The internal structure of fault zones: Fluid flow and mechanical properties

Geological Society Special Publication

Volumn 299, Issue , 2008, Pages 1-3

  Kurz, W ^a   Imber, Jonathan ^b   Wibberley, Christopher A J ^c   Holdsworth, R E ^b   Collettini, C ^d  

^a GRAZ UNIVERSITY OF TECHNOLOGY   (Austria)

^b DURHAM UNIVERSITY   (United Kingdom)

^c CSTJF   (France)

^d UNIVERSITY OF PERUGIA   (Italy)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 50949130899     PISSN: 03058719     EISSN: None     Source Type: Book Series    
DOI: 10.1144/SP299.1     Document Type: Editorial

References (12)

1. AXEN, G. J. 2004. Mechanics of low-angle normal faults. In: KARNER, G. D., TAYLOR, B., DRISCOLL, N. W. & KOHLSTEDT, D. L. (eds) Rheology and Deformation of the Lithosphere at Continental Margins. Columbia University Press, New York, 46-91.
2. BONCIO, P. 2008. Deep-crust strike-slip earthquake faulting in southern Italy aided by high fluid pressure: insights from rheological analysis. In: WIBBERLEY, C. A. J., KURZ, W., IMBER, J., HOLDSWORTH, R. E. & COLLETTINI, C. (eds) The Internal Structure of Fault Zones: Implications for Mechanical and Fluid-Flow Properties. Geological Society, London, Special Publications, 299, 195-210.
3. CHILDS, C., WATTERSON, J. & WALSH, J. J. 1995. Fault overlap zones within developing normal fault systems. Journal of the Geological Society, London, 152, 535-549.
4. MANZOCCHI, T., WALSH, J. J., NELL, P. & YIELDING, G. 1999. Fault transmissibility multipliers for flow simulation models. Petroleum Geoscience, 5, 53-63.
5. MARIANI, E., BRODIE, K. H. & RUTTER, E. H. 2006. Experimental deformation of muscovite shear zones at high temperatures under hydrothermal conditions and the strength of phyllosilicate-bearing faults in nature. Journal of Structural Geology, 28, 1569-1587.
6. NIEMEIJER, A. R. & SPIERS, C. J. 2007. A microphysical model for strong velocity weakening in phyllosilicate-bearing fault gouges. Journal of Geophysical Research, 112, B10405, doi:l0.l029/2007JB005008.
7. PEACOCK, D. C. P. 2003. Scaling of transfer zones in the British Isles. Journal of Structural Geology, 25, 1561-1567.
8. SHELDON, H. A. & MICKLETHWAITE, S. 2007. Damage and permeability around faults: implications for mineralization. Geology, 35, 903-906.
9. SIBSON, R. H. 1989. Earthquake faulting as a structural process. Journal of Structural Geology, 11, 1-14.
10. WIBBERLEY, C. A. J. & SHIMAMOTO, T. 2005. Earthquake slip weakening and asperities explained by thermal pressurization. Nature, 436, 689-692.
11. YIELDING, G., FREEMAN, B. & NEEDHAM, D. T. 1997. Quantitative fault seal prediction. AAPG Bulletin, 81, 897-917.
12. ZHANG, Y., SCHAUBS, P. M., ZHAO, C., ORD, A., HOBBS, B. E. & BARNICOAT, A. C. 2008. Fault-related dilation, permeability enhancement, fluid flow and mineral precipitation patterns: numerical models. In: WIBBERLEY, C. A. J., KURZ, W., IMBER, J., HOLDSWORTH, R. E. & COLLETTINI, C. (eds) The Internal Structure of Fault Zones: Implications for Mechanical and Fluid-Flow Properties. Geological Society, London, Special Publications, 299, 239-255.