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Pachell M.A., Evans J.P. Growth, linkage, and termination processes of a 10-km-long strike-slip fault in jointed granite: the Gemini fault zone, Sierra Nevada, California // Journal of Structural Geology. 2002. V. 24, № 12. P. 1903-1924.

Parfenov L.M., Natal'in B.A. Mecozoic accretion and collision tectonics of northeastern Asia. // Tectonostratigraphic terranes of the Circum-Pacific region. 1985. P. 363-374.

Parfenov L.M., Natapov L.M., Sokolov S.D.,Tsukanov N.V. Terrane analysis and accretion in North-East Asia. //The Island Arc. 1993. Vol. 2. no 1. P. 35-54.

Parfenov L.M. Accretionary history of northeast Asia // 1992 Proceedings International Conference on Arctic Margins. Ancourage, 1994. P. 183-188.

Park N.Y., Hwang D.H., Kim M.S., and Kim C.G., A study on geology, metallic mineral deposits and drilling exploration of the Chungmu-Goseong regionally mineralized area: Korea Institute of Energy and Resource Report KR-88-2A-1, 1988, p. 5-50, 100-119

Park J.-B, Kwon S.-T. Geochemical evolution of the Cheju volcanic island (II): trace element chemistry for stratigraphically-controlled lavas from the Northern Part of Cheju Island. //Jour. Geol. Soc. Korea. 1996. V.32. P. 223-249.

Patchett P.Y., Chase C.G. Role of transform continental margin in major crustal growth episodes. //Geology, 2002, vol. 30, no. 1, pp. 95-99.

Pearce J.A. Role of the sub-continental lithosphere in magma genesis at active continental margins // Continental basalts and mantle Xenoliths, Nantwich. Shiva Publ., 1983. P. 230-249.

Pearce J. A., Harris N. B. W., Tindle A. G. Trace element discrimination diagrams for the tectonic interpretation of granitic rocks // J. Petrol., 1984, v. 25. P. 956-983.

Pearce J.A., Parkinson U. Trace element model for mantle melting: application to volcanic arc petrogenesis // Magmatic Processes and Plate Tectonics. Geol. Soc. Special Public., 1993, № 76. P. 373-403.

Pearce J.A., Baker P.E., Harvey P.K., Luff I. W. Geochemical evidence for subduction fluxes, mantle melting and fractional crystallization beneath the South Sandwich island arc // Journal of Petrology, 1995, v. 32. № 4. P. 1073-1109.

Peccerillo R. and Taylor S.R. Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, northern Turkey // Contrib. Mineral. Petrol., 1976, v. 58, p. 63-81.

Peng Z.C., Zartman R.E., Futa K., Chen D.G. Sr- and Nd-isotopic systematics and chemical characteristics of Cenozoic basalts, eastern China. // Geology (Isotope Geosience Section). 1986. V.59. P.3-33.

Perchuk L.L., Podladchikov Yu.Yu., PolyakovA.N. PT-paths and geodynamic modelling of some metamorphic processes // J. Metamorphic. Geol. 1992. V. 10. P. 311-319.

Perepelov A.B., Antipin V.S. High potassic volcanism in Kamchatka in terms of geochemistry and geodynamics // Intern. Geol. Congress. Kyoto, Japan, 1992, v. 7. P. 2410.

Perepelov A., Antipin V., Kablukov A. Geochemistry, mineralogy, an geodymamic framework of late Cenozoic potassic alkaline basalts in western Kamchatka. // CD-ROM Abstracts Vol. 31th International Geological Congress. Symp. 6.8. Rio de Janeiro, Brasil. 2000.

Petrone C.M., Francalanci L., Carlson R.W. et al. Unusial coexistence of subduction-related and intraplate-type magmatism: Sr, Nd and Pb isotope and trace element data from the magmatism of the San Pedro-Ceboruco graben (Nayarit, Mexico) // Chem. Geol., 2002, v. 193, P. 1-24.

Philpotts A.R. Origin of certain iron-titanium oxide and apatite rocks // Есоn. Geol., 1967. V. 62, № 3. Р. 303-315.

Plafker G. Regional geology and tectonic evolution of Alaska and adjacent parts of the Northeast Pacific Ocean Margin. //Proceeding of the Pacific Rim Congress 90, Australasian Instituteof Mining and Metalurgy, Queensland, Australia, pp. 841-853.

Platt J.P., Legett J.K., Yuong J. et al. Large-scale sediment underplating in the Macran accretionary prism. //Geology, 1985, vol. 13, pp. 507-511.

Polin V.F. & Moll-Stalcup E.J. Petrological and Geochemical Criteria for Tectonic Environment of the Chukchi Segment in Okhotsk-Chukchi Volkanic Belt // Geol. of Pacific Ocean, V. 16. pp. 607-642. Popp R.K., Gelbert M.Ch., Craig I.R. Stability of Fe-Mg amphiboles with respect to oxygen fugacity // Amer. Miner., 1977, vol. 62, № 1/2. P. 1-12.

Pouclet A., Lee J., Vidal P., Cousens В., Beflon H. Cretaceous to Cenozoic volcanism in South volcanism associated with extension at consuming Plate Margin. Geol. Soc. Spec. Publ. 1995. №81. P. 169-191.

Pratt, W.P., ed., 1981, Metallic mineral-resource potential of the Rolla quadrangle, Missouri, as appraised in September 1980: U.S. Geological Survey Open-File Report 81-518, 77 p., 11 plates, scale 1:250,000. Pre-Cretaceous terranes of Japan. Ichikawa K., Mizutani S., Hara I., Yao A. (eds.). Pub. of IGCP Project No. 224. Osaka, 1990, 382 p.

Pruner P. Palaeomagnetism and palaeogeography of Mongolia in the Cretaceous, Permian and Carboniferous-preliminary data. //Tectonophysics, 1987, No 139, pp.155-167.

Pushkarev Y.D., Kostoyanov A.I., Orlova M.P. et al. Sm-Nd, Rb-Sr, K-Ar and Re-Os isotopic constraints on the origin of PGE mineralization in the Konder massif, Khabarov region, Russia // Mineral Deposits at the Beginning of the 21 st Century, 2001. Swets and Zeitlinger Publishers Lisse, ISBN 90 2651 846 3.

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