xxii                                                               Preface


             In closing, we express our gratitude to a number of people who helped in
          making this volume:
          Tirza van Daalen and Pauline Riebeek at Elsevier for accepting our proposal,
          walking us through the publication process and their impeccable support
          throughout the realisation of this project;
          Janine Kavanagh (Bristol) for her editorial help and correction of English spelling
          and grammar in many manuscripts;
          the staff of the Parador de Las Can ˜adas for their impeccable support in helping
          organising the 2005 Calderas Workshop in Tenerife;
          all authors for contributing to this volume;
          the numerous referees who provided constructive criticism for the submitted
          manuscripts
          and our families for their love and support.
             We believe the creation of this volume was well-worth the effort and we hope
          it stimulates further fruitful discussion and fosters additional lateral thinking.
          We would of course be pleased to witness an update of this community effort in a
          few years’ time.
             Joachim Gottsmann
             Joan Martı ´
             Bristol, United Kingdom and Barcelona, Spain
             January 2008


          REFERENCES

          Acocella, V., Funiciello, R., Marotta, E., Orsi, G., de Vita, S., 2004. The role of extensional
               structures on experimental calderas and resurgence. J. Volcanol. Geotherm. Res., 129(1–3),
               199–217.
          Acocella, V., Korme, T., Salvini, F., Funiciello, R., 2002. Elliptic calderas in the Ethiopian rift: control
               of pre-existing structures. J. Volcanol. Geotherm. Res., 119, 189–203.
          Aprea, C., Hildebrand, S., Fehler, M., Steck, L., Baldridge, W., Roberts, P., Thurber, C., Lutter, W.,
               2002. Three-dimensional Kirchhoff migration: imaging of the Jemez volcanic field using
               teleseismic data. J. Geophys. Res., 107(B10), doi: 10.1029/2000JB000097.
          Battaglia, M., Troise, C., Obrizzo, F., Pingue, F., De Natale, G., 2006. Evidence for fluid migration as
               the source of deformation at Campi Flegrei caldera (Italy). Geophys. Res. Lett., 33(L01307),
               doi: 10.1029/2005GL024904.
          Bonafede, M., Mazzanti, M., 1998. Modelling gravity variations consistent with ground deformation
               in the Campi Flegrei caldera (Italy). J. Volcanol. Geotherm. Res., 81(1–2), 137–157.
          Bower, S.M., Woods, A.W., 1997. Control of magma volatile content and chamber depth on the mass
               erupted during explosive volcanic eruptions. J. Geophys. Res., 102, 10273–10290.
          Burbank, W.S., 1933. Vein system of the Arrastre Basin and regional structure in the Silverton and
               Telluride quadrangles, Colorado. Colorado Sci. Soc. Proc., 13, 135–214.
          Clough, B.J., Maufe, H.B., Bailey, E.B., 1909. The cauldron-subsidence of Glen Coe, and the
               associated igneous phenomena. Quart. J. Geol. Soc. Lond., 65, 611–678.
          Diller, J.S., Patton, H.B., 1902. Geology and petrology of Crater Lake National Park. US Geological
               Survey Professional Paper, 3: 167 pp.
          Druitt, T.H., Sparks, R.S.J., 1984. On the formation of calderas during ignimbrite eruptions. Nature,
               310, 679–681.