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348                                                       Agust Gudmundsson


          Lipman, P.W., 1984. The roots of ash flow calderas in western North America: windows into the tops
               of granitic batholiths. J. Geophys. Res., 89, 8801–8841.
          Lipman, P.W., 1997. Subsidence of ash-flow calderas: relation to caldera size and magma chamber
               geometry. Bull. Volcanol., 59, 198–218.
          Lipman, P.W., 2000. Calderas. In: Sigurdsson, H. (Ed.), Encyclopedia of Volcanoes. Academic Press,
               San Francisco, CA, pp. 643–662.
          Lodders, K., Fegley, B., 1998. The Planetary Scientist’s Companion. Cambridge University Press,
               Cambridge.
          Logan, D.L., 2002. A First Course in the Finite Element Method. Brooks/Cole, Pacific Grove, CA.
          Lopes, R.M.C. and Gregg, T.K.P. (Eds), Volcanic Worlds: Exploring the Solar System’s Volcanoes.
               Springer-Verlag, Berlin.
          Love, A.E.H., 1927. A Treatise on the Mathematical Theory of Elasticity. Dover, New York, NY.
          Macdonald, G.A., 1972. Volcanoes. Prentice-Hall, Englefield Cliffs, NJ.
          Marti, J., Ablay, G.J., Reshaw, L.T., Sparks, R.S.J., 1994. Experimental studies of collapse calderas.
               J. Geol. Soc. Lond., 151, 919–929.
          McEwen, A.S., et al., 2000. Galileo at Io: results from high-resolution imaging. Science, 288,
               1193–1198.
          Miller, R., Hartmann, W.K., 2005. The Grand Tour: A Traveller’s Guide to the Solar System.
               Workman Publishing, New York, NY.
          Milne-Thompson, L.M., 1996. Theoretical Hydrodynamics, 5th edn. Dover, New York, NY.
          Mouginis-Mark, P.J., Rowland, S.K., 2001. The geomorphology of planetary calderas. Geomorphology,
               37, 201–223.
          Munro, D.C., Rowland, S.K., 1996. Caldera morphology in the western Galapagos and implications
               for volcano eruptive behaviour and mechanisms of caldera formation. J. Volcanol. Geotherm.
               Res., 72, 85–100.
          Myrvang, A., 2001. Rock Mechanics. Norway University of Technology (NTNU), Trondheim, in
               Norwegian.
          Newhall, C.G., Dzurisin, D., 1988. Historical Unrest of Large Calderas of the World. US Geological
               Survey Bulletin, Vol. 1855, Reston, VA.
          Newman, A.V., Dixon, T.H., Ofoegbu, G.I., Dixon, J.E., 2001. Geodetic and seismic constraints on
               recent activity at Long Valley caldera, California: evidence for viscoelastic rheology. J. Volcanol.
               Geotherm. Res., 105, 183–206.
          Nilsen, B., Palmstro ¨m, A., 2000. Engineering Geology and Rock Engineering. Norwegian Soil and
               Rock Engineering Association, Oslo.
          Nye, J.F., 1957. Physical Properties of Crystals. Oxford University Press, Oxford.
          Oftedahl, C, 1953. The igneous rock complex of the Oslo region: XIII. The cauldrons, Skrifter Det
               Norske Videnskaps-Akademi i Oslo, 3, 1–108.
          Okubo, C.H., Martel, S.J., 2001. Pit crater formation on Kilauea volcano, Hawaii. J. Volcanol.
               Geotherm. Res., 86, 1–18.
          Pace, K.R., Krassilnikov, A.S., 2003. Calderas on Venus: tectonics, volcanism and relationship with
               regional plains. Lunar Planet. Sci., 34, 1309.
          Priest, S.D., 1993. Discontinuity Analysis for Rock Engineering. Chapman and Hall, London.
          Radebaugh, J., et al., 2000. Characteristics of calderas on Io: surface morphology, sizes, and distribution.
               Lunar Planet. Sci., 31, 1983.
          Radebaugh, J., Keszthelyi, L.P., McEwen, A.S., Turtle, E.P., Jaeger, W., Milazzo, M., 2001. Paterae on
               Io: a new type of volcanic caldera? J. Geophys. Res., 106, 33005–33020.
          Roche, O., Druitt, T.H., Merle, O., 2000. Experimental study of caldera formation. J. Geophys. Res.,
               105, 395–416.
          Sadd, M.H., 2005. Elasticity: Theory, Applications, and Numerics. Elsevier, Amsterdam.
          Saunders, S.J., 2001. The shallow plumbing system of Rabaul caldera: a partially intruded ring fault?
               Bull. Volcanol., 63, 406–420.
          Saunders, S.J., 2004. The possible contribution of circumferential fault intrusion to caldera resurgence.
               Bull. Volcanol., 67, 57–71.
          Savin, G.N., 1961. Stress Concentration Around Holes. Pergamon, New York, NY.
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