Page 437 - Caldera Volcanism Analysis, Modelling and Response
P. 437
412 Micol Todesco
Cole, J.W., Milner, D.M., Spinks, K.D., 2005. Caldera and caldera structures: a review. Earth Sci.
Rev., 69, 1–26.
Corey, A.T., Rathjens, C.H., Henderson, J.H., Wyllie, M.R., 1956. Three-phase relative
permeability. Trans. AIME, 207, 349–351.
Crampin, S., Booth, D.C., 1989. Shear-wave splitting showing hydraulic dilatation of pre-existing
joints in granite. Sci. Drill., 1, 21–26.
Crampin, S., Chastin, S., 2003. A review of shear wave splitting the crack-critical crust.
Geophys. J. Int., 155, 221–240.
Darnet, M., Maineult, A., Marquis, G., 2004. On the origin of self-potential (SP) anomalies induced
by water injections into geothermal reservoirs. Geophys. Res. Lett., 31, L19609, doi: 10.1029/
2004GL020922.
De Angelis, S., McNutt, S.R., 2005. Degassing and hydrothermal activity at Mt. Spurr, Alaska, during
the summer 2004 inferred from complex frequencies of long-period events. Geophys. Res.
Lett., 32, L12312, doi: 10.1029/2005GL022618.
Delaney, P.T., 1982. Rapid intrusion of magma into wet rock: groundwater yand stress evolution in
cooling pluton environments. Am. J. Sci., 281, 35–68.
Delmelle, P., Stix, J., 2000. Volcanic gases. In: Sigurdsson, H., Houghton, B., McNutt, S.R., Rymer,
H.Stix, J. (Eds), Encyclopedia of Volcanoes. Academic Press, San Diego, pp. 803–815.
de Marsily, G., 1986. Quantitative Hydrogeology: Groundwater Hydrology for Engineers. Academic
Press Inc., San Diego, 440 pp.
De Natale, G., Pingue, F., Allard, P., Zollo, A., 1991. Geophysical and geochemical modelling of
the 1982–1984 unrest phenomena at Campi Flegrei caldera (southern Italy). J. Volcanol.
Geotherm. Res., 48, 199–222.
De Natale, G., Troise, C., Pingue, F., 2001. A mechanical fluid-dynamical model for ground
movements at Campi Flegrei caldera. J. Geodyn., 32, 487–571.
Dullien, F.A.L., 1992. Porous Media. Fluid Transport and Pore Structure. Academic Press, San Diego,
574 pp.
Elder, J.W., 1967a. Steady free convection in a porous medium heated from below. J. Fluid Mech., 27,
29–48.
Elder, J.W., 1967b. Transient convection in a porous medium. J. Fluid Mech., 27, 609–623.
Elder, J.W., 1981. Geothermal Systems. Academic Press, New York, 508 pp.
Evans, D.D., Rasmussen, T.C., Nicholson, T.J., 2001. Flow and transport through unsaturated
fractured rock: an overview. In: Evans, D.D., Rasmussen, T.C., Nicholson, T.J. (Eds), Flow
and Transport Through Unsaturated Fractured Rock. Geophys. Monograph 42, AGU,
Washington DC, pp. 1–18.
Ferry, J.M., Wing, B.A., Penniston-Dorland, S.C., Rumble, D., III, 2002. The direction of fluid
flow during contact metamorphism of siliceous carbonate rocks: new data for the Monzoni
and Predazzo aureoles, northern Italy, and a global review. Contrib. Mineral. Petrol., 142,
679–699.
Foulger, G.R., Julian, B.R., Hill, D.P., Pitt, A.M., Malin, P., Shalev, E., 2004. Non-double-couple
microearthquakes at Long Valley Caldera provide evidence for hydraulic fracturing. J. Volcanol.
Geotherm. Res., 132, 45–71.
Fournier, R.O., 1987. Conceptual model of brine evolution in magmatic hydrothermal systems. In:
Decker, R.W., Wright, T.L.Stauffer, P.H. (Eds), Volcanism in Hawaii. USGS, Professional
Paper 1350, pp. 1487–1506.
Gaeta, F.S., De Natale, G., Peluso, F., Mastrolorenzo, G., Castagnolo, D., Troise, C., Pingue, F., Mita,
D.G., Rossano, S., 1998. Genesis and evolution of unrest episodes at Campi Flegrei caldera: the
role of thermal–fluid–dynamical processes in the geothermal system. J. Geophys. Res.,
103(B9), 20921–20933.
Gaeta, F.S., Peluso, F., Arienzo, I., Castagnolo, D., De Natale, G., Milano, G., Albanese, C., Mita, D.,
2003. A physical appraisal of a new aspect of bradyseism: the miniuplifts. J. Geophys. Res.,
108(B8), 2363, doi: 10.1029/2002JB001913.
Giggenbach, W.F., 1996. Chemical composition of volcanic gases. In: Scarpa, R. and Tilling, R.I.
(Eds), Monitoring and Mitigation of Volcanic Hazards. Springer Verlag, Berlin, pp. 202–226.

