한반도 남동부에 분포하는 에오세 경주 화강암체들은 양산단층과 울산단층을 따라 분포하며, 알칼리장석화강암(AGR), 흑운모화강암(BTGR), 각섬석흑운모화강섬록암으로 분류된다. 지화학적 특성에 따라 이들은 A-형 화강암 (AGR)과 I-형 화강암 (BTGR)로 분류되며, 상부맨틀 내의 같은 모마그마로부터 유래한 것으로 생각된다. AGR의 경우, 유색광물들 (각섬석, 흑운모)이 간극상으로 관찰되는데 이는 AGR 마그마의 결정화 동안 Fluorine (F)이 풍부한 유체가 유입되었을 것으로 생각된다. AGR은 친석원소와 (Sr, Ba 제외) 경희토류원소의 함량이 높으며, 이는 섭입대에서 유래한 유체의 영향으로 생각된다. 에오세 경주 화강암체 중 AGR의 가장 높은 고장력원소 함량과 저어콘포화온도는 마그마 결정분화보다는 부분용융의 영향으로 판단된다. 이들 특징들은 AGR의 높은 F 함량이 섭입슬랩에서 유래한 F이 풍부한 유체와 부분 용융의 영향을 나타내는 것으로 추정할 수 있다. 또한 이러한 결과는 이 연구에서 수행한 희토류원소와 Ba/Th 모델링과도 일치한다. 따라서 이 연구에서는 AGR은 BTGR의 부분용융과 섭입슬랩에서 유래한 F이 풍부한 유체의 유입의 영향이 합쳐져 형성된 것으로 판단하였다.

1 이미정, "경주 지역에 분포하는 화강암류에 대한 광물학적 및 지구화학적 연구" 서울大學校 大學院 1995

2 Charoy, B., "Zr-, Th-, and REErich biotite differentiates in the A-type granite pluton of Suzhou (Eastern China): the key role of fluorine" 35 : 919-962, 1994

3 Watson, E.B., "Zircon saturation revisited: temperature and composition effects in a variety of crustal magma types" 64 : 295-304, 1983

4 Pearce, J.A., "Trace element discrimination diagrams for the tectonic interpretation of granitic rocks" 25 : 956-983, 1984

5 Agangi, A., "The role of fluorine in the concentration and transport of lithophile trace elements in felsic magmas: Insights from the Gawler Range Volcanics" 273 : 314-325, 2010

6 Mushkin, A., "The petrogenesis of A-type magmas from the Amram Massif, southern Israel" 44 : 815-832, 2003

7 Li, H., "The geochemical characteristics of Haiyang A-type granite complex in Shandong, eastern China" 200 : 142-156, 2014

8 Rudnick, R.L., "The composition and petrogenesis of the lower crust: a xenolith study" 92 : 13981-14005, 1987

9 Eby, G.N., "The A-type granitoids: A review of their occurrence and chemical characteristics and speculations on their petrogenesis" 26 : 115-134, 1990

10 Hwang, B.H., "Tectonic implication of A-type granites across the Yangsan fault, Gigye and Gyeongju areas, Southeast Korean Peninsula" 49 : 1094-1102, 2007

11 Chough, S., "Tectonic and sedimentary evolution of a Cretaceous continental arc–backarc system in the Korean peninsula: new view" 101 : 225-249, 2010

12 Smith, J., "Storage of F and Cl in the upper mantle: geochemical implications" 14 : 133-147, 1981

13 Bohlen, S.R., "Stability of phlogopite-quartz and sanidine-quartz: a model for melting in the lower crust" 83 : 270-277, 1983

14 Hsu, L.C., "Selected phase relationships in the system Al-Mn-Fe-Si-OH: A model for garnet equilibria" 9 : 40-83, 1968

15 Anderson, J.L., "Proterozoic anorogenic granite plutonism of North America" 161 : 133-154, 1983

16 Banno, S., "Pressure-temperature trajectory of the Sanbagawa metamorphism deduced from garnet zoning" 19 : 51-63, 1986

17 Koh, J., "Petrology and geochemical characteristics of A-type granite with particular reference to the Gyeongju Granite, Kyeonju" 5 : 142-160, 1996

18 Kim, C.-S., "Petrogenesis of the early Tertiary A-type Gyeongju alkali granite in the Kyongsang Basin, Korea" 1 : 99-107, 1997

19 Anderson, I.C., "Petrogenesis of the Red Mountain pluton, Laramie anorthosite complex, Wyoming: implications for the origin of A-type granite" 124 : 243-267, 2003

20 Jiang, Y.H., "Petrogenesis of a Late Jurassic peraluminous volcanic complex and its high-Mg, potassic, quenched enclaves at Xiangshan, southeast China" 46 : 1121-1154, 2005

21 Nash, W., "Partition coefficients for trace elements in silicic magmas" 49 : 2309-2322, 1985

22 Chappell, B.W., "Origin of infracrustal (I-type) granite magmas" 79 : 71-86, 1988

23 Clemens, J.D., "Origin of an A-type granite: experimental constraints" 71 : 317-324, 1986

24 Collins, W., "Nature and origin of A-type granites with particular reference to southeastern Australia" 80 : 189-200, 1982

25 Lee, M.J., "Mineralogy and major element geochemistry of A-type alkali granite in the Kyeongju area, Korea" 31 : 583-607, 1995

26 Imaoka, T., "K-Ar age and geochemistry of the SW Japan Paleogene cauldron cluster: Implications for Eocene-Oligocene thermo-tectonic reactivation" 40 : 509-533, 2011

27 Miller, C.F., "Hot and cold granites? Implications of zircon saturation temperatures and preservation of inheritance" 31 : 529-532, 2003

28 Köhler, J., "Halogen and trace-element chemistry in the Gardar Province, South Greenland: Subduction-related mantle metasomatism and fluid exsolution from alkalic melts" 113 : 731-747, 2009

29 Pearce, J.A., "Geochemical mapping of the Mariana arc-basin system: Implications for the nature and distribution of subduction components" 6-, 2005

30 Patiño Douce, A.E., "Generation of metaluminous Atype granites by low-pressure melting of calc-alkaline granitoids" 25 : 743-746, 1997

31 Ellis, D.J., "Garnet-liquid Fe (super 2+)-Mg equilibria and implications for the beginning of melting in the crust and subduction zones" 286 : 765-791, 1986

32 Edgar, A.D., "Fluorine in igneous rocks and minerals with emphasis on ultrapotassic mafic and ultramafic magmas and their mantle source regions" 60 : 243-257, 1996

33 Turner, S.P., "Derivation of Some A-Type Magmas by Fractionation of Basaltic Magma - an Example from the Padthaway Ridge, South Australia" 28 : 151-179, 1992

34 Landenberger, B., "Derivation of A-type granites from a dehydrated charnockitic lower crust: Evidence from the Chaelundi complex, eastern Australia" 37 : 145-170, 1996

35 Cheong, A.C.-S., "Crustal evolution in the Gyeongsang Arc, southeastern Korea: Geochronological, geochemical and Sr-Nd-Hf isotopic constraints from granitoid rocks" 317 : 369-410, 2017

36 Bromiley, D.W., "Comparisons between fluoride and hydroxide incorporation in nominally anhydrous and fluorine-free mantle minerals" 71 : 124-, 2007

37 Sun, S.S., "Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes" 42 : 313-345, 1989

38 Eby, G.N., "Chemical Subdivision of the A-Type Granitoids - Petrogenetic and Tectonic Implications" 20 : 641-644, 1992

39 King, P.L., "Characterization and origin of aluminous A-type granites from the Lachlan Fold Belt, Southeastern Australia" 38 : 371-391, 1997

40 Loiselle, M., "Characteristics and origin of anorogenic granites" 468-, 1979

41 Delany, J.M., "Calculation of the thermodynamic consequences of dehydration in subducting oceanic crust to 100 kb and> 800 degrees C" 278 : 638-686, 1978

42 Arth, J.G., "Behavior of trace elements during magmatic processes: a summary of theoretical models and their applications" 4-, 1976

43 Pearce, J.A., "Back-Arc Spreading Systems: Geological, Biological, Chemical, and Physical Interactions" 63-86, 2006

44 Whalen, J.B., "Atype granites: geochemical characteristics, discrimination and petrogenesis" 95 : 407-419, 1987

45 Li, H., "Atype granite belts of two chemical subgroups in central eastern China: indication of ridge subduction" 150 : 26-36, 2012

46 Zhao, X.F., "Association of Neoproterozoic A-and I-type granites in South China: implications for generation of A-type granites in a subduction-related environment" 257 : 1-15, 2008

47 Yun, S.H., "Articles: Petrology and Geochemical Characteristics of the Granitic Rocks in Gyeongju Area, Kyeongju" 11 : 51-, 1990

48 Creaser, R.A., "A-type granites revisited: assessment of a residual-source model" 19 : 163-166, 1991

49 Wu, F.Y., "A-type granites in northeastern China: age and geochemical constraints on their petrogenesis" 187 : 143-173, 2002

50 Bonin, B., "A-type granites and related rocks: Evolution of a concept, problems and prospects" 97 : 1-29, 2007