Geoscience Reference
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slow-spreading ridge, from multibeam bathymetry, gravity and magnetic investigations.
Earth Planet. Sci. Lett.
,
160
, 463-78.
Shaw, P. 1992. Ridge segmentation, faulting and crustal thickness in the Atlantic Ocean.
Nature
,
358
, 490-3.
Shen, Y. and Forsyth, D. W. 1995. Geochemical constraints on initial and final depths of
melting beneath mid-ocean ridges.
J. Geophys. Res.
,
100
, 2211-37.
Sinha, M. C. and Louden, K. E. 1983. The Oceanographer fracture zone - I. Crustal structure
from seismic refraction studies.
Geophys. J. Roy. Astr. Soc.
,
75
, 713-36.
Sinton, J. M. and Detrick, R. S. 1992. Mid-ocean ridge magma chambers.
J. Geophys. Res.
,
97
, 197-216.
Sleep, N. H. 1975. Formation of oceanic crust: some thermal constraints.
J. Geophys. Res.
,
80
,
4037-42.
1983. Hydrothermal convection at ridge axes. In P. A. Rona, K. Bostrom, L. Laubier and K.
L. Smith, eds.,
Hydrothermal Processes at Seafloor Spreading Centres
.New York:
Plenum, pp. 71-82.
Smith, D. K. and Cann, J. R. 1993, Building the crust at the Mid-Atlantic Rodge.
Nature
,
365
,
707-14.
Smith, H. S. and Erlank, A. J. 1982. Geochemistry and petrogenesis of komatiites from the
Barberton greenstone belt, South Africa. In N. T. Arndt and E. G. Nisbet, eds.,
Komatiites
. London: George Allen and Unwin, pp. 347-97.
Solomon, S. C. and Julian, B. R. 1974. Seismic constraints on oceanic-ridge mantle structure:
anomalous fault plane solutions from first motions.
Geophys. J. Roy. Astr. Soc.
,
38
,
265-85.
Solomon, S. C. and Toomey, D. R. 1992. The structure of mid-ocean ridges.
Ann. Rev. Earth
Planet. Sci.
,
20
, 329-64.
Spence, G. D., Clowes, R. M. and Ellis, R. M. 1985. Seismic structure across the active
subduction zone of western Canada.
J. Geophys. Res.
,
90
, 6754-72.
Spiegelman, M. and Reynolds, J. R. 1999. Combined dynamic and geochemical evidence for
convergent melt flow beneath the East Pacific Rise.
Nature
,
402
, 282-5.
Spudich, P. and Orcutt, J. 1980. Petrology and porosity of an oceanic crustal site: results
from waveform modelling of seismic refraction data.
J. Geophys. Res.
,
85
,
1409-33.
Stauder, W. and Maulchin, L. 1976. Fault motion in the larger earthquakes of Kuie-Kamchatka
Arc and of the Kurile, Hokkaido Corner.
J. Geophys. Res.
,
81
, 297-308.
Stein, S. and Stein, C. A. 1996. Thermo-mechanical evolution of oceanic lithosphere:
implications for the subduction process and deep earthquakes. In G. E. Bebout, D. W.
Scholl, S. H. Kirby and J. P. Platt, eds.,
Subduction Top to Bottom
. Geophysical
Monograph 96. Washington: American Geophysical Union, pp. 1-17.
Stoffa, P. L., Buhl, P., Henon, T. J., Kan, T. K. and Ludwig, W. J. 1980. Mantle reflections
beneath the crustal zone of the East Pacific Rise from multichannel seismic data.
Mar.
Geol.
,
35
, 83-97.
Suyehiro, K. and Sacks, I. S. 1983. An anomalous low velocity region above the deep
earthquakes in the Japan subduction zone.
J. Geophys. Res.
,
88
,10429-38.
Swift, S. A., Lizarralde, D., Stephen, R. A. and Hoskins, H. 1998. Velocity structure in upper
ocean crust at Hole 504B from vertical seismic profiles.
J. Geophys. Res.
,
103
,
15 361-76.
