자원환경지질 (Economic and Environmental Geology)

  • 제54권1호
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  • Pages.137-150
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  • 2021
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  • 1225-7281(pISSN)
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  • 2288-7962(eISSN)
대한자원환경지질학회 (The Korean Society of Economic and Environmental Geology)
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경주 서악동 마애여래삼존입상의 손상특성 및 안정성 평가

Evaluation of Stability and Deterioration Characteristics for the Rock-carved Standing Buddha Triad in Gyeongju Seoak-dong, Korea

  • 이찬희 (공주대학교 문화재보존과학과) ;
  • 최명주 (국립문화재연구소 보존과학연구실)
  • Lee, Chan Hee (Department of Cultural Heritage Conservation Sciences, Kongju National University) ;
  • Choie, Myoungju (Conservation Science Division, National Research Institute of Cultural Heritage)
  • 투고 : 2021.01.22
  • 심사 : 2021.02.11
  • 발행 : 2021.02.28
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초록

서악동 마애여래삼존입상은 경주 선도산 정상부의 동남향에 조성된 통일신라시대의 거석불로 입지적 중요성과 함께 힘찬 아미타불상과 부드러운 협시보살의 조각수법이 매우 특징적이다. 특히 안산암질 암반에 불신을 새기고 흑운모화강암을 대좌로 장식한 아미타불상과 좌우 병렬식으로 배치된 알칼리 화강암으로 조성된 협시불은 석재의 색상 및 질감을 통해 석불의 위엄을 잘 표현하였다. 아미타불상은 암반에 형성된 절리로 인한 불연속면의 발달과 사면의 불안정성, 최상부에서 발생하는 식물의 근압에 의한 암반의 이완현상이 결부되어 손상이 가속되고 있다. 또한 절리와 균열 및 박리 등 불연속면의 증가로 인해 물성이 크게 저하되었으며 조류 및 지의류의 피복도가 높은 상태이다. 따라서 마애여래삼존입상에 발생한 손상정도는 아미타불상이 마애불로 조성되면서 나타난 물리적 풍화특성과 다양한 생물침해에 의해 손상이 가속화되는 것으로 판단된다.

The rock-carved standing Buddha triad in Seoak-dong is a large stone Buddha statue of the Unified Silla era (AD 676 to 935) in ancient Korea, built near the top of the southeastern side of mountain Seondosan in Gyeongju, is characterized by its locational importance, the powerful Amitabha and the gentle sculptural technique of the Bodhisattva. In particular, Amitabha Buddha in andesite rock slope with biotite granite pedestal and two Bodhisattva parallel made by alkali granites seems to express the dignity through the color and texture of the stones. In the Amitabha Buddha, deterioration characteristics are accelerating due to the combination of various joint systems, instability of the slopes and relaxation by the root pressure of plants occurring at the top. In addition, physical properties have deteriorated owing to the increase of discontinuous surfaces as joints, cracks and scalings, and the coverage of algae and lichen is also high. Therefore, deterioration degree in Buddha triad is accelerated due to the physical weathering characteristics from natural rock mass and various biological invasion.

키워드

참고문헌

  1. Barton, N. (1973) Review of a new shear strength criterion for rock joints. Engineering Geology, v.7, p.287-332. https://doi.org/10.1016/0013-7952(73)90013-6
  2. Barton, N. (1976) The shear strength of rock and rock joints. International Journal of Rock Mechanics and Mining Science & Geomechanics Abstract, v.13(9), p.255-279. https://doi.org/10.1016/0148-9062(76)90003-6
  3. Crispim, C.A. and Gaylarde, C.C. (2004) Cyanobacteria and biodeterioration of cultural heritage: a review. Microbial Ecology, v.49, p.1-9. https://doi.org/10.1007/s00248-003-1052-5
  4. Fitzner, B. and Heinrichs, K. (2001) Damage diagnosis on stone monuments - Weathering forms, damage categories and damage indices. Stone Weathering and Atmospheric Pollution Network (SWAPNET), Decin, May, p.7-11, p.11-56.
  5. Fitzner, B., Heinrichs, K. and La Bouchardiere, D. (2003) Weathering damage on Pharaonic sandstone monuments in Luxor-Egypt. Building and Environment, v.38(9-10), p.1089-1103. https://doi.org/10.1016/S0360-1323(03)00086-6
  6. Iliev, I.G. (1966) An attempt to estimate the degree of weathering of intrusive rocks from their physical-mechanical properties. Proceedings of the International Congress on Rock Mechanics, v.1, p.109-114.
  7. Jin, H.S. (1962) Bodhisattva of rock-carved stone Buddha in Seoakri, Gyeongju. Art Reference, v.6, p.15-18.
  8. Jo, Y.H. and Lee, C.H. (2011) Making method of deterioration map and evaluation techniques of surface and three-dimensional deterioration rate for stone cultural heritage. Journal of Conservation Science, v.27, p.251-260. (in Korean with English abstract)
  9. Jo, Y.H. and Lee, C.H. (2014a) Quantitative modeling and mapping of blistering zone of the Magoksa temple stone pagoda (13th century, Republic of Korea) by graduated heating thermography. Infrared Physics and Technology, v.65, p.43-50. https://doi.org/10.1016/j.infrared.2014.02.011
  10. Jo, Y.H. and Lee, C.H. (2014b) Quantitative modeling of blistering zones by active thermography for deterioration-evaluation of stone monuments. Journal of Cultural Heritage, v.15, p.621-627. https://doi.org/10.1016/j.culher.2013.12.002
  11. Jo, Y.H. and Lee, C.H. (2014c) Establishment of ultrasonic measurement method for stone cultural heritage considering water content and anisotropy. Journal of Conservation Science, v.30(4), p.467-480. (in Korean with English abstract) https://doi.org/10.12654/JCS.2014.30.4.15
  12. Jo, Y.H. and Lee, C.H. (2015) A study on selection of ultrasonic transducer and contact material for surface irregularities of stone cultural heritage. Journal of Conservation Science, v.31(3), p.267-278. (in Korean with English abstract) https://doi.org/10.12654/JCS.2015.31.3.07
  13. Kim, J.S. and Lee, C.H. (2019) Interpretation of coloring technique and pigment analysis for King Sejo's palanquin in Gongju Magoksa temple, Korea. Journal of Conservation Science, v.35(5), p.403-415. (in Korean with English abstract) https://doi.org/10.12654/JCS.2019.35.5.03
  14. Kim, S.D., Yi, J.E., Lee, D.S. and Lee, C.H. (2011) Homogeneity investigation of replace stone for restoration of the Mireuksaji stone pagoda in Iksan, Korea. Journal of Conservation Science, v.27(2), p.211-222. (in Korean with English abstract)
  15. Lee, C.H. and Ariki, N., 2019, Evaluation of nondestructive diagnosis and material characteristics of stone lantern at Damyang Gaeseonsaji temple site in Korea. Journal of Conservation Science, v.35(4), p.279-293. https://doi.org/10.12654/JCS.2019.35.4.02
  16. Lee, C.H., Choi, S.W., Han, K.S. and Won, K.S. (2001) Approach to conservation sciences and mechanical deteriorations of the Seoagdong standing triple Buddha, Gyeongju, Korea. Journal of the Geological Society of Korea, v.37, p.611-627. (in Korean with English abstract)
  17. Lee, C.H., Chun, Y.G., Jo, Y.H. and Suh, M. (2012) Evaluation of slope stability and deterioration degree for Bangudae petroglyphs in Ulsan, Korea. Journal of Conservation Science, v.28(2), p.153-164. (in Korean with English abstract) https://doi.org/10.12654/JCS.2012.28.2.153
  18. Lee, C.H., Kim, M.Y., Jo, Y.H. and Lee, M.S. (2010) Conservation treatment based on material characteristics, provenance presumption and deterioration diagnosis of the Seven-storied Jungwon Tappyeongri stone pagoda, Chungju, Korea. Korean Journal of Cultural Heritage Studies, v.43(3), p.4-25. (in Korean with English abstract)
  19. Lee, C.H., Kim, Y.T. and Lee, M.S. (2007) Provenance presumption for rock properties of the five storied stone pagoda in the Jeongrimsaji temple site, Buyeo, Korea. Journal of the Geological Society of Korea, v.43, p.183-196. (in Korean with English abstract)
  20. Lee, C.H., Lee, M.S., Kim, Y.T. and Kim, J.Y., 2006, Deterioration assessment and conservation of a heavily degraded Korean stone Buddha from the 9th Century. Studies in Conservation, v.51, p.305-316. https://doi.org/10.1179/sic.2006.51.4.305
  21. Lee, C.H., Jo, Y.H. and Kim, J. (2011) Damage evaluation and conservation treatment of the tenth century Korean rock-carved Buddha statues. Environmental Earth Science, v.64, p.1-14. https://doi.org/10.1007/s12665-010-0809-7
  22. Lee, C.H., Jo, Y.H. and Chun, Y.G. (2009) Establishment of ultrasonic measurement and correlations of direct-indirect method for weathering evaluation of stone cultural heritage. Conservation Science, v.25(3), p.233-244. (in Korean with English abstract)
  23. Lee, C.H. and Jo, Y.H. (2017) Correlation and correction factor between direct and indirect methods for the ultrasonic measurement of stone samples. Environmental Earth Science, v.76, p.477-489. https://doi.org/10.1007/s12665-017-6810-7
  24. Lee, C.H., Shin, H.C. and Han D.R. (2017) Ultrasonic properties on building stones, characteristics of structural deformation and conservation states of the sanctuary in Wat Phou temple of Champasak, Lao PDR. Journal of Conservation Science, v.33(6), p.399-416. (in Korean with English abstract) https://doi.org/10.12654/JCS.2017.33.6.01
  25. Ministry of Land, Infrastructure and Transport of National Geographic Information Institute (2020) https://www.ngii.go.kr/ (in Korean)
  26. Moon, M.D. (1969) Statue of the Buddha in Gyeongju Seoak : About Seondosan Mt. and Dudae-ri rock-carved standing Buddha triad. Art and Archaeology, v. 104, p.16-17.
  27. National Geographic Information Institute (2020) The Origin of Korean Geographical Names. p.277.
  28. National Research Institution of Cultural Heritage (2017) Investigation and Analysis of Traditional Pigment Minerals of Dancheong. p.15, 84.
  29. National Research Institute of Cultural Heritage (2019) Periodic Investigation of National Designated Architectural Heritage. The Rock-carved Standing Buddha Triad in Gyeongju Seoak-dong, v.6, p.132-149.
  30. Odonne, F., Lezin, C., Massonnat, G. and Escadeillas, G. (2007) The relationship between joint aperture, spacing distribution, vertical dimension and carbonate stratification: an example from the Kimmeridgian limestones of Pointe-du-Chay (France). Journal of Structural Geology, v.29, p.746-758. https://doi.org/10.1016/j.jsg.2006.12.005
  31. Rhim, H.C., Kim, Y.S., Woo, S.K. and Song, Y.C. (2002) Measurement of crack depth located under steel reinforcement in reinforced concrete specimens using ultrasonic method. Journal of the Korea Institute for Structural Maintenance Inspection, v.6, p.181-188. (in Korean with English abstract)
  32. Varnes, D.J. (1978) Slope movement types and processes. In Schuster, R.L. and Krizek, R.J. (eds.) In Special Report 176, Landslides: Analysis and Control, National Academy of Science, Washington DC, p.11-33.
  33. Yang, H., Lee, C.H. and Jo, Y.H. (2020) Stability and damage evaluation of the Buddha Triad and 16 Rock-carved Arhat Statues at Seongbulsa temple in Cheonan, Korea. Korean Journal of Cultural Heritage Studies, v.53(4), p.78-99. (in Korean with English abstract)