The Journal of the Petrological Society of Korea (암석학회지)

The Petrological Society of Korea (한국암석학회)
권호 표지
DOI QR코드

DOI QR Code

A Comparative Study on the Whole Rock Magnetic Susceptibility and SHRIMP Zircon U-Pb Geochronology of the Domestic Dimension Stone and Chinese similar Dimension Stone

전암대자율 특성과 SHRIMP 저어콘 U-Pb 연대 측정을 통한 국내 석재와 중국 유사 석재의 비교 연구

  • Kim, Kun-Ki (Geochang Granite Research Center) ;
  • Jwa, Yong-Joo (Department of Geological Science, Gyeongsang National University) ;
  • Hong, Sei-Sun (Korea Institute of Geoscience & Mineral Resources (KIGAM)) ;
  • Lee, Ki-Wook (Korea Basic Science Institute, Ochang Center)
  • 김건기 (거창화강석연구센터) ;
  • 좌용주 (경상대학교 지질과학과) ;
  • 홍세선 (한국지질자원연구원 국토지질연구본부) ;
  • 이기욱 (한국기초과학지원연구원 환경소재분석본부)
  • Received : 2015.07.27
  • Accepted : 2015.08.12
  • Published : 2015.09.30
Download PDF
⟨ Previous Next ⟩

Abstract

This study used the petrological features and the whole rock susceptibility characteristics suggest ways to determine the domestic dimension stones and Chinese similar dimension stones. In addition, this study compare the intrusive period by measuring the zircon U-Pb age of these stones. Result of comparing the petrological feature, with the exception of Macheon stone and Boryeong stone to show the differences in mineral composition and texture under a microscope, the domestic dimension stones and Chinese similar dimension stones exhibit substantially the same petrological feature. According to the measurement results for the whole rock magnetic susceptibility, Goheong, Iksan, Pocheon stones are the similar as Chinese dimension stones, and other stones are easily distinguished. The zircon U-Pb age results for Geochang, Iksan, and Pocheon stones are equivalent to the Jurassic Daebo granites and G603, G633, G655 are the Cretaceous granites. Therefore, the domestic dimension stones and Chinese similar dimension stones can be clearly determined by the zircon U-Pb age results.

이 연구는 석재의 암석학적 특징과 전암대자율 특성을 이용하여 국내 석재와 중국 유사 석재를 구별할 수 있는 방법을 제안하고자 한다. 또한 국내에서 가장 많이 사용되고 있는 석재와 중국 유사 석재에 대하여 저어콘 U-Pb 연대를 측정하여 관입시기를 비교하여 추가적인 구별 기준을 제시하고자 하였다. 암석학적 특징을 비교한 결과, 현미경하에서 광물조성과 조직의 차이를 보이는 마천석과 보령석을 제외하고, 색상, 조직, 그리고 광물조성에서 국내석재와 중국 석재는 거의 유사한 특징을 보인다. 전암대자율 측정결과, 고흥석, 익산석, 포천석은 중국석재와 유사하며, 다른 석재들은 전암대자율 측정을 통해 쉽게 구별된다. 거창석, 익산석, 그리고 포천석의 저어콘 U-Pb 연대측정 결과 쥐라기 화강암에 해당하며, 중국 유사 석재인 G603, G633, G655은 백악기 화강암에 해당한다. 따라서 이들은 연대측정 결과로 쉽게 판별할 수 있다.

Keywords

References

  1. Charvet, J., Lapierre, H. and Yu, Y., 1994. Geodynamic significance of the Mesozoic volcanism of southeastern China. Journal of Southeast Asian Earth Sciences 9, 387-396. https://doi.org/10.1016/0743-9547(94)90050-7
  2. Cheong, C.S. and Kim, N.H, 2012, Review of radiometric ages for Phanerozoic granitoids in Southern Korean Peninsula. Journal of Petrology Society Korea, 21, 173-192 (in Korean with English abstract). https://doi.org/10.7854/JPSK.2012.21.2.173
  3. Choi, P.Y., Choi, H.I., Hwang, J.H., Kee, W.S., Koh, H.J., Kim, Y.B., Lee, B.J., Song, K.Y., Kim, J.C. and Choi, Y.S., 2002, Geologic report of the Mokpo-Yeosu sheet(1:250,000). Korea Institute of Geoscience and Mineral Resources, 45p (in Korean with English abstract).
  4. Chung, C.H. and Ko, S.J., 1963, Geological report of the Hamyeol sheet(1:50,000). Geological Survey of Korea, 30p.
  5. Han M., Kim S.-W., Lee K.-W. and Kim J.-S, 2010, Petrological study of the dioritic and granitic rocks from Geochang area(abstract). Proceedings of the Annual Joint Conference, Petrological Society of Korea and Mineralogical Society of Korea, 123-126.
  6. Hong, S.H. and Hwang, S.K., 1984, Geological report of the Gurye sheet(1:50,000). Korea Institute of Energy and Resources, 22p.
  7. Hong, S.-S, 2004, Magnetic susceptibility and petrochemical compositions of Mesozoic granites in Korea. Journal of Petrology Society Korea, 13, 16-33 (in Korean with English abstract).
  8. Hong, S.S., Kim, Y,J. and Kim, J.B., 1988, Petrochemical study on Namweon granite body in the Namweon area. Journal of Petrology Society Korea, 24, 132-146 (in Korean with English abstract).
  9. Hong, S.-S., Yun, H.-S. and Lee, B.-T., 2004, Correlation of mineralogical and textural properties with mechanical qualities of granite dimension stone from the Namwon area, Korea. The Journal of Engineering Geology, 14, 105-121 (in Korean with English abstract).
  10. Hong, S.-S., Lee, B.-T., Yun, H.-S., Lee, C.-O., Kim, K.-S., Kim, J.-Y., Yang, D.-Y., Kim, J.-C. and Lee, J.-Y., 2007, Dimension stones of Korea. Korea institute of Geoscience & Mineral Resources, 355p (in Korean with English abstract).
  11. Hwang, J.H. and Kim, Y.H., 2007, Geological report of the Jipori sheet(1:50,000). Korea Institute of Geoscience and Mineral Resources, 54p.
  12. Hwang, S.-K., 2000, Andong batholith. 2000 Field Guide Book of the Petrological Society of Korea, 55p (in Korean with English abstract).
  13. Hwang, S.-K., Chang, T.-W., Kim, J.-M., An, U.-S. and Lee, B.-H., 2002, Lithofacies and multiphase emplacement in the Andong batholith. Journal of Geology Society Korea, 38, 51-65 (in Korean with English abstract).
  14. Jwa, Y.-J., Choi, J.B., Kim, K.-K., Kim, K.-J. and Hwang, K.C., 2007, Quality standard of the Geochang granite stone. Journal of Petrology Society Korea, 16, 38-45 (in Korean).
  15. Kee, W.-S., Cho, D.-L, Kim, B.C. and Jin, K.M, 2005, Geological report of the Pocheon sheet(1:50,000). Korea Institute of Geoscience and Mineral Resources, 66p.
  16. Kee, W.-S., Lim, S.-B., Kim, H.C. and Kim, B.C., 2008, Geological report of the Yeoncheon sheet(1:50,000). Korea Institute of Geoscience and Mineral Resources, 83p.
  17. Kihm, Y.H. and Hwang, J.H., 2011, Geological report of the Gangneung-Jumunjin sheet(1:50,000). Korea Institute of Geoscience and Mineral Resources, 62p.
  18. Kim, D.H. and Lee, B.J., 1984, Geological report of the Namweon sheet(1:50,000). Korean Institute of Energy and Resources, 40p.
  19. Kim, O.J., Hong, M.S., Kyu, S.Y., Park, H.I., Park, Y.D., Kim, K.T., Lee, H.Y. and Yoon, S., 1964, Geological report of the Unbong sheet(1:50,000). Gyeongsangnamdo, 18p.
  20. Kim, K.B., Choi, W.C., Hwang, J.H. and Kim, J.H., 1984, Geological report of the Osu sheet(1:50,000). Korea Institute of Energy and Resources, 38p.
  21. Kim, N.J. and Kim, J.H., 1970, Geological report of the Geochang sheet(1:50,000). Geological Survey of Korea, 14p.
  22. Kim, S.W., Kwon, S., Koh, H.J., Yi, K., Jeong, Y.-J. and Santosh, M., 2011, Geotectonic framework of Permo-Triassic magmatism within the Korean Peninsula. Gondwana Research, 20, 865-889. https://doi.org/10.1016/j.gr.2011.05.005
  23. Kim, Y.J., Cho, D.L. and Park, Y.S., 1989, K-Ar ages and major mineral compositions of the Mesozoic igneous rocks in the vicinity of the Geochang Area. Journal of Korean Institute Mining Geology, 22. 117-127 (in Korean with English abstract).
  24. Kwon, S.T., Lan, C.Y. and Lee, T., 1999, Rb-Sr and Sm-Nd isotopic study of the Seoul granitic batholith in middle Korea. Geosciences journal, 3, 107-114. https://doi.org/10.1007/BF02914266
  25. Lan, C.Y., Jahn, B.M., Mertzman, S.A. and Wu, T.W., 1996, Subduction-related granitic rocks of Taiwan. Journal of Southeast Asian Earth Sciences 14, 11-28. https://doi.org/10.1016/S0743-9547(96)00017-7
  26. Lapierre, H., Jahn, B.M., Charvet, J. and Yu, Y.W., 1997, Mesozoic magmatism in Zhejiang province and its relation with the tectonic activities in SE China. Tectonophysics, 274, 321-338. https://doi.org/10.1016/S0040-1951(97)00009-7
  27. Lee, B.-J., Kim, Y.B. and Kee, W.-S, 2006, Geological report of the Gisan sheet(1:50,000). Korea Institute of Geoscience and Mineral Resources, 39p.
  28. Lee, B.J., Kim, D.H., Choi, H.I., Kee, W.S. and Park, K.H., 1996, Geologic report of the Daejeon sheet(1:250,000). Korea Institute of Geology, Mining and Materials, 59p.
  29. Lee, C.O., Hong, S.-S., Lee, B.-T., Kim, K.-S. and Yun, H.- S., 2006, Spatial distribution of the dimension stone quarries in Korea, Journal of Petrology Society Korea, 15, 154-166 (in Korean with English abstract).
  30. Lee, D.-S. and Lee, H.-Y., 1963, Geological report of the Yean sheet(1:50,000). Geological Survey of Korea, 51p.
  31. Lee, D.S., Nam, K.S. and Chi, J.M., 1980, Geological report of the Ganggyeong sheet (1:50,000). Korea Research Institute of Geoscience and Mineral Resources, 36p.
  32. Lee, D.S., You, H.S., Woo, Y.K. and Kim, Y.J., 1989, Geological report of the Oksandong sheet(1:50,000). Korea Research Institute of Geoscience and Mineral Resources, 24p.
  33. Li, H.M., Dong, C.W., Xu, X.S. and Zhou, X.M., 1995, $U{\pm}Pb$ single grain zircon dating of the Quanzhou gabbro: implications to the origin of the basic magmatism in SE Fujian. Chinese Science Bulletin, 40, 158-160 (in Chinese).
  34. Li, X.-H., 2000, Cretaceous magmatism and lithospheric extension in Southeast China. Journal of Asian Earth Sciences 18, 293-305. https://doi.org/10.1016/S1367-9120(99)00060-7
  35. Li, Z., Qiub, J.-S. and Yang, X.-M., 2014, A review of the geochronology and geochemistry of late Yanshanian (Cretaceous) plutons along the Fujian coastal area of southeastern China: Implications for magma evolution related to slab break-off and rollback in the Cretaceous. Earth Science Reviews, 128, 232-248. https://doi.org/10.1016/j.earscirev.2013.09.007
  36. Martin, H., Bonin, B., Capdevila, R., Jahn, B.M., Lameyre, J. and Wang, Y., 1994, The Kuiqi peralkaline granitic complex (SE China): Petrology and geochemistry. Journal of Petrology 35, 983-1015. https://doi.org/10.1093/petrology/35.4.983
  37. Park, D.W, Hong, S.S., Kim, C.J. and Lee, C.O., 2004, Geology and occurrence of black Sandstone and black shale dimension stones, Korea. Economic and Environmental Geology, 37. 585-601 (in Korean with English abstract).
  38. Park, Y.S. Kim, C.B., Yoon, C.H. and Ahn, K.S., 1997, The petrochemistry and geochronology of cretaceous plutonic rocks in the Koheung Area, Chonnam. Journal of Korea Earth Sciences Society, 18, 70-83 (in Korean with English abstract).
  39. Sagong, H., Kwon, S.-T., and Ree, J.-H., 2005, Mesozoic episodic magmatism in South Korea and its tectonic implication. Tectonics, 24, TC5002, doi:10.1029/2004TC001720.
  40. Song, Y.-S., Kim, D.-Y. and Park, K.-H., 2007, The Overview of layered structures in mafic-ultramafic Macheon Intrusion, Journal of Petrology Society Korea, 16, 162-179 (in Korean with English abstract).
  41. Song, W., 2010, The Korea stone industry overview. The Korea Stone Press, 709p (in Korean).
  42. Turek, A. and Kim, C.B., 1995, U-Pb zircon ages of Mesozoic plutons in the Damyang- Geochang area, Ryeongnam massif, Korea. Geochemical Journal, 29, 243-258. https://doi.org/10.2343/geochemj.29.243
  43. Yoo, E.K. and Hong, S.H., 1973, Geological report of the Yongyuri sheet(1:50,000). Geological and Mineral Institute of Korea, 21p.
  44. Yoon, R.N., Song, Y.-S. and Yi, K.W, 2014, SHRIMP U-Pb zircon ages of the Yeongju and Andong granites, Korea and their Implications. Journal of Petrology Society Korea, 23, 209-220 (in Korean with English abstract). https://doi.org/10.7854/JPSK.2014.23.3.209
  45. Yun, H.S, Hong, S.S. and Lee, Y.S., 2002, Petrology and petrochemistry of the Jurassic Daebo granites in the Pocheon-Gisanri area. Journal of Petrology Society Korea, 11, 1-16 (in Korean with English abstract).
  46. Yun, H.S, Hong, S.S. and Kim, J.M., 2006, Petrochemistry of the pink hornblende biotite granite in the Galmal-Yeongbug Area of the North Gyeonggi. Journal of Petrology Society Korea, 15, 167-179 (in Korean with English abstract).
  47. Yun, H.-S., Park, D.-W., Hong, S.-S., Kim, J.-Y., Yang, D.-Y. and Chang, S.B., 2005, Relationships between texture and physical properties of Jurassic Unagsan and Cretaceous Sogrisan granites. The Journal of Engineering Geology, 15, 169-184 (in Korean with English abstract).

Cited by

  1. Editorial : 2015, Applied petrology: Dimension stone, Aggregate, Stone cultural heritage vol.24, pp.3, 2015, https://doi.org/10.7854/JPSK.2015.24.3.149