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REFERENCES 445

Kennett, B.L.N. (1977) Towards a more detailed seismic picture Klein, E.M. et al. (1988) Isotope evidence of a mantle convection
of the oceanic crust and mantle. Marine geophys. Res. 3, boundary at the Australian–Antarctic Discordance. Nature 333,
7–42. 623–9.
Kennett, B.L.N., & Orcutt, J.A. (1976) A comparison of travel time Kleinrock, M.C. & Hey, R.N. (1989) Detailed tectonics near the tip
inversions for marine refraction proﬁ les. J. geophys. Res. 81, of the Galapagos 95.5°W propagator: how the lithosphere
4061–70. tears and a spreading axis develops. J. geophys. Res. 94, 13801–
Kennett, B.L.N., Engdahl, E.R. & Buland, R. (1995) Constraints 38.
on seismic velocities in the Earth from traveltimes. Geophys. J. Klepeis, K.A., Crawford, M.L. & Gehrels, G. (1998) Structural
Int. 122, 108–24. history of the crustal-scale Coast shear zone near Portland
Kennett, J.P. (1977) Cenozoic evolution of Antarctic glaciation, the Canal, Coast Mountains orogen, southeast Alaska and
circum-Antarctic current, and their impact on global British Columbia. J. struct. Geol. 20, 883–904.
paleoceanography. J. geophys. Res. 82, 3843–60. Klepeis, K.A, Clarke, G.L. & Rushmer, T. (2003) Magma transport
Kent, D.V. & Gradstein, F.M. (1985) A Cretaceous and Jurassic and coupling between deformation and magmatism in the
geochronology. Bull. geol. Soc. Am. 96, 1419–27. continental lithosphere. GSA Today 13, 4–11.
Kent, D.V. & Gradstein, F.M. (1986) A Jurassic to recent chronol- Klepeis, K.A. et al. (2004) Processes controlling vertical coupling
ogy. In Vogt, P.R. & Tucholke, B.E. (eds) The Western North and decoupling between the upper and lower crust of orogens:
Atlantic region. The Geology of North America 1, pp. 45–50. Geo- results from Fiordland, New Zealand. J. struct. Geol. 26, 765–
logical Society of America, Boulder, CO. 91.
Kent, G.M. et al. (1994) Uniform accretion of oceanic crust south Klepeis, K.A., King, D., De Paoli, M., Clarke, G.L. & Gehrels,
of the Garrett transform at 14°15′S on the East Paciﬁ c Rise. G. (2007) Interaction of strong lower and weak middle
J. geophys. Res. 99, 9097–116. crust during lithospheric extension in western New Zealand.
Kent, G.M., Harding, A.J. & Orcutt, J.A. (1990) Evidence for a Tectonics 26, TC4017.
smaller magma chamber beneath the East Paciﬁ c Rise at Kley, J. (1996) Transition from basement-involved to thin skinned
9°30′N. Nature 344, 650–3. thrusting in the Cordillera Oriental of southern Bolivia. Tecton-
Keppie, J.D. & Dostal, J. (2001) Evaluation of the Baja controversy ics 15, 763–75.
using paleomagnetic and faunal data, plume magmatism, and Kley, J., Monaldi, C.R. & Salﬁ ty, J.A. (1999) Along-strike segmen-
piercing points. Tectonophysics 339, 427–42. tation of the Andean foreland: causes and consequences. Tec-
Keppie, J.D. & Ramos, V.A. (1999) Odyssey of terranes in the tonophysics 301, 75–94.
Iapetus and Rheic oceans during the Paleozoic. In Ramos, V.A. Kloppenburg, A., White, S.H. & Zegers, T.E. (2001) Structural
& Keppie, J.D. (eds) Laurentia–Gondwana Connections before evolution of the Warrawoona Greenstone Belt and adjoin-
Pangea. Geol. Soc. Am. Sp. Paper 336, 267–76. ing granitoid complexes, Pilbara craton, Australia: implica-
Kidd, R.G.W. (1977) A model for the process of formation of the tions for Archaean tectonic processes. Precambrian Res. 112,
upper oceanic crust. Geophys. J. Roy. astr. Soc. 50, 149–83. 107–47.
Kieffer, B. et al. (2004) Flood and shield basalt from Ethiopia: Klosko E.R. et al. (1999). Upper mantle anisotropy in the New
magmas from the African superswell. J. Petrol. 45, 793–834. Zealand region. Geophys. Res. Lett. 26, 1497–500.
Kilgour, B. & Hatch, L. (compilers) (2002) Magnetic Anomaly Images Klotz, J. et al. (1999) GPS-derived deformation of the central Andes
of the Australian Region [Digital Dataset]. Geoscience Australia, including the 1995 Antofagasta Mw = 8.0 earthquake. Pure
Canberra. Appl. Geophys. 154, 709–30.
Kincaid C. & Grifﬁths R.W. (2003) Laboratory models of the Knittle, E. & Jeanloz, R (1991) Earth’s core–mantle boundary:

thermal evolution of the mantle during rollback subduction. results of experiments at high pressures and temperatures.
Nature, 425, 58–62. Science 251, 1438–43.
King, S.D. (2005) Archean cratons and mantle dynamics. Earth Kohler, M.D. (1999) Lithospheric deformation beneath the San
planet. Sci. Lett. 234, 1–14. Gabriel Mountains in the Southern California Transverse
Kirby, S.H., Engdahl, E.R. & Denlinger, R. (1996) Intermediate Ranges. J. geophys. Res. 104, 15025–41.
depth intraslab earthquakes and arc volcanism as physical Kohler, M.D. & Eberhart-Phillips, D. (2003) Intermediate-depth
expressions of crustal and upper mantle metamorphism in earthquakes in a region of continental convergence: South
subducting slabs. In Bebout, G.E. et al. (eds) Subduction: top to Island, New Zealand. Bull. seis. Soc. Am. 93, 85–93.
bottom. Geophys. Monogr. Ser. 96, pp. 195–214. American Geo- Kono, M. & Roberts, P.H. (2002) Recent geodynamo simulations
physical Union, Washington, DC. and observations of the geomagnetic ﬁ eld. Rev. geophys. 40(4),
Kirby, E. et al. (2002) Late Cenozoic evolution of the eastern doi:101029/2000RG000102, 1013.
39
40
margin of the Tibetan Plateau: inferences from Ar/ Ar and Konstantinovskaia, E. & Malavieille, J. (2005) Erosion and exhu-
(U-Th)/He thermochronology. Tectonics 21, 1001, doi:10.1029/ mation in accretionary orogens: experimental and geological
2000TC001246. approaches. Geochem. Geophys. Geosyst. 6, Q02006, doi:10.1029/
Kitada, K. et al. (2006) Distinct regional differences in crustal thick- 2004GC000794.
ness along the axis of the Mariana Trough, inferred from Koons, P.O. (1987) Some thermal and mechanical consequences
gravity anomalies. Geochem. Geophys. Geosyst. 7, Q04011, of rapid uplift; an example from the Southern Alps, New
doi:10.1029/2005GC001119. Zealand. Earth planet. Sci. Lett. 86, 307–19.

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