참고문헌 (29)

1. Cookenboo, H.O., Bustin, R.M. and Wilks, K.R., 1997.？Detrital chromian spinel compositions used to reconstruct？the tectonic setting of provenance; implications for？orogeny in the Canadian Cordillera. Journal of Sedimentary？Research, 67(1), pp. 116-123. 

2. Chang, K.H., Suzuki, K., Park, S.O., Ishida, K. and Uno,？K., 2003. Recent advances in the Cretaceous stratigraphy？of Korea. Journal of Asian Earth Sciences, 21(8), pp.？937-948. 

   상세보기

3. Dick, H.J. and Bullen, T., 1984. Chromian spinel as a？petrogenetic indicator in abyssal and alpine-type peridotites？and spatially associated lavas. Contributions to mineralogy？and petrology, 86, pp. 54-76. 

   상세보기

4. Hisada, K.I., Arai, S. and Il Lee, Y., 1999. Tectonic？implication of Lower Cretaceous chromian spinel-bearing？sandstones in Japan and Korea. Island Arc, 8(3), pp.？336-348. 

   상세보기

5. Hori, R., 1990, September. 905. Lower Jurassic radiolarian？zones of southwest Japan. In Transactions and proceedings？of the Paleontological Society of Japan. New series？(Vol. 1990, No. 159, pp. 562-586). Palaeontological？Society of Japan. 

6. Joo, Y.J., Lee, Y.I. and Hisada, K.I., 2007. Provenance of？Jurassic accretionary complex: Mino terrane, inner zone？of south-west Japan-implications for palaeogeography of？eastern Asia. Sedimentology, 54(3), pp. 515-543. 

   상세보기

7. Kagami, H., Kawano, Y., Akiyama, M., Ikawa, T., Imaoka,？T., Ishioka, J., Toyoshima, T., Hamamoto, T., Hayasaka,？Y., Ikeda, Y. and Yuhara, M., 2006. Provenance of？Paleozoic-Mesozoic sedimentary rocks in the Inner？Zone of Southwest Japan: an evaluation based on Nd？model ages. Gondwana Research, 9(1-2), pp. 142-151. 

8. Kamata, Y., Hisada, K. and Lee, Y.I., 2000. Late Jurassic？radiolarians from pebbles of Lower Cretaceous？conglomerates of the Hayang Group, southeastern？Korea. Geosciences Journal, 4, pp. 165-174. 

9. Kamikubo, H. and Takeuchi, M., 2011. Detrital heavy？minerals from Lower Jurassic clastic rocks in the Joetsu？area, central Japan: Paleo-Mesozoic tectonics in the East？Asian continental margin constrained by limited chloritoid？occurrences in Japan. Island Arc, 20(2), pp. 221-247. 

10. Kawano, Y., Akiyama, M., Ikawa, T., Roser, B.P., Imaoka,？T., Ishioka, J., Yuhara, M., Hamamoto, T., Hayasaka, Y.？and Kagami, H., 2006. Whole rock geochemistry and？Sr isotopic compositions of Phanerozoic sedimentary？rocks in the Inner Zone of the Southwest Japan Arc.？Gondwana Research, 9(1-2), pp. 126-141. 

11. Khedr, M.Z. and Arai, S., 2012. Petrology and geochemistry？of prograde deserpentinized peridotites from Happo-O'ne, Japan: Evidence of element mobility during？deserpentinization. Journal of Asian Earth Sciences,？43(1), pp. 150-163. 

    상세보기

12. Kim, J., Cho, M. and Kim, H.S., 1994. Metamorphism of？the Hongjesa granite and the adjacent metasedimentary？rocks: Magmatism and metamorphism of the Proterozoic？in the northeastern part of Korea. Journal of the？Petrological Society of Korea, 3(1), pp. 94-108. 

    상세보기

13. Kim, Y., Lee, Y.I. and Hisada, K.I., 2007. Provenance of？quartzarenite clasts in the Tetori Group (Middle Jurassic？to Early Cretaceous), Japan: Paleogeographic implications.？Journal of Asian Earth Sciences, 29(1), pp. 116-126. 

    상세보기

14. Kimura, K. and Hori, R., 1993. Offscraping accretion of？Jurassic chert-clastic complexes in the Mino-Tamba Belt,？central Japan. Journal of Structural Geology, 15(2), pp.？145-161. 

    상세보기

15. Kwon, Y.W., Oh, C.W. and Kim, H.S., 2003. Granulite-facies metamorphism in the Punggi area, northeastern？Yeongnam Massif, Korea and its tectonic implications？for east Asia. Precambrian Research, 122(1-4), pp. 253-273. 

16. Lee, B.C., Oh, C.W. and Wang, X., 2020. Paleoproterozoic？(ca. 1.87-1.69 Ga) arc-related tectonothermal events on？northcentral Yeongnam Massif, South Korea and its？tectonic implications: Insights from metamorphism,？geochemistry and geochronology. Precambrian Research,？338, p. 105562. 

    상세보기

17. Lee, S.M., Kim, H.S. and Oh, I.S., 1986. Metamorphic？petrology of Precambrian gneisses in Samcheok-Jukbyeon？area. Journal of the Geological Society of Korea, 22(3),？pp. 257-277. 

18. Lee, Y., Cho, M., Kim, T. and Kim, H., 2021. Incipient？charnockite formation at the waning stage of Paleoproterozoic hot orogenesis, Yeongnam Massif, Korea.？Precambrian Research, 365, p. 106388. 

    상세보기

19. Lee, Y.I., Lee, J.I. and Choi, Y.S., 2023. Provenance？analysis of the Cretaceous Gyeongsang Basin, SE？Korea: A synthesis and tectonic implications for active？continental margin in East Asia. Earth-Science Reviews,？p. 104334. 

20. Lippard S. J., Shelton A. W. and Gass I. G. 1986. The？Ophiolite of Northern Oman. Geological Society of？London Memoir no. 11. 178 

21. Mange, M.A. and Morton, A.C., 2007. Geochemistry of？heavy minerals. Developments in sedimentology, 58, pp.？345-391. 

    상세보기

22. Matsuda, T. and Isozaki, Y., 1991. Well-documented travel？history of Mesozoic pelagic chert in Japan: From remote？ocean to subduction zone. Tectonics, 10(2), pp. 475-499. 

    상세보기

23. Mitsugi, T., Ishida, K., Woo, B.-G., Chang, K.-H., Pak,？S.O. and Hirano, H., 2001. Radiolarian-bearing？conglomerate from the Hayang Group, the Kyongsang？Supergroup, southeastern Korea. Journal of Asian Earth？Sciences, 19, pp. 751-763. 

24. Morton, A.C., 1991. Geochemical studies of detrital heavy？minerals and their application to provenance research.？Geological Society, London, Special Publications, 57(1),？pp. 31-45. 

25. Morton, A.C. and Hallsworth, C.R., 1999. Processes？controlling the composition of heavy mineral assemblages？in sandstones. Sedimentary geology, 124(1-4), pp. 3-29. 

26. Press, S., 1986. Detrital spinels from alpine type source？rocks in Middle Devonian sediments of the Rhenish？Massif. Geologische Rundschau, 75, pp. 333-340. 

27. Stern, R.J., Reagan, M., Ishizuka, O., Ohara, Y. and？Whattam, S., 2012. To understand subduction initiation,？study forearc crust: To understand forearc crust, study？ophiolites. Lithosphere, 4(6), pp. 469-483. 

28. Wakita, K., 2001. Middle Mesozoic accretionary complex？of the Mino terrane, and Paleozoic to Mesozoic？sedimentary rocks of the Hida marginal belt. ISRGA？Field guidebook for Major geologic units of Southwest？Japan, pp. 165-236. 

29. Yao, A., Matsuda, T. and Isozaki, Y., 1980. Triassic and？Jurassic Radiolarians from the Inuyama Area, Central.？Journal of Geosciences Osaka City University, 23, pp.？135-154.