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  • Allerton, S., B. J. Murton, R. C. Searle, and M. Jones, Extensional faulting and segmentation of the Mid-Atlantic Ridge north of the Kane fracture zone (24°00′N to 24°40′N), Mar. Geophys. Res., 17, 3761, 1995.
  • Blackman, D. K., J. R. Cann, B. Janssen, and D. K. Smith, Origin of extensional core complexes: Evidence from the Mid-Atlantic Ridge at Atlantis Fracture Zone, J. Geophys. Res., 103, 21,315321,333, 1998.
  • Bralee, A. V., A detailed geophysical study of the ultra-slow spreading Southwest Indian Ridge: The axis of segment 11near 64°E, Ph.D. thesis, Dept. of Geol. Sci., Univ. of Durham, UK, 2003.
  • Bralee, A. V., and R. C. Searle, Fault characteristics and strain accommodation at the ultra slow spreading southwest Indian Ridge (SWIR), Eos Trans. AGU, 82(47), Fall Meet. Suppl., F1096, 2001.
  • Buck, W. R., Flexural rotation of normal faults, Tectonics, 7, 959973, 1988.
  • Cann, J. R., D. K. Blackman, D. K. Smith, E. McAllister, B. Janssen, S. Mello, E. Avgarinos, A. R. Pascoe, and J. Escartin, Corrugated slip surfaces formed at ridge-transform intersections on the Mid Atlantic Ridge, Nature, 385, 329332, 1997.
  • Cannat, M., How thick is the magmatic crust at slow-spreading mid-ocean ridges? J. Geophys. Res., 101, 28472857, 1996.
  • Cannat, M., and J. F. Casey, An ultramafic lift at the Mid-Atlantic Ridge: Successive stages of magmatism in serpentinized peridotites from the 15°N region, in Mantle and Lower Crust Exposed in Oceanic Ridges and in Ophiolites, edited by R. L. M. Vissers, and A. Nicolas, pp. 534, Kluwer Acad., Norwell, Mass., 1995.
  • Cannat, M., et al., Thin crust, ultramafic exposures, and rugged faulting patterns at Mid-Atlantic Ridge (22°–24°N), Geology, 23, 4952, 1995.
  • Cannat, M., C. Rommevaux-Jestin, and H. Fujimoto, Melt supply variations to a magma-poor ultra-slow spreading ridge (Southwest Indian Ridge 61° to 69°E), Geochem. Geophys. Geosyst., doi:10.1029/2002GC000480, in press, 2003.
  • Davis, G. H., A shear-zone model for the structural evolution of metamorphic core complexes in southeastern Arizona, in Continental Extensional Tectonics, edited by M. P. Coward, J. F. Dewey, and P. L. Hancock, Geol. Soc. Spec. Publ., 28, 247266, 1987.
  • Davis, G., and G. Lister, Detachment faulting in continental extension: Perspectives from the southwestern US Cordillera, Spec. Pap. Geol. Soc. Am., 218, 133159, 1988.
  • Dick, H. J. B., P. S. Meyer, S. Bloomer, D. Stakes, and C. Mawer, Lithostratigraphic evolution of an in situ section of oceanic layer 3, Proc. Ocean Drill. Program Sci. Results, 118, 439538, 1991.
  • Escartin, J., P. A. Cowie, R. C. Searle, S. Allerton, N. C. Mitchell, C. J. MacLeod, and P. A. Slootweg, Quantifying tectonic strain and magmatic accretion at a slow-spreading ridge segment, Mid-Atlantic Ridge, 29°N, J. Geophys. Res., 104, 10,421410,437, 1999.
  • Escartin, J., C. Mével, C. J. MacLeod, and A. M. McCaig, Constraints on deformation conditions and the origin of oceanic detachments: The Mid-Atlantic Ridge core complex at 15°45′N, Geochem. Geophys. Geosyst., doi:10.1029/2002GC000472, in press, 2003.
  • Flewellen, C., N. Millard and I. Rouse, TOBI, a vehicle for deep ocean survey, Elec. Comm. Eng. J., 8593, 1993.
  • Fujimoto, H., et al., Preliminary results from the first submersible dives on the Southwest Indian Ridge, Eos Trans. AGU, 79(46), Fall Meet. Suppl, F893, 1998.
  • Fujimoto, H., et al., First Submersible Investigations of the mid-ocean ridges in the Indian Ocean, InterRidge News, 8, 2224, 1999.
  • Fujiwara, T., J. Lin, T. Matsumoto, P. B. Kelemen, B. E. Tucholke, and J. F. Casey, Crustal Evolution of the Mid-Atlantic Ridge near the Fifteen-Twenty Fracture Zone in the last 5 Ma, Geochem. Geophys. Geosyst., 4(3), 1024, doi:10.1029/2002GC000364, 2003.
  • Hammer, S., Terrain corrections for gravimeter stations, Geophysics, 4, 184194, 1939.
  • Karson, J. A., Seafloor spreading on the Mid-Atlantic Ridge: implications for the structure of ophiolites and oceanic lithosphere produced in slow-spreading environments, in Proceedings of the Symposium on Ophiolites and Oceanic Lithosphere - TROODOS 87, edited by J. Malpas et al., pp. 547555, Geol. Surv. Dept., Ministry of Agric. and Nat. Resour., Nicosia, Cyprus, 1990.
  • Karson, J. A., Geologic investigation of a lineated massif at the Kane transform fault: Implications for oceanic core complexes, Philos. Trans. R. Soc. London Ser. A, 357, 713736, 1998.
  • Kuo, B. Y., and D. W. Forsyth, Gravity anomalies of the ridge-transform system in the South Atlantic between 31 and 34. 5°S: Upwelling centers and variations in crustal thickness, Mar. Geophys. Res., 10, 205232, 1988.
  • Lagabrielle, Y., D. Bideau, M. Cannat, J. A. Karson, and C. Mevel, Ultramafic-mafic plutonic rock suites exposed along the Mid-Atlantic Ridge (10°N–30°N). Symmetrical-asymmetrical distribution and implications for seafloor spreading processes, in Faulting and Magmatism at Mid-Ocean Ridges, Geophys. Monogr. Ser., vol. 106, edited by W. R. Buck et al., pp. 153176, AGU, Washington, D. C., 1998.
  • Lavier, L. L., W. R. Buck, and A. N. B. Poliakov, Self-consistent rolling-hinge model for the evolution of large- offset low-angle normal faults, Geology, 27, 11271130, 1999.
  • Lister, G. S., and G. A. Davis, The origin of metamorphic core complexes and detachment faults formed during Tertiary continental extension in the northern Colorado River region, U.S.A. J. Struct. Geol., 11, 6594, 1989.
  • Luyendyk, B. P., On-bottom gravity profile across the East Pacific Rise crest at 21°N, Geophysics, 49, 21662177, 1984.
  • MacLeod, C. J., et al., Direct geological evidence for oceanic detachment faulting: The Mid-Atlantic Ridge, 15°45′N, Geology, 30, 879882, 2002.
  • Matsumoto, T., P. B. Kelso, and MODE '98 Leg 1 Scientific Party, Precise geological and geophysical mapping of the 15°20′N Fracture Zone on the MAR - tectonic extension and its consequent exposure of ultramafic and plutonic rocks along the magma-poor ridge axis (MODE '98 Leg 1 Cruise), InterRidge News, 7, 1317, 1998.
  • McAllister, E., and J. Cann, Initiation and evolution of boundary wall faults along the Mid-Atlantic Ridge, 25–29°N, in Tectonic, Magmatic, Hydrothermal and Biological Segmentation of Mid-Ocean Ridges, edited by C. J. MacLeod, P. A. Tyler, and C. L. Walker, Geol. Soc. Spec. Publ., 118, 2948, 1996.
  • Mével, C., et al., Sampling the South West Indian Ridge: First results of the EDUL cruise, InterRidge News, 6, 2526, 1997a.
  • Mével, C., L. M. Parson, K. Tamaki, R. C. Searle, D. Sauter, P. Patriat, P. Blondel, and Fuji Scientific Party, Tectonic and Volcanic Segmentation of the Very Slow Spreading SWIR - New Sidescan Sonar and Swath Bathymetry Data East of 58E, Eos Trans. AGU, 78(46), Fall Meet. Suppl, F683, 1997b.
  • Mével, C., et al., Investigating an ultra slow spreading ridge: The first results of the FUJI cruise on the SWIR (R/V Marion Dufresne, 7/10–3/11/97), InterRidge News, 7, 2932, 1998.
  • Parker, R. L., The rapid calculation of potential anomalies, Geophys. J. R. Astron. Soc., 31, 447455, 1972.
  • Parson, L., E. Gracia, D. Coller, C. German, and D. Needham, Second-order segmentation; the relationship between volcanism and tectonism at the MAR, 38 degrees N–35 degrees 40′N, Earth Planet. Sci. Lett., 178, 231251, 2000.
  • Patriat, P., et al., The GALLIENI Cruise: A geophysical survey of the South-West Indian Ridge near the Gallieni FZ (37°S, 52°E), InterRidge News, 5, 1922, 1996.
  • Ranero, C. R., and T. J. Reston, Detachment faulting at ocean core complexes, Geology, 27, 983986, 1999.
  • Reston, T. J., W. Weinrebe, I. Grevemeyer, E. R. Flueh, N. C. Mitchell, L. Kirstein, C. Kopp, and H. Kopp, A rifted inside corner massif on the Mid-Atlantic Ridge at 5 degrees S, Earth Planet. Sci. Lett., 200, 255269, 2002.
  • Searle, R. C., The volcano-tectonic setting of oceanic lithosphere generation, in Ophiolites and Their Modern Oceanic Analogues, edited by L. M. Parson, B. J. Murton, and P. Browning, Geol. Soc. Spec. Publ., 60, 6580, 1992.
  • Searle, R. C., and A. V. Bralee, A geophysical investigation and geological interpretation of a super-slow spreading segment at the South West Indian Ridge (SWIR), Eos Trans. AGU, 82(47), Fall Meet. Suppl., F1097, 2001.
  • Searle, R. C., P. A. Cowie, N. C. Mitchell, S. Allerton, C. J. MacLeod, J. Escartin, S. M. Russell, P. A. Slootweg, and T. Tanaka, Fault structure and detailed evolution of a slow spreading ridge segment: The Mid-Atlantic Ridge at 29°N, Earth Planet. Sci. Lett., 154, 167183, 1998a.
  • Searle, R. C., P. Patriat, G. Pouliquen, C. Mével, and K. Tamaki, TOBI Sdescan Imagery and Magnetics of the Southwest Indian Ridge III: Detailed History and Tectonic Style of Seafloor Spreading and Detachment Faulting, 0–3 Ma, 63°30′E–63°56′E (FUJI Box 3), Eos Trans. AGU, 79(46), Fall Meet. Suppl., F855, 1998b.
  • Shemenda, A. I., and A. L. Grocholsky, Physical modelling of slow seafloor spreading, J. Geophys. Res., 99, 91379153, 1994.
  • Tucholke, B. E., Relation between Rift-Axis Magmatism, Frequency of Detachment Faulting, and Development of Inside-Corner Highs in Slow-Spreading Crust, Eos Trans. AGU, 78(46), Fall Meet. Suppl., F663, 1997.
  • Tucholke, B. E., and J. Lin, A geological model for the structure of ridge segments in slow spreading ocean crust, J. Geophys. Res., 99, 11,93711,958, 1994.
  • Tucholke, B., J. Lin, and M. Kleinrock, Mullions, megamullions and metamorphic core complexes on the Mid-Atlantic Ridge, Eos Trans. AGU, 77(46), Fall Meet. Suppl., F724, 1996.
  • Tucholke, B., J. Lin, M. Kleinrock, M. Tivey, T. Reed, J. Goff, and G. Jaroslow, Segmentation and crustal structure of the western Mid-Atlantic Ridge flank, 25°25′–27°10′N and 0–29 m. y. J. Geophys. Res., 102, 10,203210,223, 1997.
  • Tucholke, B., J. Lin, and M. Kleinrock, Megamullions and mullion structure defining oceanic metamorphic core complexes on the Mid-Atlantic Ridge, J. Geophys. Res., 103, 98579866, 1998a.
  • Tucholke, B. E., K. Fujioka, and T. Ishihara, Shinkai 6500 dives on Dante's Domes, a megamullion in the eastern rift mountains of the Mid-Atlantic Ridge at 26.6 degrees north, Eos Trans. AGU, 79(46), Fall Meet. Suppl., F45, 1998b.
  • Tucholke, B. E., K. Fujioka, T. Ishihara, G. Hirth, and M. Kinoshita, Submersible study of an oceanic megamullion in the central North Atlantic, J. Geophys. Res., 106, 16,145116,161, 2001.
  • Tucholke, B. E., W. R. Buck, L. Lavier, and J. Lin, Investigation of megamullion formation in relation to magma supply, Geophys. Res. Abstr., 5, Abstract EAE03-A-07925, 2003.
  • Varga, R. J., and E. M. Moores, Intermittent magmatic spreading and tectonic extension in the Troodos Ophiolite: Implications for exploration for black smoker-type ore deposits, in Proceedings of the Symposium on Ophiolites and Oceanic Lithosphere - TROODOS 87, edited by J. Malpas et al., Geol. Surv. Dept., Ministry of Agric. and Nat. Resour., Nicosia, Cyprus, 1990.
  • Watts, A., and S. Zhong, Observations of flexure and the rheology of oceanic lithosphere, Geophys. J. Int., 142, 855875, 2000.
  • Wolfe, C. J., G. M. Purdy, D. R. Toomey, and S. C. Solomon, Microearthquake characteristics and crustal velocity structure at 29°N on the Mid-Atlantic Ridge: The architecture of a slow-spreading segment, J. Geophys. Res., 100, 24,449424,472, 1995.
  • Yin, A., Mechanisms for the formation of domal and basinal detachment faults: A three-dimensional analysis, J. Geophys. Res., 96, 14,577514,594, 1991.