The Journal of the Petrological Society of Korea (암석학회지)

The Petrological Society of Korea (한국암석학회)
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Analysis of Ancient Document and Establishment of Petrological Database for Presumption of Stone Source Area of the Seoul City Wall, Korea

한양도성 석재공급지 추정을 위한 고문헌 분석 및 암석학적 데이터베이스 구축

  • Jo, Young Hoon (Department of Cultural Heritage Conservation Science, Kongju National University) ;
  • Lee, Chan Hee (Department of Cultural Heritage Conservation Science, Kongju National University)
  • 조영훈 (공주대학교 문화재보존과학과) ;
  • 이찬희 (공주대학교 문화재보존과학과)
  • Received : 2015.07.12
  • Accepted : 2015.09.17
  • Published : 2015.09.30
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Abstract

This study analyzed ancient documents and established petrological database through extensive field investigation of provenance sites to presume stone source areas of the Seoul City Wall. By summarizing the ancient documents, the rampart stone was mostly supplied from a stony mountain adjacent to the City Wall in the early Joseon period, whereas the stone was provided from fixed quarry outside the City Wall in the late Joseon period. As a result of the petrological investigation based on quarries recorded in the ancient documents, pinkish granite and leucogranite were distributed as a whole, and the granitoid rocks are similar in mineralogical compositions and geochemical behavior characteristics. However, the pinkish granite with magnetic-series show that the magnetic susceptibility increased from the north slope of Namsan Mountain to Bulamsan Mountain. The leucogranite with ilmenite-series mainly occurred along the boundary between granite and gneiss from Yongmasan Mountain to Inwangsan Mountain. Consequently, the important petrological indicators for presumption of stone source areas are the rock color and the magnetic susceptibility. In addition to the petrological features, the reliability for provenance interpretation should improve considering stone quantities in the quarries, transportation distance and technical skills.

이 연구에서는 한양도성 석재공급지 추정을 위해 고문헌을 분석하고 산지탐색 지점에 대한 광역조사를 수행하여 암석학적 기초 데이터베이스를 구축하였다. 고문헌 분석 결과를 종합하면 성돌은 조선 초기에 주로 도성과 인접한 석산에서 조달된 반면 후기로 갈수록 도성 외부의 고정 채석장으로부터 공급되었다. 따라서 고문헌에 기록된 채석 산지를 중심으로 암석학적 조사를 수행한 결과, 산지탐색 전역에 걸쳐 담홍색화강암과 우백질화강암이 분포하였으며, 이들 화강암류는 광물조성 및 지구화학적 거동특성이 거의 유사하였다. 그러나 담홍색화강암은 남산 북사면에서 불암산의 북동방향으로 갈수록 대자율 값이 증가하는 자철석 계열을 보였으며, 우백질화강암은 용마산을 시작으로 남산과 인왕산 등의 편마암 경계부에 주로 나타나고 티탄철석계열의 낮은 대자율 특성을 가졌다. 이상의 내용을 종합할 때, 한양도성 석재공급지 추정을 위한 중요한 암석학적 지시자는 색상과 대자율로 판단된다. 이와 함께 채석장의 석재 양, 운반거리 및 기술력 등을 고려하여 원산지 해석의 신뢰도를 높일 필요가 있다.

Keywords

References

  1. Capedri, S. and Venturelli, G., 2003, Trachytes employed for funerary artefacts in the Roman Colonies Regium Lepidi (Reggio Emilia) and Mutina (Modena) (Italy): provenance inferred by petrographic and chemical parameters and by magnetic susceptibility. Journal of Cultural Heritage, 4, 319-328. https://doi.org/10.1016/j.culher.2003.01.002
  2. Cheong, S.W. and Chung, S.Y., 2002, Properties of discontinuity for the Seoul granite in the northeastern part of Seoul city. The Journal of Engineering Geology, 12, 2, 167-178.
  3. Columbu, S., Antonelli, F., Lezzerini, M., Miriello, D., Adembri, B. and Blanco, A., 2014, Provenance of marbles used in the Heliocaminus Baths of Hadrian's Villa (Tivoli, Italy). Journal of Archaeological Science, 49, 332-342. https://doi.org/10.1016/j.jas.2014.05.026
  4. Hong, S.H., Lee, B.J. and Hwang, S.K., 1982, Explanatory text of the geological map of Korea (1:50,000), Seoul Sheet. Korea Institute of Energy and Resources, 1-44.
  5. Jo, Y.H., Lee, C.H. and Shim, H.Y., 2013, Reconsideration and conservational scientific diagnosis of Silla stone monument in Bongpyeong-ri, Uljin. MUNHWAJAE Korean Journal of Cultural Heritage Studies, 46, 3, 48-67.
  6. Jo, Y.H., Lee, C.H., Yoo, J.H., Kang, M.K. and Kim, D.M., 2012, Petrological classification and provenance interpretation of the Sungnyemun stone block foundation, Korea. MUNHWAJAE Korean Journal of Cultural Heritage Studies, 45, 3, 174-193.
  7. Jo, Y.H., Lee, M.S., Choi, G.E. and Lee, C.H., 2011, Precise deterioration diagnosis and restoration stone suggestion of Jungdong and Banjukdong stone aquariums in Gongju, Korea. MUNHWAJAE Korean Journal of Cultural Heritage Studies, 44, 3, 92-111.
  8. Kim, O.J., Lee, D.S. and Jeong, B.I., 1984, The petrological and geomechanical studies of rock masses in the site area of the 3rd and 4th Seoul subway lines for an engineering classification of rock masses. Mining Geology, 17, 1, 57-78.
  9. Kim, S.W., Hwang, G.H., Moon, S.W. and Jwa, Y.-J., 2015, Petrological characteristics and provenance estimation on the stone artefacts from the Pocheon Neulgeori prehistoric site, Korea. Journal of Petrological Society of Korea, 24, 1, 1-10. https://doi.org/10.7854/JPSK.2015.24.1.1
  10. Lee, C.H., Kim, M.Y., Jo, Y.H. and Lee, M.S., 2011, Conservation treatment based on material characteristics, provenance presumption and deterioration diagnosis of the seven-storied Jungwon Tappyeongri stone pagoda, Chungju, Korea. MUNHWAJAE Korean Journal of Cultural Heritage Studies, 43, 3, 4-25.
  11. Lee, C.H., Kim, R.H. and Eo, E.I., 2014, Interdisciplinary study on bronze age artifacts in midwestern Korea: material characteristics and provenance presumption for stone artifacts of the Sinsongri site in Seosan. Journal of Conservation Science, 30, 2, 205-217.
  12. Moon, S.W., Kim, M.J., Kim, J.J. and Jwa, Y.-J., 2014, Petrological study and provenance estimation on the stone materials from the rampart of the Yeongsan-eupseong. Journal of Petrological Society of Korea, 23, 4, 367-373. https://doi.org/10.7854/JPSK.2014.23.4.367
  13. Nockolds, S.R., Average chemical compositions of some igneous rocks. Geological Society of American Bulletin, 65, 1007-1032.
  14. Park, S.-C., Moon, S.W., Kim, S.-D. and Jwa, Y.-J., 2015, A petrological study of stones used in the three storied stone pagoda of Bulguksa Temple. Journal of Petrological Society of Korea, 24, 1, 11-24. https://doi.org/10.7854/JPSK.2015.24.1.11
  15. Pearce, J.A., 1983, Role of sub-continental lithosphere in magma genesis at active continental margines. In Hawkesworth, C.J. and Norry, M.J. (eds.), Continental basalts and mantle xenolith, Shiva, 230-249.
  16. Taylor, S.R. and McLennan, S.M., 1985, The continental crust: Its composition and evolution. Blackwell, Oxford, 312.
  17. Uchida, E. and Shimoda, I., 2013, Quarries and transportation routes of Angkor monument sandstone blocks. Journal of Archaeological Science, 40, 1158-1164. https://doi.org/10.1016/j.jas.2012.09.036
  18. Won, C.K., Paik, K.H., Chi, J.M., Ku, M.O. and An, H.R., 1981, Geological map of Korea (1:50,000), Ddugseom Sheet. Korea Institute of Energy and Resources.

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