Page 12 - Tondi_Ciilona_alii

Page 12 - Tondi_Ciilona_alii_2012

P. 12

Author's personal copy

64 E. Tondi et al. / Journal of Structural Geology 37 (2012) 53e64
Giunta, G., Luzio, D., Agosta, F., Calò, M., Di Trapani, F., Giorgianni, A., Oliveri, E., deformation-band fault zones. In: Sorkhabi, R., Tsuji, Y. (Eds.), Faults, Fluid Flow,
Orioli, S., Perniciaro, M., Vitale, M., Chiodi, M., Adelﬁo, Giada, 2009. An inte- and Petroleum Traps, vol. 85. AAPG Memoir, pp. 181e195.
grated approach to investigate the seismotectonics of northern Sicily and Shipton, Z.K., Cowie, P.A., 2001. Analysis of three-dimensional damage zone
southern Tyrrhenian. Tecto 476, 13e21. doi:10.1016/j.tecto.2008.09.03. development over m to km scale range in the high-porosity Navajo sandstone,
Gueguen, E., Tavarnelli, E., Renda, P., Tramutoli, M., 2002. The geodynamics of the Utah. Journal of Structural Geology 23, 1825e1844.
southern Tyrrhenian Sea margin as revealed by integrated geological, geophysical Shipton, Z.K., Cowie, P.A., 2003. A conceptual model for the origin of fault damage
and geodetic data. Bollettino della Società Geologica Italiana 1, 77e85. zone structures in high-porosity sandstone. Journal of Structural Geology 25,
Incandela, A., 1995. Deformazioni neogeniche nelle isole di Favignana e Levanzo. 333e344. http://dx.doi.org/10.1016/S0191-8141(02)00037-8.
Memorie della Società Geologica Italiana 51 (6), 129e135. Tavarnelli, E., Renda, P., Pasqui, V., Tramutoli, M., 2003. Composite structures
Katz, Y., Weinberger, R., Aydin, A., 2004. Geometry and kinematic evolution of resulting from negative inversion: an example from the Isle of Favignana (Egadi
Riedel shear structures, Capitol Reef National Park, Utah. Journal of Structural Islands). Bollettino Della Societa Geologica Italiana 122 (7), 319e325.
Geology 26 (3), 491e501. Tondi, E., Zampieri, D., Giunta, G., Renda, P., Unti, M., Giorgianni, A., Cello, G., 2006b.
Mandelbrot, B.B., 1983. The Fractal Geometry of Nature. W. H. Freeman, San Active faults and inferred seismic sources in the San Vito lo Capo peninsula,
Francisco. north-western Sicily, Italy. In: Geological Society, London, Special Publications,
Marrett, R., Allmendinger, R.W., 1992. Amount of extension on “small” faults: an vol. 262, pp. 365e377.
example from the Viking Graben. Geology 20, 47e50. Tondi, E., 2007. Nucleation, development and petrophysical properties of faults in
Micarelli, L., Benedicto, A., Wibberley, C.A.J., 2006. Structural evolution and carbonate grainstones: evidence from the San Vito Lo Capo peninsula (Sicily,
permeability of normal fault zones in highly porous carbonate rocks. Journal of Italy). Journal of Structural Geology 29, 614e628.
Structural Geology 28, 1214e1227. Tondi, E., Antonellini, M., Aydin, A., Marchegiani, L., Cello, G., 2006a. The role of
Nicol, A., Walsh, J.J., Villamor, P., Seebeck, H., Berryman, K.R., 2010. Normal fault deformation bands and pressure solution seams in fault development in
interactions, paleoearthquakes and growth in an active rift. Journal of Structural carbonate grainstones of the Majella Mountain, Italy. Journal of Structural
Geology 32, 1101e1113. Geology 28, 376e391.
Nigro, F., Renda, P., Arisco, G., 2000. Tettonica recente nella Sicilia nord-occidentale Tondi, E., Cello, G., 2003. Spatiotemporal evolution of the central Apennines fault
e nelle Isole Egadi. Bollettino della Società Geologica Italiana 119, 307e319. system (Italy). Journal of Geodynamics 36, 113e128.
Pickering, G., Bull, J.M., Sanderson, D.J., 1995. Sampling power-law distributions. Vajdova, V., Baud, P., Wong, T.-F., 2004. Compaction, dilatancy, and failure in porous
Tectonophysics 248, 1e20. carbonate rocks. Journal of Geophysical Research 109, B05204.1eB05204.16.
Pittman, E.D., 1981. Effect of fault-related granulation on porosity and permeability Vajdova, V., Baud, P., Wu, L., Wong T.-F. Micromechanics of inelastic compaction in
of quartz sandstones, Simpson Group (Ordovician), Oklahoma. American two allochemical limestones. Journal of Structural Geology, 33, Submitted for
Association of Petroleum Geologists Bulletin 65, 2381e2387. publication.
Rath, A., Exner, U., Tschegg, C., Grasemann, B., Laner, R., Draganits, E., 2011. Diage- Vajdova, V., Zhu, W., Chen, T.-M.N., Wong, T.-f., 2010. Micromechanics of brittle
netic control of deformation mechanisms in deformation bands in a carbonate faulting and 997 cataclastic ﬂow in Tavel limestone. Journal of Structural
grainstone. AAPG Bulletin 95 (8), 1369e1381. Geology 32, 1158e1169.
Renda, P., Tavarnelli, E., Tramutoli, M., Gueguen, E., 2000. Neogene deformations of Villemin, T., Angelier, J., Sunwoo, C., 1995. Fractal distribution of fault length and
Northern Sicily, and their implications for the geodynamics of the Southern displacements: implications of brittle deformation evaluation: the Lorraine coal
Tyrrhenian Sea margin. Memorie della Società Geologica Italiana 55, 53e59. basin. In: Barton, C.C., La Pointe, P.R. (Eds.), Fractals in the Earth Sciences.
Rives, T., Razack, M., Petit, J.P., Rawnsley, K.D., 1992. Joint spacing - analog and Plenum Press, New York, pp. 205e226.
numerical simulations. Journal of Structural Geology 14 (8e9), 925e937. Walsh, J.J., Watterson, J., 1992. Populations of faults and fault displacements and
Rustichelli, A., Tondi, E., Agosta, F., Cilona, A., and Giorgioni, M., 2012. Development their effects on estimates of fault-related regional extension. Journal of Struc-
and distribution of bed-parallel compaction bands and pressure solution seams tural Geology 14, 701e712.
in the Bolognano Formation carbonates (Majella Mountain, Italy). Journal of Wibberley, C.A.J., Petit, J.-P., Rives, T., 2000. Mechanics of cataclastic ‘deformation
Structural Geology, in press doi:10.1016/j.jsg.2012.01.007. band’ faulting in high-porosity sandstone, Provence. Comptes Rendus de
Scandone, P., Giunta, G., Liguori, V., 1974. The connection between Apulia and l’Academie des Sciences, Serie IIA 331, 419e425.
Sahara continental margins in the Southern Apennines and in Sicily. Memorie Willemse, E.J.M., Pollard, D.D., Aydin, A., 1996. Three-dimensional analyses of slip
della Società Geologica Italiana 13, 317e323. distributions on normal fault arrays with consequences for fault scaling. Journal
Scholz, C.H., 2002. The Mechanics of Earthquakes and Faulting, second ed. Cam- of Structural Geology 18 (2/3), 295e909.
bridge University Press, Cambridge. Wojtal, S.F., 1996. Changes in fault displacement populations correlated to linkage
Scholz, C.H., Cowie, P.A., 1990. Determination of total strain from faulting using slip between faults. Journal of Structural Geology 18. 2e3, 265e279.
measurements. Nature 346, 837e839. Wu, H., Pollard, D.D., 1995. An experimental study of the relationship between joint
Schultz, R.A., Soliva, R., Fossen, H., Okubo, C.H., Reeves, D.M., 2008. Dependence of spacing and layer thickness. Journal of Structural Geology 17 (6), 887e905.
displacementelength scaling relations for fractures and deformation bands on the Yielding, G., Walsh, J.J., Watterson, J., 1992. The prediction of small-scale faulting in
volumetric changes across them. Journal of Structural Geology 30, 1405e1411. reservoirs. First Break 10, 449e460.
Shipton, Z.K., Evans, J.P., Thompson, L.B., 2005. The geometry and thickness of Zhu, W., Baud, P., Wong, T.-F., 2010. Micromechanics of cataclastic pore collapse in
deformation-band fault core and its inﬂuence on sealing characteristics of limestone. Journal of Geophysical Research 115, B04405.1eB04405.17.

View publication stats
View publication stats

7 8 9 10 11 12