Окенический рифтогенез - Дубинин Е.П.
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202.Christensen N.I. The abundance of serpentinites in the oceanic crust 11 J. Geol. 1972. Vol. 80. P. 709-719.
203.Christeson G.L., Kent G.M., Purdy G.M., Detrick R.S. Extrusive thickness variability at the East Pacific Rise, 9°-10°N: Constraints from seismic techniques // J. Geophys. Res. 1996. Vol. 101, N B2. P. 2859-2873.
IQA.Cochran J.R. Gravity and magnetic investigations in the Guiana Basin, Western Equatorial Atlantic // Geol. Soc. Amer. Bull. 1973. Vol. 84. P. 3249-3268.
205.Cochran J.R. Analysis of isostasy in the world ocean.
2.Mid-ocean ridge crests // J. Geophys. Res. 1979. Vol. 84. P. 4713-4729.
206.Cochran.J.R. Somali basin, and origin of the northern Somali basin gravity and geoid low // Ibid, 1988. Vol. 93. P. 1985-1208.
207. Cochran J.R., Goff J.A., Malinverno A. et al. Morphology of a “superfast” mid-ocean ridge crest and flanks: the East Pacific Rise, 7-9°S // J. Geophys. Res. 1993. Vol. 15. P. 65-75.
208.Collier J.S., Sinha M.C. Seismic mapping of a magma chamber beneath the Valu Fa Ridge, Lau Basin // J. Geophys. Res. 1992. Vol. 97. P. 14031-14053.
209.Combarnous M. Natural convection in porous media and geothermal systems // Int. Heat Transfer Conf. 6-th. 1978. P. 45-59.
210.Constable S., Sinha M„ MacGregor L. et al. RAMESSES Finds a magma chamber beneath a slow spreading ridge // InterRidge News. 1997. Vol. 6, N l.P. 18-22.
211 .Cordery M.J., Phipps Morgan J. Melting and mantle flow beneath a mid-oceanic spreading center // Earth Planet. Sci. Lett. 1992. Vol. 111. P. 493-516.
212.Cordery M.J., Phipps Morgan J. Convection and melting at mid-oceanic ridges // J. Geophys. Res. 1993. Vol. 98, N B11. P. 19477-19503.
213.Cormier M.-H., .Detrick R.S., G.M.Purdy. Anomaly thin crust in oceanic fracture zones: New scismic contreints from the Kane fracture zone // Ibid. 1984. Vol. 89, N B12. P. 10249-10266.
214.Crane K. Structural Evolution of the East Pacific Rise Axis from 13°10'N to 10°35’N: Interpretations from SeaMARC I data // Tectonophysics. 1987. Vol. 136. P. 65-124.
2\5.Cronin Vol.S. Types and kinematic stability of triple junctions // Ibid. 1992. Vol. 207. P. 287-301.
216.CYAMEX Team. First manned submergible dives on the East Pacific Rise at 21°N (Project RITA): General results // J. Geophys. Res. 1979. Vol. 4. P. 345-
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217.CYGOR II Group. Intraoceanic tectonism on the Gorringe Bank: observations by submersible. -Ophiolites and Oceanic Lithosphere / Eds. I.G. Gass,
S.J. Lippard, A.W. Shelton. L.: Blackwell. 1984. P. 113-120.
218.Davis E.E. et al. Heat-flow variations correlated with buried basement topography on the Juan de Fuca Ridge Flank//Nature. 1989. Vol. 342. P. 533-537.
219.Davis E.E. et al. An experiment to study the nature of hydrothermal circulation in young oceanic crust // Canad. I. Earth Sci. 1992. Vol. 29. P. 925-952.
220.De Mets C., Gordon R.G., Argus D.F., Stein S. Current plate motions// Geophys. J. Int. 1990. Vol. 101.
221 .Delaney J.R., Cosens B.A. Boiling and metal deposition in submarine hydrothermal systems // Mar. Technol. Soc. J. 1982. Vol. 16. P. 62-66.
222.Delaney J.R., Robigou Vol., McDuff R.E., Tivey M.K. Geology of a vigorous hydrothermal system on the Endeavor segment, Juan de Fuca Ridge // J. Geophys. Res. 1992. Vol. 97. P. 19663-19682.
223.Detrick R.S., Purdy G.M. The crustal structure of the Kane Fracture Zone from seismic refraction studies // Ibid. 1980. Vol. 85. P. 3759-3777.
224.Detrick R.S., Cormier R.A., Prince R.A., Forsyth
D.W. Seismic constractions on the crustal structure within the Vema Fracture Zone // Ibid. 1982. Vol. 87. P. 10599-10612.
225.Detrick R. S., Buhl P., Vera E. et al. Multichannel seismic imaging of an axial magma chamber along the East Pacific Rise between 9°N and 13°N // Nature. 1987. Vol. 326. P. 35-41.
226.Detrick R.S., Mutter J.C., Buhl P.. Kim 1.1. No evidence from multichannel reflection data for a crustal magma chamber in the MARK area on the Mid-Atlantic Ridge // Ibid. 1990. Vol. 34. P. 61-63.
221 .Detrick R.S., Needham H.D., Renard Vol.. Gravity anomalies and crustal thickness variations along the Mid-Atlantic Ridge between 33°N and 40°N // J. Geophys. Res. 1995. Vol. 100, N B3. P. 3767-3787.
228.Detrick R., Collins J., Kent G. et al. Mid-Atlantic ridge Bull’s-eye experiment: A seismic investigation of segment-Scale crustal heterogeneity at a slow-spreading ridge // InterRidge News. 1997. Vol. 6, N1. P. 27-32.
229.Dyment J., Arkani-Hamed J., Ghods A. Contribution of serpentinized ultramafics to marine magnetic anomalies at slow and intermediate spreading centres: insights from the shape of the anomalies // Geophys. J. Int. 1997. Vol. 129. P. 691-701.
230.Dziewonski A.M., Woodhouse J.K. An experiment in systematic study of global seismicity: centroid-moment tensor solution for 201 moderate and large earthquakes of 1981 // J. Geophys. Res. 1983. Vol. 88. P. 3247-3271.
231 .Eberhart G.L., Rona P.A., Honnorez J. Geologic Controls of Hydrothermal Activity in the Mid-Atlantic Ridge Rift Valley: Tectonics and Volca-nics // Mar. Geophys. Res. 1988. Vol. 10. P. 233-259.
