Page 397 - Caldera Volcanism Analysis, Modelling and Response
P. 397
372 Thomas R. Walter
Beauducel, F., De Natale, G., Obrizzo, F., Pingue, F., 2004. 3-D modelling of Campi Flegrei
ground deformations: role of caldera boundary discontinuities. Pure Appl. Geophys., 161(7),
1329–1344.
Becker, A.A., 1992. The Boundary Element Method in Engineering. McGraw-Hill, New York, NY.
Billings, M.P., 1943. Ring-dikes and their origin. Trans N. Y. Acad. Sci., Series II, 5, 131–144.
Bonin, B., 1986. Ring Complex Granites and Anorogenic Magmatism. North Oxford Academic
Publishers Ltd., London.
Bosworth, W., Burke, K., Strecker, M., 2003. Effect of stress fields on magma chamber stability and
the formation of collapse calderas. Tectonics, 22(4), 16-1–16-21.
Burov, E.B., Guillou Frottier, L., 1999. Thermomechanical behavior of large ash flow calderas.
J. Geophys. Res., 104(10), 23081–23109.
Chadwick, W.W., Jr., Dieterich, J.H., 1995. Mechanical modeling of circumferential and radial dike
intrusion on Galapagos volcanoes. J. Volcanol. Geotherm. Res., 66(1–4), 37–52.
Chadwick, W.W., Jr., Howard, K.A., 1991. The pattern of circumferential and radial eruptive fissures
on the volcanoes of Fernandina and Isabela islands, Galapagos. Bull. Volcanol., 53(4), 259–275.
Clough, C.T., Maufe, H.B., Bailey, E.B., 1909. The cauldron-subsidence of Glen Coe, and the
associated igneous phenomena. Q. J. Soc. Lond., 65, 611–678.
Cole, J.W., Milner, D.M., Spinks, K.D., 2005. Calderas and caldera structures: a review. Earth Sci.
Rev., 69(1–2), 1–26.
Comninou, M., Dundurs, J., 1975. The angular dislocations in a half space. J. Elast., 5(3–4), 203–216.
Crouch, S.L., Starfield, A.M., 1983. Boundary Element Methods in Solid Mechanics. George Allen
and Unwin, London.
De Natale, G., Troise, C., Pingue, F., Mastrolorenzo, G., Pappalardo, L., Battaglia, M., Boschi, E.,
2006. The Campi Flegrei Caldera: unrest mechanisms and hazards. In: Troise, C., De Natale,
G., Kilburn, C. (Eds), Mechanisms of Activity and Unrest at Large Calderas. Geological
Society, London Special Publications, Vol. 269, pp. 25–45.
Druitt, T.H., Sparks, R.S.J., 1984. On the formation of calderas during ignimbrite eruptions. Nature,
310(5979), 679–681.
Duffield, W., 1968. The petrology and structure of the El Pinal tonalite, Baja California, Mexico.
Geol. Soc. Am. Bull., 79, 1351–1374.
Dzurisin, D., 2007. Volcano Deformation. Springer, Chichester.
Gargani, J., Geoffrey, L., Gac, S., Cravoisier, S., 2006. Fault slip and Coulomb stress variations around
a pressured magma reservoir: consequences on seismicity and magma intrusion. Terra Nova,
18, 403–411.
Geyer, A., Folch, A., Marti, J., 2006. Relationship between caldera collapse and magma chamber
withdrawal: an experimental approach. J. Volcanol. Geotherm. Res., 157(4), 375–386.
Gudmundsson, A., 1988. Formation of collapse calderas. Geology, 16(9), 808–810.
Gudmundsson, A., 1998. Formation and development of normal-fault calderas and the initiation of
large explosive eruptions. Bull. Volcanol., 60(3), 160–170.
Gudmundsson, A., 1999. Explosive eruptions triggered by dip-slip on caldera faults. Volcanol.
Seismol., 20(2), 239–254.
Gudmundsson, A., 2006. How local stresses control magma-chamber ruptures, dyke injections, and
eruptions in composite volcanoes. Earth-Sci. Rev., 79(1–2), doi: 10. 1016/j.earscirev.2006.06.006.
GVP, 2005. Global Volcanism Program. Smithsonian Institution, http://www.volcano.si.edu/
Holohan, E.P., Troll, V.R., van Wyk de Vries, B., Walsh, J.J., Walter, T.R., in press. Unzipping Long
Valley: an explanation for vent migration patterns during an elliptical ring-fracture eruption.
Geology G24329AR.
Holohan, E.P., Troll, V.R., Walter, T.R., Muenn, S., McDonnell, S., Shipton, Z.K., 2005. Elliptical
calderas in active tectonic settings: an experimental approach. J. Volcanol. Geotherm. Res.,
144(1–4), 119–136.
Johnson, S.E., Schmidt, K.L., Tate, M.C., 2002. Ring complexes in the Peninsular Ranges Batholith,
Mexico and the USA: magma plumbing systems in the middle and upper crust. Lithos,
61(3–4), 187–208.