المؤلفون: Benson, P., Schubnel, A., Vinciguerra, S., Trovato, C., Meredith, P. G., Young, P. R.

المساهمون: Benson, P., Mineral, Ice and Rock Physics Laboratory, University College London, London, UK., Schubnel, A., Lassonde Institute, University of Toronto, Toronto, Ontario, Canada., Vinciguerra, S., Istituto Nazionale di Geofisica e Vulcanologia, Sezione Roma1, Roma, Italia, Trovato, C., Dipartimento di Fisica e Astronomia, Universita`di Catania, Catania, Italy, Meredith, P. G., Young, P. R.

مصطلحات موضوعية: microcracked, rocks, 04. Solid Earth::04.01. Earth Interior::04.01.04. Mineral physics and properties of rocks

العلاقة: J. Geophys. Res.; /111 (2006); Ayling, M. R., P. G. Meredith, and S. A. F. Murrell (1995), Microcracking during triaxial deformation of porous rocks monitored by changes in rock physical properties. 1. Elastic-wave propagation measurements on dry rocks, Tectonophysics, 245, 205– 221. Benson, P. M. (2004), Experimental study of void space, permeability and elastic anisotropy in crustal rock under ambient and isostatic pressure, Ph.D. thesis, 272 pp., Univ. of London, London. Benson, P. M., P. G. Meredith, E. S. Platzman, and R. E. White (2005), Pore fabric shape anisotropy in porous sandstone and its relation to elastic and permeability anisotropy under isostatic pressure, Int. J. Rock Mech. Min. Sci., 42, 890– 899, doi:10.1016/j.ijrmms.2005.05.003. Brace, W. F. (1980), Permeability of crystalline and argillaceous rocks, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 17, 241– 251. Brace, W. F., J. B. Walsh, and W. T. Frangos (1968), Permeability of granite under high pressure, J. Geophys. Res., 73, 2225– 2236. Bruner, W. M. (1976), Comment on ‘‘Seismic velocities in dry and saturated cracked solids’’ by R. J. O’Connell and B. Budiansky, J. Geophys. Res., 81, 2573– 2576. Chun, K.-Y., G. A. Henderson, and J. Liu (2004), Temporal changes in P wave attenuation in the Loma Prieta rupture zone, J. Geophys. Res., 109, B02317, doi:10.1029/2003JB002498. Dienes, J. (1982), Permeability, percolation and statistical cracks mechanics, in Issues in Rock Mechanics, edited by R. E. Goodman and F. E. Heuze, pp. 86– 94, Am. Inst. of Min., Metal. and Pet. Eng., New York. Elsworth, D., and B. Voight (2001), The mechanics of harmonic gas pressurisation and failure of lava domes, Geophys. J. Int., 145, 187– 198. Fischer, G. J., and M. S. Paterson (1992), Measurement of permeability and storage capacity in rocks during deformation at high temperature and pressure, in Fault Mechanics and Transport Properties of Rocks, edited by B. Evans and T.-F. Wong, pp. 213– 252, Elsevier, New York. Gao, Y., and S. Crampin (2004), Observations of stress relaxation before earthquakes, Geophys. J. Int., 157, 578– 582. Gerst, A., and M. K. Savage (2004), Seismic anisotropy beneath Ruapehu volcano: A possible eruption forecasting tool, Science, 306, 1543– 1547. Gue´guen, Y., and J. Dienes (1989), Transport properties of rocks from statistics and percolation, Math. Geol., 21, 1 –13. Gue´guen, Y., T. Chelidze, and M. Le Ravalec (1997), Microstructures, percolation thresholds, and rock physical properties, Tectonophysics, 279, 23– 35. Hudson, J. A. (1980), Overall properties of a cracked solid, Math. Proc. Cambridge Philos. Soc., 88, 371–384. Hudson, J. A. (1990), Overall elastic properties of isotropic materials with arbitrary distribution of circular cracks, Geophys. J. Int., 102, 465–469. Hudson, J. A., E. Liu, and S. Crampin (1995), The mechanical properties of materials with interconnected cracks and pores, Geophys. J. Int., 124, 105–112. Hudson, J. A., T. Pointer, and E. Liu (2001), Effective-medium theories for fluid-saturated materials with aligned cracks, Geophys. Prospect., 49, 509–522. Jones, C., and P. Meredith (1998), An experimental study of elastic wave propagation anisotropy and permeability anisotropy in an illitic shale, paper presented at Eurock 98, Soc. of Pet. Eng., Trondheim, Norway. Kachanov, M. (1994), Elastic solids with many cracks and related problems, Adv. Appl. Mech., 30, 259–445. Kano, S., and N. Tsuchiya (2002), Parallelepiped cooling joint and anisotropy of P-wave velocity in the Takidani granitoid, Japan Alps, J. Volcanol. Geotherm. Res., 114, 465–477. Kern, H. (1978), The effect of high temperature and high confining pressure on compressional wave velocities in quartz bearing and quartz free igneous and metamorphic rocks, Tectonophysics, 44, 185– 203. Madden, T. R. (1983), Microcrack connectivity in rocks: A renormalization group approach to the critical phenomena of conduction and failure in crystalline rocks, J. Geophys. Res., 88, 585– 592. Miller, S. A. (2002), Properties of large ruptures and the dynamical influence of fluids on earthquakes and faulting, J. Geophys. Res., 107(B9), 2182, doi:10.1029/2000JB000032. Nishizawa, O. (1982), Seismic velocity anisotropy in a medium containing oriented cracks: Transverse isotropy case, J. Phys. Earth, 30, 331– 347. O’Connell, R., and B. Budiansky (1974), Seismic velocities in dry and saturated rocks, J. Geophys. Res., 79, 5412–5426. Peach, C., and C. Spiers (1996), Influence of crystal plastic deformation on dilatancy and permeability development in synthetic salt rock, Tectonophysics, 256, 101– 128. Rivier, N., E. Guyon, and E. Charlaix (1985), A geometrical approach to percolation through random fractured rocks, Geol. Mag., 122, 157–162. Rocchi, V., P. R. Sammonds, and C. R. J. Kilburn (2002), Flow and fracture maps for basaltic rock deformation at high temperatures, J. Volcanol. Geotherm. Res., 120, 25– 42. Sayers, C. M., and M. Kachanov (1995), Microcrack induced elastic wave anisotropy of brittle rocks, J. Geophys. Res., 100, 4149– 4156. Schubnel, A., and Y. Gue´guen (2003), Dispersion and anisotropy of elastic waves in cracked rocks, J. Geophys. Res., 108(B2), 2101, doi:10.1029/ 2002JB001824. Simmons, G., T. Todd, and W. S. Balridge (1975), Toward a quantitative relationship between elastic properties and cracks in low porosity rocks, Am. J. Sci., 275, 318– 345. Simpson, G., Y. Gue´guen, and F. Schneider (2001), Permeability enhancement due to microcrack dilatancy in the damage regime, J. Geophys. Res., 106, 3999– 4016. Stanchits, S., S. Vinciguerra, and G. Dresen (2006), Ultrasonic velocities, acoustic emission characteristics and crack damage of basalt and granite, Pure Appl. Geophys., in press. Vinciguerra, S., C. Trovato, P. Meredith, and P. Benson (2005), Relating seismic velocities, thermal cracking and permeability in Mt. Etna and Iceland basalts, Int. J. Rock Mech. Min. Sci., 42, 900 – 910, doi:10.1016/j.ijrmms.2005.05.022. Walsh, J. B. (1965), The effect of cracks on the compressibility of rock, J. Geophys. Res., 70, 381– 389. Zimmerman, R. W. (1991), Compressibility of Sandstones, Dev. Geosci., vol. 29, 173 pp., Elsevier, New York.; http://hdl.handle.net/2122/2308Test

الإتاحة: https://doi.org/10.1029/2005JB003710Test
https://doi.org/10.1016/j.ijrmms.2005.05.003Test
http://hdl.handle.net/2122/2308Test

المؤلفون: Strada, E., Talarico, F., Florindo, F.

المساهمون: Strada, E., Dipartimento di Scienze della Terra, Universita` di Siena, Siena, Italy., Talarico, F., Florindo, F., Istituto Nazionale di Geofisica e Vulcanologia, Sezione Roma2, Roma, Italia

مصطلحات موضوعية: Magnetic, Sardinia, 04. Solid Earth::04.01. Earth Interior::04.01.04. Mineral physics and properties of rocks

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(1991b), Stability of oxide minerals in metamorphic rocks, in Oxide Minerals: Petrologic and Magnetic Significance, Rev. Mineral., vol. 25, edited by D. H. Lindsley, pp. 469– 488, Mineral. Soc. of Am., Washington, D. C. Frost, B. R., and D. H. Lindsley (1991), Occurrence of Iron-Titanium oxides in igneous rocks, in Oxide Minerals: Petrologic and Magnetic Significance, Rev. Mineral., vol. 25, edited by D. H. Lindsley, pp. 433– 468, Mineral. Soc. of Am., Washington, D. C. Gattacceca, J., J.-B. Orsini, J.-P. Bellot, B. Henry, P. Rochette, P. Rossi, and G. Cherchi (2004), Magnetic fabric of granitoids from southern Corsica and northern Sardinia and implications for Late Hercynian tectonic setting, J. Geol. Soc. London, 161, 277–289. Ghezzo, C., I. Memmi, and C. A. Ricci (1979), Un evento granulitico nel basamento ercinico della Sardegna nord orientale, Mem. Soc. Geol. Ital., 20, 23– 38. Giacomini, F., R. M. Bomparola, and C. 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(1997), Nomenclature of amphiboles: Report of the subcommittee on amphiboles of the International Mineralogical Association, commission on new minerals and mineral names, Can. Mineral., 35, 219– 246. Lecoanet, H., F. Leveque, and S. Segura (1999), Magnetic susceptibility in environmental applications: Comparison of field probes, Phys. Earth Planet. Inter., 115, 191– 204. McEnroe, S. A., P. Robinson, and P. T. Panish (2001), Aeromagnetic anomalies, magnetic petrology, and rock magnetism of hemo-ilmeniteand magnetite-rich cumulate rocks from the Sokndal Region, South Rogaland, Norway, Am. Mineral., 86, 1447– 1468. Menot, R. P., and J. B. Orsini (1990), Evolution du socle ante-stephanien de Corse: Evenements magmatiques et metamorphiques, Schweiz. Mineral. Petrogr. Mitt., 70, 35– 53. Miller, L., F. P. Sassi, and G. Armari (1976), On the occurrence of altered eclogite rocks in north-eastern Sardinia and their implications, Neues Jahrb. Geol. Paleontol., 11, 683–689. Nakamura, D., M. Svojtka, K. Naemura, and T. Hirajima (2004), Very high pressure (>4 GPa) eclogite associated with the Moldanubian Zone garnet peridotite (Nove´ Dvory, Czech Republic), J. Metamorph. Geol., 22, 593– 603. Papike, J. J., K. C. Cameron, and K. Baldwin (1974), Amphiboles and pyroxenes: Characterisation of other than quadrilateral components and estimation of ferric iron from microprobe data, Geol. Soc. Am. Abstr. Programs, 6, 1053– 1054. Raase, P. (1974), Al and Ti contents in hornblende, indicators of pressure and temperature of regional metamorphism, Contrib. Mineral. Petrol., 45, 231–236. Ricci, C. A. (1992), From crustal thickening to exhumation: Petrological, structural and geochronological records in the crystalline basement of northern Sardinia, in Contribution to the Geology of Italy, IGCP 276, Newsl. 5, edited by L. Carmignani and F. P. Sassi, pp. 187–197, Int. Geol. Correl. Programme, Siena, Italy. Roberts, A. P., Y. Cui, and K. L. Verosub (1995), Wasp-waisted hysteresis loops: Mineral magnetic characteristics and discrimination of components in mixed magnetic systems, J. Geophys. Res., 100, 17,909–17,924. Schlinger, C. M., and D. R. Veblen (1989), Magnetism and transmission electron microscopy of Fe-Ti oxides and pyroxenex in a granulite from Lofoten, Norway, J. Geophys. Res., 94, 14,009–14,026. Schwarz, E. J., and D. J. Vaughan (1972), Magnetic phase relations of pyrrhotite, J. Geomagn. Geoelectr., 24, 441– 458. Skilbrei, J. R., T. Skyseth, and O. Olesen (1991), Petrophysical data and opaque mineralogy of high-grade and retrogressed lithologies: Implications for the interpretation of aeromagnetic anomalies in northern Vestranden, central Norway, Tectonophysics, 192, 21– 31. Spear, F. S. (1980), NaSi-CaAl exchange equilibrium between plagioclase and amphibole: An empirical model, Contrib. Mineral. Petrol., 80, 140– 146. Speranza, F., I. M. Villa, L. Sagnotti, F. Florindo, D. Cosentino, P. Cipollari, and M. Mattei (2002), Age of the Corsica-Sardinia rotation and Liguro- Provenc¸al Basin spreading: New palaeomagnetic and Ar/Ar evidence, Tectonophysics, 347, 231– 251. Stampfli, G. M., J. von Raumer, and G. D. Borel (2002), Palaeozoic evolution of pre-Variscan terranes: From Gondwana to the Variscan collision, Spec. Pap. Geol. Soc. Am., 364, 263– 280. Triboulet, C. (1992), The (Na-Ca) amphibole-albite-chlorite-epidote-quartz geothermobarometer in the system S-A-F-M-C-N-H2O. 1. An empirical calibration, J. Metamorph. Geol., 10, 545– 556. Verrier, V., and P. Rochette (2002), Estimating peak currents at ground lightning impacts using remanent magnetization, Geophys. Res. Lett., 29(18), 1867, doi:10.1029/2002GL015207. Wasilewski, P., and R. D. Warner (1988), Magnetic petrology of deep crustal rocks- Ivrea zone, Italy, Earth Planet. Sci. Lett., 87, 347– 361. Zenk, M., and B. Schulz (2004), Zoned Ca-amphiboles and related P-T evolution in metabasites from the classical Barrovian metamorphic zones in Scotland, Mineral. Mag., 68(5), 769– 786.; http://hdl.handle.net/2122/2451Test

الإتاحة: https://doi.org/10.1029/2006JB004574Test
https://doi.org/10.1017/S0016756802006763Test
http://hdl.handle.net/2122/2451Test

المؤلفون: Sanne Cottaar, Cayman T. Unterborn, Ian Rose, Timo Heister

مصطلحات موضوعية: Correctness, Computation, Geophysics, sub-02, Python (programming language), Mantle (geology), Mineral physics, Open source, Geochemistry and Petrology, Statistical physics, computer, Geology, computer.programming_language

وصف الملف: application/pdf

الوصول الحر: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::ff3240fbe993c5345daeb3ecf2f49554Test
http://eprints.esc.cam.ac.uk/3100/1/SC2.pdfTest