Near-field modifications of stress induced by dyke injection at shallow depth

Bonafede, Maurizio; Danesi, Stefania

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Please use this identifier to cite or link to this item: http://hdl.handle.net/2122/13104

DC Field	Value	Language
dc.date.accessioned	2020-02-07T09:35:11Z	en
dc.date.available	2020-02-07T09:35:11Z	en
dc.date.issued	1997-04	en
dc.identifier.uri	http://hdl.handle.net/2122/13104	en
dc.description.abstract	The deformation and stress fields accompanying dyke injection in rift zones are described in terms of a vertical crack opening in response to internal overpressure, in plane-strain configuration. Previous numerical computations of the displacement field induced by shallow dykes are found to be affected, in some cases, by significant dis- tortion, mainly due to the limited extension of the computational domain, difficultiesin handling the singularities in the proximity of the free surface and an incorrect choice of the reference frame; in particular, it is found that no subsidence can be ascribed to the mere opening of a tensile crack in a homogeneous, elastic half-space. If analytical constant-dislocation models are employed, surface displacements compare reasonably well with crack-model solutions if the upper tip is not too shallow; however, constant dislocation solutions present unphysical singularities along the tips, which distort significantly the near-field stress pattern with respect to crack solutions. If the principal stress axes are computed from crack models, a broad region is found on both sides of the dyke where the induced stress has a nearly vertical intermediate axis while the com- pressive axis is normal to the dyke plane. Strike-slip earthquakes are expected to prevail in this region. Above the upper crack tip, a small region is present where the tensile stress is dominant and the intermediate stress is still vertical. In the proximity of the free surface, typically within a few tens of metres of it, induced tensile stresses are greater than the lithostatic pressure: open fissures might then develop in cohesionless soil or pre-faulted rock. The induced pressure in the host rock is found to be negative (suction) in the proximity of the ground surface and positive at greater depth: fluid flow within the aquifers can be significantly altered by this induced overpressure and by the anisotropic modification of the pre-existing permeability. According to the modified Coulomb failure criterion, in the short term the shallower region, characterized by suction, is strengthened, while the deeper, pressurized region is weakened. These results can explain in a straightforward way the abundance of strike-slip focal mechanisms in vol- canic areas, the switch between tensional and compressional axes inferred from focal mechanisms of earthquakes in connection with a dyke injection episode on Mount Etna, en echelon fracture systems observed at Piton de la Fournaise above the feeding dyke and precursory geochemical anomalies.	en
dc.language.iso	English	en
dc.relation.ispartof	Geophysical Journal International	en
dc.relation.ispartofseries	/130 (1997)	en
dc.subject	deformation	en
dc.subject	dyke injection	en
dc.subject	volcanic activity	en
dc.subject	stress	en
dc.title	Near-field modifications of stress induced by dyke injection at shallow depth	en
dc.type	article	en
dc.description.status	Published	en
dc.type.QualityControl	Peer-reviewed	en
dc.description.pagenumber	435-448	en
dc.subject.INGV	04.08. Volcanology	en
dc.subject.INGV	05.05. Mathematical geophysics	en
dc.identifier.doi	10.1111/j.1365-246X.1997.tb05659.x	en
dc.relation.references	Abramovitz, M. & Stegun, LA., 1964. Handbook of Mathematical Functions, Dover, Washington, DC. Bianchi, R., Coradini, A,, Federico, C., Giberti, G., Luciano, P., Pozzi, J.P., Sartoris, G. & Scandone, R., 1987. Modelling of surface ground deformation in volcanic areas: the 1970-72 and 1982-84 crises of Campi Flegrei, Italy, J. geophys. Res., 92, 14 139-14 150. Bilby, B.A. & Eshelby, J.D., 1968. Dislocations and the theory of fracture, in Fracture-an Advanced Treatise, vol. I, pp. 99-182, ed. Liebowitz, H., Academic Press, New York, NY. Bonaccorso, A. & Davies, P.M., 1993. Dislocation modelling of the 1989dyke intrusion into the flank of Mount Etna, Sicily,J. geophys. Rex. 98,4261-4268. Bonafede, M. & Olivieri, M., 1995. Displacement and gravity anomaly produced by a shallow vertical dyke in a cohesionless medium, Geophys. J. h i . >123,639-652. Bonafede, M., Dragoni, M. & Boschi, E., 1985. Quasi-static crack models and the frictional stress threshold criterion for slip arrest, Geophys. J. R. astr. Soc.. 83,615-637. Cayol, V., 1996. Analyse elastostatique tridimensionelle du champ de dkformations des edifices volcaniques par klements frontitres mixtes, Th&e de doctorat, I'Universite de Paris VII, Sptcialite de Geophysique Interne. Cocina, O., Neri, G., Privitera, E. & Spampinato, S., 1996a. Earthquake and stress tensor space-time distribution at Mount Etna before the 1991-1993 volcanic eruption, Acta Vulcanol.,8, 15-22. Cocina, O., Neri, G., Privitera, E. & Spampinato, S., 1996b. Stress tensor computations in the Mount Etna area (southern Italy) and tectonic implications. J. Geodyn., 23, 109-127. Crouch, S.L. & Starfield, A.M., 1990. Boundary Element Methods in Solid Mechanics, Unwin Hyman Inc., London. Delaney, P.T. & Pollard, D.D., 1981. Deformation of host rocks and flow of magma during growth of minette dikes and breccia- bearing intrusions near Ship Rock, New Mexico, USGSProf:Paper, 1202. Dieterich, J.H. & Decker, R.H., 1975. Finite element modeling of surface deformation associated with volcanism, J. geophys. Res., 80, 4094. Duffield, W.A., Jackson, D.B. & Swanson, D.A., 1976. The shallow forceful intrusion of magma and related ground deformation at Kilauea volcano, May 15-6, 1970,in Proc. IA F%EI Sjwp. Andean and Antarctic VolcanologyProblems, pp. 577-597, Giannini e Figli,Naples. Duffield,W.A., Christiansen, R.L., Koyanagi, R.Y. & Peterson, D.W., 1982. Storage, migration and eruption of magma at Kilauea volcano, Hawaii, 1971-72, J. Vole. Geotherm. Res., 13, 273-307. Ferrucci, F. & Patane, D., 1993. Seismic activity accompanying the outbreak of the 1991-93 eruption of Mt. Etna, J. Vole. Geotherm. Rex, 57, 125-135. Fung, Y.C., 1965. Fozindutions of Solid Mechanics, Prentice Hall, Englewood Cliffs, NJ. Kanamori, H. & Anderson, D.L., 1975. Theoretical basis for some empirical relations in seismology, Bull. seism. Soc. Am., 65, 1073-96. Kanngieser, E., 1983.Vertical component of ground deformation in north Iceland, Ann. Geophys., 1,321-328. Kiimpel, H.J., 1991. Poroelasticity: parameters reviewed, Geophys. J. In?.,105, 783-799. Landau, L.D. & Lifschitz, E., 1967.Thkorie de I'Plasticitk, Editions Mir, Moscow. E n a t , J.F., Batchelery, P., Bonneville, A,, Tarits, P., Chemink, J.L. & Delorme, H., 1989a. The December 4, 1983 to February 18, 1984 eruption of Piton de la Fournaise (la Reunion, Indian Ocean):descriptionandinterpretation,J Volc.Geotherm.Res.,36,87- 112. Lknat, J.F., BatchZlery, P., Bonneville, A. & Him, A,, 1989b. The beginning of the 1985-87 eruptive cycle at Piton de la Fournaise (La Reunion); new insights in the magmatic and volcano-tectonic systems, J. Iblc. Grotherm. Res., 36, 209-232. Murray, J.B., 1990.High level magma transport at Mt. Etna volcano as deduced from ground deformation measurements, in Magma Transport and Slorage, pp. 357-383, ed Ryan, M.P., John Wiley & Sons, Chichester. J Murray, J.B., 1994. EIastic model of the actively intruded dyke feed- ing the 1991-93 eruption of Mt. Etna derived from ground defor- mation measurements, Acta Vulcanol.,4,97799. Muskhelishvili, N. I., 1953. Singular Integral Equation, P. Noordhoff, Groningen, the Netherlands. Okada, Y . ,1992.Internal deformation due to shear and tensile faults in a half-space, Bull. seism. Soc. Am., 82, 1018-1040. Pollard, D.D. & Holzhausen, G., 1979. On the mechanical interaction between a fluid-filled fracture and the earth’s surface, Tectonophysics,53, 27-57. Pollard, D.D. & Muller, O.H., 1976. The effect of gradients in regional stress and magma pressure on the form of sheet intrusions in cross section, J. geophys. Res., 81,975-984. Pollard, D.D., Delaney, P.T., Duffield, W.A., Endo, E.T. & Okamura, A.T., 1983. Surface deformation in volcanic rift zones, Tectonophysics, 94, 541-584. Rice, J.R. & Clearly, M.P., 1976. Some basic stress-diffusion solutions for fluid-saturated elastic porous media with compressible constituents, Rev. Geophvs. Space Phys., 14,227-241. Rymer, H., Murray, J.B., Brown, G.C., Ferrucci, F. & McGuire, W.J., 1993.Mechanism of magma eruption and emplacement at Mt Etna between 1989and 1992,Nature, 361,493441. Sigurdsson, O., 1980. Surface deformation of the Krakla fissure swarm in two rifting events, J. Geophys..47, 154159. Skempton, A.W., 1954. The pore pressure coefficients A and B, Geotechnique.4, 143-147. Weertman, J., 1974. Water flow path around a dislocation in an earthquake fault, J. geophys. Res., 79,2132-2135. Zlotnicki, J., Ruegg, J.C., Bachelery, P. & Blum, P.A., 1990. Eruptive mechanism on Piton de la Founaise volcano associated with the December 4, 1983 and January 18, 1984 eruptions from ground deformation monitoring and photogrammetric surveys, J. Volc. Geotherm. Rex, 40, 197-217.	en
dc.description.obiettivoSpecifico	2TR. Ricostruzione e modellazione della struttura crostale	en
dc.description.journalType	JCR Journal	en
dc.contributor.author	Bonafede, Maurizio	en
dc.contributor.author	Danesi, Stefania	en
item.openairetype	article	-
item.cerifentitytype	Publications	-
item.languageiso639-1	en	-
item.grantfulltext	restricted	-
item.openairecristype	http://purl.org/coar/resource_type/c_18cf	-
item.fulltext	With Fulltext	-
crisitem.author.dept	University of Bologna	-
crisitem.author.dept	Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Bologna, Bologna, Italia	-
crisitem.author.orcid	0000-0002-7884-8242	-
crisitem.author.parentorg	Istituto Nazionale di Geofisica e Vulcanologia	-
crisitem.classification.parent	04. Solid Earth	-
crisitem.classification.parent	05. General	-
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