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Окенический рифтогенез - Дубинин Е.П.

Дубинин Е.П., Ушаков С.А. Окенический рифтогенез — М.: ГЕОС, 2001. — 293 c.
ISBN 5-89118-198-3
Скачать (прямая ссылка): okeanicheskiyfotogenez2001.djvu
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319.Kent G.M., Harding A. J., Orcutt J.A. Distribution of magma beneath the East Pacific Rise between the Clipperton transform and the 9°17'N deval from forward modeling of common depth point data // Ibid. 1993b. Vol. 98, N B8. P. 13945-13696.
320.Kent G.M., Harding A.J., Orcutt J.A. et al. Uniform accretion of oceanic crust south of the Garrett transform at 14°15'S on the East Pacific Rise // Ibid. 1994. Vol. 99, N B5. P. 9097-9116.
321.Kim K.R., Welhan J.A., Graig H. The hydrothermal vent fluids at 13°N and 11°N on the East Pacific Rise: Alvin 1984 resulte // EOS. 1984. Vol. 65. P.973.
322.Kleinrock M.C., Phipps Morgan J. Triple Junction Reorganization // J. Geophys. Res. 1988. Vol. 93, N B4. P. 2981-2996.
323. Klitgord K.D., Mudie J.D. The Galapagos spreading center: a near-bottom geophysical survey // Geophys. J. Roy. Astron. Soc. 1974. Vol. 38. P. 563-586.
324.Klitgord K.D., Mammerickx J. Northern East Pacific Rise: Magnetic anomaly and bathymetric framework // J. Geophys. Res. 1982. Vol. 87. P. 6725-6750.
325.Klitgord K.D., Huestis S.P., Parker R.L., Mudie J.D. An Analysis of near-bottom magnetic anomalies: Seafloor spreading, the magnetized layer, and the geomagnetic time scale // Geophys. J. Roy. Astron. Soc. 1975. Vol. 43. P. 387-424.
326.Kong L.S.L., Detrick R.S., Fox P.J. et al. The morphology and tectonics of the MARK area from Sea-Beam and SeaMark I observations (Mid-Atlantic Ridge 23° N.) II Mar. Geophys. Res. 1988. Vol. 10. P. 59-90.
321.Kong L.S., Solomon S.C., Purdy G.M. Microearthquake Characteristics of a Mid-Ocean Ridge Along-Axis High // J. Geoph. Res. 1992. Vol. 92, N B2. P. 1659-1685.
328.Koski R.A. et al., Hydrothermal processes and massive sulfide deposits on the Juan de Fuca Ridge and other northeast Pacific spreading axes. Circum-Pacific Counsil for Energy and Mineral Resources // Earth Sci. Ser. 1987. Vol.6. P. 621-638.
329.Koski R.A., Jonasson I.R., Kadko D.C. et al. Compositions, growth mechanisms, and temporal relations
of hydrothermal sulfide-sulfate-silica chimneys at the northern Cleft segment, Juan de Fuca Ridge // J. Geophys. Res. 1994. Vol.99, N. B3. P. 4813-4832.
330.Kostoglodov Vol.V., Kogan M.G., Magnitskay E.I. Isostasy of the Southern Mid-Atlantic Ridge: Long-Wavelength and Short-Wavelength Effects // Ibid.
1981. Vol. 86, N B9, P. 7825-7841.
331 .Kristoffersen J., Talwani M. Extinct triple junction south of Greenland and the Tertiary motion of Greenland relative to North America // Geol. Soc. Amer. Bull. 1977. Vol. 88. P. 1037-1049.
332.Kuo Forsyth D.W, Gravity anomalies of ridge-transform system in the South Atlantic between 31 and 34,5°S. Upwelling centers and variations in crustal thickness // Mar. Geophys. Res. 1988. Vol.
10. P. 205-232.
333.Lachenbruch A.H., Thompson G.A. Oceanic ridges and transform faults: Their intersection angles and resistance to plate motion // Earth Planet. Sci. Lett. 1972. Vol.l5.P. 116-122.
334.Lachenbruch A.H. Dynamics of a Passive Spreading Center//J. Geoph. Res. 1976. Vol. 81, N11.
335.Lagabrielle Y., Mamaloukas-Frangoulis Vol., Cannat M. et al. Vema Fracture Zone (Central Atlantic): Tectonic and Magmatic Evolution of the Median Ridge and the Eastern Ridge-Transform Intersection Domain // Ibid. 1992. Vol.97, N B12. P. 17331-17351.
336.Lalou C., Brichet E. Age and implication of East Pacific Rise sulfide deposits at 21°N // Nature. 1982. Vol. 300. P.169-171,
331.Lalou C., Brichert E„ Hekinian R. Age dating of sulfide deposits from axial and off axial structures on the East Pacific Rise near 12°50'N // Earth Planet. Sci. Lett.. 1985. Vol.75. P. 59-71.
338.Lalou C., Reyss J-L., Brichel E. et al. New age data for Mid-Atlantic Ridge hydrothermal sites: TAG and Snakepit chronology revisited // J. Geophys. Res. 1993. Vol. 98, N B6. P. 9705-9713.
339.Lalou C., Reyss J-L., Brichel E. et al. Hydrothermal activity on a 105-year scale at a slow-spreading ridge, TAG hydrothermal field, Mid-Atlantic Ridge 26° N // Ibid. 1995. Vol. 100,NB9.P. 17855-17862.
340.Lambeck K. Gravity anomalies over ocean ridges // Geophys. J. Roy. Astron. Soc. 1972. Vol. 30. P. 37-
53.
341 .Langmuir C.H., Bender J.F., Batiza R. Petrologic and tectonic segmentation of the East Pacific Rise, 5°30'N - 14 30' N // Nature. 1986. Vol. 322. P. 422-429.
342.Langseht M.G., Hobart M.A. Interpretation of heat flow measurements in the Vema fracture zone // Geophys. Res. Lett. 1976. Vol. 3, N 5.
343.Larson R.L., Pitman W.C., Golovchenko, Cande S.C. The Bedrock Geology of the World. N. Y.: Freeman, 1985.235 р.
344.Larson S.L. Near-Geologic studies of the East Pacific rise crest // Geol. Soc. Amer. Bull. 1971. Vol. 82. P. 823-842.
345 .Larter R.D., Barker P.F. Effects of Ridge Crest-Trench Interaction on Antarctic-Phoenix Spreading:
Forces on a Young Subducting Plate // J. Geophys. Res. 1991. Vol. 96. P. 19583-19607.
346. Lewis B.T.R. Isostasy, magma chambers and plate driving forces on the East Pacific Rise // Ibid. 1981. Vol. 86. P. 4868-4880.
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