참고문헌 (19)

1. 고보균, 원종관, 이문원, 손인석, 2000, 제주도 사라봉-별도봉-화북봉 일원의 화산층서 및 화산암의 특성. 한국지구과학회 2000년도 추계학술발표 논문요약집, 94p. 

2. 고보균, 원종관, 이문원, 손인석, 2001, 제주도 사라봉-별도봉-화북봉 일원의 화산층서와 화산암의 특성. 한국지구과학회지, 22(1), 1-9. 

3. 김상욱, 황상구, 양판석, 이윤종, 고인석, 1999, 채약산 현무암질암류의 암석학적인 특징 및 각섬석 지질압력계의 적용. 암석학회지, 8(2), 92-105. 

4. 박기화, 이병주, 조등룡, 김정찬, 이승렬, 김유봉, 최현일, 황재하, 송교영, 최범영, 조병욱, 1998, 제주.애월도폭 지질보고서(1:50,000). 제주도, 한국자원연구소, 290 p. 

5. Anderson, J.L. and Smith, D.R., 1995, The effects of temperature and oxygen fugacity on the Al-in hornblende barometer. American Mineralogist, 80, 549-559. 

6. Best, M.G., 1970, Kaersutite-peridotite inclusions and kindred megacrysts in basanitic lavas, Grand Canyon, Arizona. Contributions to Mineralogy and Petrology, 27, 25-44. 

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7. Best, M.G., 1974, Mantle-derived amphibole within inclusions in alkali basaltic lavas. Journal of Geophysical Research, 79, 2107-2113. 

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8. Binns, R.A., Duggan, M.B. and Wilkinson J.F.G., 1970, High pressure megacrysts in alkaline lavas from northeastern New South Wales with chemical analyses by G.I.Z. Kalocsai, American Journal of Science, 269, 132-168. 

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9. Cross, C. and J. R. Holloway, 1974, A megacryst bearing alkali basalt, San Carlos, Arizona. Geological Society of America Abstracts with Programs, 6, 437. 

10. Dawson, J.B., 1984, Contrasting types of upper mantle metasomatism?. In Kornprobst, J. (Ed.) Developments in Petrology, vol. II: Kimberlites. Elsevier Science, Amsterdam, 289-294. 

11. Droop, G.T.R., 1987, A general equation for estimating $Fe^{3+}$ concentrations in ferromagnesian silicates and oxides from microprobe analyses, using stoichiometric criteria. Mineralogical Magazine, 51, 431-435. 

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12. Harte, B., 1983, Mantle peridotites and processes: The kimberlite sample. In C.J. Hawkesworth and M.J. Norry, Eds., Continental basalts and mantle xenoliths, Shiva, Nantwich, U.K., 46-91. 

13. Johnson, M.C. and Rutherford, M.J., 1989, Experimental calibration of the aluminum- in-hornblende geobarometer with application to Long Valley caldera(California) volcanic rocks. Geology, 17(9), 837-841. 

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14. Merrill, R.B. and Wyllie, P.J., 1975, Kaersutite and kaersutite eclogite from Kakanuii, New Zealand: Water-excess and water-deficient melting to 30 kilobars. Geological Society of America Bulletin, 86, 555-570. 

    

15. Popp, R.K., Virgo, D., Yoder, H.S.Jr., Hoering, T.C. and Phillips, M.W., 1995, An experimental study of phase equilibria and Fe oxy-component in kaersutitic amphibole: Implications for the $f_{H2}$ and $a_{H2O}$ in the upper mantle. American Mineralogist, 80, 534-548. 

16. Robinson, P., Spear, F.S., Schumacher, J.C., Laird, J., Klein, C., Evans, B.W. and Doolan, B.L., 1982, Phase relations of metamorphic amphiboles: Natural occurrence and theory, in Veblen, D.R. and Ribbe, P.H. ed., Amphiboles: Petrology and experimental phase relations. Reviews in Mineralogy, 9B. 1-227. 

17. Rutherford, M.J., 1993, Experimental Petrology applied to volcanic precess. EOS, 74(5), 49, 55. 

18. Wilkinson, J.EG. and LeMaitre, RW., 1987, Upper mantle amphiboles and micas, and $TiO_{2}$ $K_{2}O$ , and $P_{2}O_{5}$ abundances, and 100Mg/ $(Mg+Fe^{2+})$ ratios of common basalts and andesites: Implications for modal mantle metasomatism and undepleted mantle com- positions. Journal of Petrology, 28(1), 37-73. 

    

19. Wilshire, H.G. and Shervais, J.W., 1975, Al-augite and Crdiopside ultramafic xenoliths in basaltic rocks from western United States: Structural and textural relationships. Physics and Chemistry of the Earth, 9, 257-272. 

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