Raco (1996), Fluid geochemistry of Montserrat Island, West Indies, Bull. Volcanol., 58(5), 380392.
  • Environmental and Geothermal Services (EGS) (2010), Final Report Geothermal Exploration in Montserrat, Caribbean, Rep., 189 pp, EGS Inc., Santa Rosa, California.
  • Faulds, J. E., N. H. Hinz, M. F. Coolbaugh, P. H. Cashman, C. Kratt, G. Dering, J. Edwards, B. Mayhew, and H. McLachlan (2011), Assessment of favorable structural settings of geothermal systems in the Great Basin, Western USA, GRC Trans., 35, 777783.
  • Geotermica Italiana (1991), Exploration for Geothermal Resources in the Eastern Caribbean, Rep. TCDCON15/90-RLA/87/037, United Nations Dept. of Technical Cooperation for Development, Pisa, Italy.
  • Han, D.-h., A. Nur, and D. Morgan (1986), Effects of porosity and clay content on wave velocities in sandstones, Geophysics, 51(11), 20932107.
  • Hautmann, S., A. G. Camacho, J. Gottsmann, H. M. Odbert, and R. Syers (2012), Imaging subsurface density distribution beneath Montserrat (West Indies) from Bouger gravity data, poster presented at AGU fall meeting, San Francisco.
  • Johnston, J. E., and N. I. Christensen (1997), Seismic properties of layer 2 basalts, Geophys. J. Intl., 128(2), 285300.
  • Keith Consulting (1968), Logs of Test Holes, Rep. 119 pp., Keith Consulting Engineers Ltd., Canada.
  • Kokelaar, B. P. (2002), Setting, chronology and consequences of the eruption of Soufrière Hills Volcano, Montserrat (1995–1999), in The Eruption of the Soufrière Hills Volcano, Montserrat, From 1995 to 1999, edited by T. H. Druitt, and B. P. Kokelaar, pp. 143, Geological Society, London.
  • Kristinsdóttir, L. H., O. G. Flóvenz, K. Árnason, D. Bruhn, H. Milsch, E. Spangenberg, and J. Kulenkampff (2010), Electrical conductivity and P-wave velocity in rock samples from high-temperature Icelandic geothermal fields, Geothermics, 39(1), 94105.
  • Mitchell, T. M., and D. R. Faulkner (2012), Towards quantifying the matrix permeability of fault damage zones in low porosity rocks, Earth Planet. Sci. Lett., 339–340(0), 2431.
  • Poux, B., and P. Brophy (2012), Geothermal exploration on the Island of Montserrat Caribbean, GRC Trans., 36, 737744.
  • Principe, C. (2008), Geothermal potential in Montserrat: Scoping survey report, Rep., CNR, Pisa, Italy.
  • Ryan, G. A., S. A. Onacha, E. Shalev, and P. E. Malin (2009), Imaging the Montserrat geothermal prospect using Magnetotelluric (MT) and Time Domain Electromagnetic induction (TDEM) measurements, Rep. 16366.00-2009.01, 77 pp., Institute of Earth Science and Engineering, Auckland, New Zealand.
  • Shalev, E., et al. (2010), Three-dimensional seismic velocity tomography of Montserrat from the SEA-CALIPSO offshore/onshore experiment, Geophys. Res. Lett., 37, L00E17 doi:10.1029/2010GL042498.
  • Wadge, G., and M. C. Isaacs (1988), Mapping the volcanic hazards from Soufriere Hills Volcano, Montserrat, West Indies using an image processor, J. Geol. Soc. (London), 145(4), 541552.
  • Younger, P. (2006), Preliminary Assessment of the Technical Feasibility and Likely Costs of the Development of Geothermal Power Generation on the Island of Montserrat, East Caribbean, Rep., 37 pp., Institute for Research on Environment and Sustainability, University of Newcastle Upon Tyne, UK.
  • Zoback, M. D. (2007), Reservoir geomechanics, Cambridge Univ. Press, Cambridge, pp. 449.