Окенический рифтогенез - Дубинин Е.П.
ISBN 5-89118-198-3
Скачать (прямая ссылка):
170.Birch F.S. The Barracuda Fault Zone in the western North Atlantic: geological and geophysical studies // Deep Sea Res. 1970. Vol. 17. P. 847-859.
171 .Bischoff J.L., Rosenbauer R.J. The critical point and two-phase boundary of seawater, 200-500°C // Earth Planet. Sci. Lett. 1984. Vol. 68. P. 172-180.
\12.Bloomer S., Meyer P. Slimline magma chambers // Nature. 1992. Vol. 357. P. 117-118.
\13.Bonatti E. Serpentinite protrusions in the oceanic crust // Earth Planet. Sci. Lett. 1976. Vol. 132. P. 107-113.
\14.Bonatti E. Vertical tectonism in oceanic fracture zones // Ibid. 1978. Vol. 137. P. 369-379.
175.Bonatti E„ Chermak A. Formery emerging crustal blocks in the equatorial Atlantic // Tectonophysics.
1981. Vol. 72. P. 165-180.
176.Bonatti E., Peyve A., Kepezhinskas P. et al. Upper Mantle Heterogeneity Below the Mid-Atlantic Ridge, 0°-15°N // J. Geophys. Res. 1992. Vol. 97, N B4. P. 4461-4476.
m.Boudier F., Nicolas A. Ophiolites of Oman // Tectonophysics. 1988. Vol. 151. P. 27-56.
178.Bowin C., Milligan J. Negative gravity anomaly over spreading rift valleys: Mid-Atlantic Ridge at 26 N // Ibid. 1985. Vol. 113. P. 233-256.
179.BowinJ, White R.S. Variation with spreading rate of oceanic crustal thickness and geochemistry // Earth Planet. Sci. Lett. 1994. Vol. 121. P. 435-449.
180.Brikowski Т., Norton D. Influence of magma chamber geometry on hydrothermal activity at mid-ocean ridges // Ibid. 1989. Vol. 93. P. 241-255.
\Z\.Bryan W.B., Humphis S.E., Thompson G., Casey J.E. Comparative MARK area // J. Geophys. Res. 1994. Vol. 99, N B2. P. 2973-2984.
182.Burr N.C., Solomon S.C. The Relationship of Source Parameters of Oceanic Transform Earthquakes to Plate Velocity and Transform Length // Ibid. 1978. Vol. 83, N B3. P. 1193.
\83.Calcagno P., Cazenava A. Present and past regional ridge segmentation evidence in geoid data // Geophys. Res. Lett. 1993. Vol. 20, N18. P. 1895-1998.
184 .Campbell A.C., Turner J.S. The influence of viscosity on fonntains in magma chambers // J. Petrol. 1986. Vol. 276. P. 1-30.
185.Canales J.P., Detrick R.S., Lin J. Et al. Crustal and upper mantle seismic structure beneath the rift mountains and across a nontransform offset at the Mid-Atlantic Ridge (35°N) // J. Geophys. Res. 2000. Vol. 105, N B2. P. 2699.
186.Cande S.C., Herron E.M., Hall B.R. The early Ceno-zoic tectonic history of the southeast Pasific // Earth Planet. Sci. Lett. 1982. Vol. 57. P. 63-74.
187.Cann J.N., Strens M.R., Rice A.. A simple magma driven thermal balance model for the formation of volcanogenic massive sulphides // Ibid. 1985/86. Vol.
76. P. 123-134.
18b.Cannat M, Lecuyer C. Ephemeral magma chambers in the Trinity peridotite, northern California // Tectonophysics. 1991. Vol. 186. P. 313-328.
\Z9.Cannat M. Haw thick is the crust at slow spreading oceanic ridges? //J. Geophys. Res. 1996. Vol. 101, N B2. P. 2847-2857.
190.Carbotte S.M., Macdonald K.C. Causes of Variation in Fault-Facing direction on the ocean floor// Geology. 1990. Vol. 18. P. 749-752.
191.Carbotte S.M., Macdonald K.C. East Pacific Rise 8°-10°30'N: Evolution of Ridge Segments and Discontinuities from SeMARC II and Three-Dimensional Magnetic Studies // J. Geophys. Res. 1992. Vol. 97, N B5. P. 6959-6982.
192 .Carbotte S. М., Solomon A., Ponce-Correa G. Evaluation of morphological indicators of magma supply and segmentation from a seismic reflection study of the East Pacific Rise // Ibid. 2000. Vol. 105, N B2. P. 2737.
193. Cardery M.J., Morgan J. Convection and melting at mid-ocean ridges // Ibid. 1993. Vol. 98, N В11. P. 19477-19503.
194.Caress D.W., Burnett M.S., Orcutt J.A. Tomographic image of the axial low-velocity zone at 12°50'N on the East Pacific Rise. // Ibid. 1992. Vol. 97, N B6. P. 9243-9263.
195.Carrigan C.R. A two-phase hydrothermal cooling model for shallow intrusions // J.Volcanol. and Geotherm. Res. 1986. Vol. 28. P. 175-192.
196.Casey J., Karson J.A. Magma chamber profiles from the Bay of Island ophiolite complex // Nature. 1981. Vol. 292. P. 295-301.
197.Casey J.F. et al. Reconstruction of the geometry of accretion during formation of the Bay of Islands ophiolite complex // Tectonics. 1983. N 2. P. 509-528.
\9%.Cathles L.M. An analysis of the hydrothermal system responsible for massive sulphide deposition in the Hokuroku basin of Japan // The Kuroko and related volcanogenic massive sulphide deposits. 1983. P. 439-487. ( Econom. Geol. Monogr.; Vol.5).
199. Chen Y., Morgan W.J. A nonlinear rheology model for mid-oceanic ridge axis topography // J. Geophys. Res. 1990. Vol. 95. P. 17583-17604.
200 .Chen Y.J., Phipps Morgan J. The effect of spreading rate, the magma budget, and the geometry of magma emplacement on the axial heat flux at mid-oceanic ridges // Ibid. 1996. Vol. 101, N B5. P. 11475-11482.
201.Chian D„ Keen C.E., Reid I., Louden K.E. Evolution of nonvolcanic rifted margins: New results from the conjugate margins of the Labrador Sea // Geology.
1995. Vol. 23, N 7. P. 589-592.
