Abdel-Rahman A. M., 1994. Nature of biotites frrom alkaline, calc-alkaline, and peraluminous magma: J. of Petrology, v. 35, p525-541.
Arth, J. G. and Hanson, G. N., 1975. Geochemistry and origin of the Early Precambrian crust of north-eastern Minnesota: Geochim. Cosmochim. Acta 39, p325-362.
Chappell, B. W., and White, A. J. R., 1974. Two contrasting granite types: Pacific Geol., v. 8, p173-174.
Crawford, A. J., Beccaluva, L. and Serri, G., 1981. Tectonomagmatic evolution of the West Philippine-Mariana region and the origin of boninites. Earth planet. Sci. Lett., v. 54, p346-356.
Deer, W. A., Howie, R. A. and Zussman, J., 1992. An introduction to rock —forming minerals, 2nd edition, p696.
Defant, M. J., and Drummond , M. S., 1990. Derivation of some modern arc magmas by melting of young subducted lithosphere: Nature, v. 347, p662-665.
Defant, M. J., Jackson, T. E., Drummond , M. S., De Boer, J. Z., Bellon, H., Feigenson, M. D., Maury, R. C. and Stewart, R. H., 1992. The geochemistry of young volcanism throughout western Panama and southeastern Costa Rica: an overview. J. Geol. Soc. (London), v. 149, p569-579.
Defant, M. J., and Drummond , M. S., 1993. Mount St. Helens: potential example of the partial melting of the subducted lithosphere in a volcanic arc. Geology 21, p547-550.
Dewey, J. F., 1976. Ophiolite obduction: Tectonics, v. 31, p93-120.
Drummond, M. S., and Defant, M. J., 1990. A model for trondhjemite-tonalite-dacite genesis and crustal growth via slab melting: Archaean to modern comparisons: J. Geophys. Res. 95, p21503-21521.
Ishihara, S., 1977. The magnetite- series and ilmenite- series granitic rocks: Mining Geology, 27, p293- 305.
Jarrard, R. D., 1986. Relations among subduction parameters. Rev. Geophys. v. 24, p217-284.
Karig, D. E., 1971. Origin and development of marginal basins in the western Pacific: J. Geophys. Res., v. 76, p2542-2561.
Kay, R. W., 1978. Aleutian magnesian andesites: melts from subducted Pacific Ocean crust: J. Volcanol. Geotherm. Res. 4, p117-132.
Kepezhinskas, P. K., 1989. Origin of the hornblende andesites of northern Kamchatka: Int. Geol. Rev. 31, p246-252.
Loiselle, M. C. and Wones, D. R., 1979. Characteristics and orogin of anorogenic granites: Geol. Soc. Am. Abs. with Prog., 11, p468.
Maniar, P. D. and Piccoli, P. M., 1989. Tectonic discrimination of granitoids: Geological society of America Bulletin. v. 101, p635-643.
Martin, H., 1986. Effect of steeper Archaean geothermal gradient on geochemistry of subduction-zone magmas.: Geology, v.14 ,p753-756.
Martin, H., 1995. The Archaean grey gneisses and the genesis of the continental crust. In: Condie, K. C. (Ed.), The Archaean Crustal Evolution. Elsevier, p205-259.
Martin, H., 1999. Adakitic magmas: modern analogues of Archaean granitoids: Lithos, v. 46, p411-429.
Martin, R. F. and Piwinskii, A. J., 1972. Magmatism and tectonic settings: J. Geophy. Res., v. 77, p4966-4975.
Middlemost, E. A. K., 1994. Naming materials in the magma/igneous rock system: Devonian magmatism in New Zealand and correlations with Autralia: correlation with mantle metasomatism: Cotrib. Mine. Petrol., v. 87, p220-230.
Morimoto, N., 1988. Nomenclature of pyroxenes: American Mineralogist, v. 73, p1123-1133.
Morris, P. A., 1995. Slab melting as an explanation of Quaternary volcanism and aseismicity in southwestern Japan: Geology, v.23, p395-398.
Peacock, M. A., 1931. Classification of igneous rock series: J. Geol. v. 39, p54-67.
Pearce, J. A., Harris, N. B. W. and Tindle, A. G., 1984. Trace element discrimination diagrams for the tectonic interpretation of granitic rocks: J. Petrol., v. 25, p956-983.
Peccerillo , A. & S. R. Taylor, 1976. Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, northen Turkey: Contrib. Mineral. Petrol., v. 58, p63-81.
Pitcher, W. S., 1979. The nature, ascent, and emplacement of granitic magmas: J. Geol. Soc. Lond., 136, p627- 662
Pitcher, W. S., 1983. Granite type and tectonic environment, In: Mountain Building Process, ed. K. Hsu,Academic Press, London, p19-40.
Pitcher, W. S., 1997. The nature and origin of granite: Chapman & Hall, 2nd edition, p387.
Read, H. H., 1957. The Granite Controversy. Thomas Murby and Co., London, 430p.
Sajona, F. G. Bellon, H., Maury, R. C., Pubellier, M., Quebral, R. D., Cotton, J., Bayon, F. E., Pagado, E. and Pamatian, P., 1996. Tertiary and Quaternary magmatism in Mindanao and Leyte (Philippines: geochronology, geochemistry and tectonic setting.): J. SE Asian Earth Sci., in press.
Saunders, A. D., Tarney, J., Stern, C. and Dalziel, I. W. D., 1979. Geochemistry of Mesozoic mariginal basin floor igneous rocks from southern Chile: Bull. Geol. Soc. Am., v.90, p237-258.
Saunders, A. D., Rogers, G., Marriner, G. F., Terrell, D. J. and Verma, S. P., 1987. Geochemistry of Cenozoic volcanic rocks, Baja California, Mexico: implications for the petrogenesis of post-subduction magmas: J. Volcanol. Geotherm. Res. 32, p223-245.
Sigmarsson, O., Martin, H. and Knowles, J., 1998. Melting of a subducting oceanic crust in Austral Andean lavas from U- series disequilibria: Nature, v. 394, p566-569.
Smith, T. E. M., Taylor, S. R. and Johnson, R. W.,1979. REE-fractionated trachytes and dacites from Papua New Guinea and their relationship to andesite petrogenesis: Contrib. Mineral. Petrol. v.69 , p227-233.
Streckeisen, A. 1976. To each plutonic rock its proper name. Earth Science Reviews, v. 12, p1-33.
Sun, S. S. 1980. Lead isotopic study of young volcanic rocks from mid-ocean ridge, ocean islands and island arcs. Phil Trans R. Soc. Lond. A297, p409-445.
Sun, S. S. and McDonough, W. F., 1989. Chemical and isotopic systematic of oceanic basalts: implications for mantle composition and processes. Magmatism in the Ocean Basins, ed. A. D. Sanders and M. J. Norry, Geol. Soc. Spec. Pub., v. 42, p313-345.
Taylor, B. and Karner, G. D., 1983. On the evolution of marginal basins: Rev. Geophy. v. 21, p1727-1741.
Thompson, R. N., Morrison, M. A.,Hendry, G. L. and Parry, S. J., 1984. An assessment of the relative roles of a crust and mantle in magma genesis. an elemental approach: Phil Trans R. Soc. Land. A310, p549-590.
Whalen, J. B., Currie K. L., and Chappell, B. W., 1987. A-type granites: geochemical characteristics, discrimination and petrogenesis: Contrib. Mineral Petrol., v. 98, p407-419.
White, A. J. R. and Chappell, B. W., 1977. Ultrametamorphism and granitoid genesis: Tectonophysics, 43, p7-22.
White, A. J. R. and Chappell, B. W., 1983. Granitoid types and their distribution in the Lachlan Fold Belt, southeastern Australia: Geol. Soc. Am. Mem., 159, p21-34.
Wu Han-Quan, Feng Yimin And Song Suguang 1993. Metamorphism and Deformation of blueschist belts and their tectonic implications, North Qilian Mountains, China. J. metamorphic geology., v. 11, p523-536
Zhand Z. -M., Liou J. -G. and Coleman R. G. 1984. An outline of the plate tectonics of China: Geological society of America bulletin, v. 95, p295-312
王中剛、于學元、趙振華(1989) 稀土元素地球化學,科學出版社,共535頁。
王延印、劉金坤(1988) 青海湟源新店花岡岩體的成因及構造含意,蘭州大學學報,第24卷,第44-51頁。
王荃、劉雪亞(1976) 我國西部祁連山地區的古海洋地殼及大地構造意義:地質科學,第一期,第42-55頁。
甘肅省地質礦產局(1989) 甘肅區域地質誌。
左國朝、劉寄陳(1987) 北祁連早古生代大地構造演化:地質科學,1987(1),第14-24頁。
李春昱(1975) 用板塊構造學說對中國部分地區構造發展的初步分析:地球物理學報,18(1),第52-76頁。
李春昱、劉仰文、朱寶清、馮益民、吳漢全(1978) 秦嶺及祁連山構造演化史:《國際交流地質學術論文集》(1),第174-187頁。
肖序常、陳國銘、朱志直(1978) 祁連山古蛇綠岩的地質構造意義:地質學報,54(1),第287-295頁。
吳漢泉(1980) 東秦嶺和北祁連山的藍閃片岩:地質學報,54(3),第195-207頁。
吳漢泉、馮益民等人(1991) 甘肅玉門昌馬地區的藍閃片岩:中國地質科學院西安地質礦產所所刊,32,第1-13頁。
吳漢泉、宋述光(1992) 北祁連山兩種類型藍片岩及其構造特徵:《現代地質研究文集》(上),南京:南京大學出版社。
許志琴、徐惠芬、張建新等人(1994) 北祁連走廊南山加里東俯衝雜岩增生地體及其動力學:地質學報,68(1),第1-15頁。
黃汲清、張正坤、張之孟、陳國銘(1965) 中國的優地槽和冒地槽以及他們的多旋回發展:北京:中國工業出版社。
張子健(1998) SPOT衛星影像應用於地質判釋之研究-以中國西北毛毛山、老虎山地區為例:國立成功大學地球科學研究所碩士論文,共97頁。張建新、許志琴、李海兵、徐惠芬(1997) 北祁連加里東造山帶從擠壓到伸張造山機制的轉換:長春地質學院學報,v.27,no.3,第277-283頁。
溫大任(1996) 祁連褶皺帶中段花岡岩類之岩石學、元素及鍶、釹同位素地球化學研究:國立成功大學地球科學研究所碩士論文,共95頁。馮益民、吳漢泉(1992) 北祁連山及其鄰區古生代以來的大地構造演化初探: 西北地質科學,13(2),第61-74頁。
馮益民、何世平(1995) 祁連山及其鄰區大地構造基本特徵-兼論早古生代海相火山岩的成因環境:岩石學報,(11),第125-146頁。
馮益民、何世平(1996) 祁連山大地構造與造山作用:地質出版社,共135頁。
夏林圻、夏祖春(1991) 北祁連山石灰溝奧陶紀島弧火山岩系岩漿性質的確定:岩石礦物學雜誌,第10卷,第1期,第1-10頁。
夏林圻、夏祖春、徐學義(1995) 北祁連山構造-火山岩漿演化動力學:西北地質科學,第16卷,第1號,第1-26頁。
夏林圻、夏祖春、徐學義(1996) 北祁連山海相火山岩岩石成因:地質出版社,共153頁。
夏林圻、夏祖春、徐學義(1998) 北祁連山早古生代洋脊-洋島和弧後盆地火山作用:地質學報,第72卷,第4期,第301-311頁。
錢青、王岳明、李惠民、賈秀琴、韓松、張旗(1998) 甘肅老虎山閃長岩的地球化學特徵及其成因:岩石學報,第14卷,第四期,第520-528頁。