설악산 국립공원 지역 아고산대의 암괴원의 기원과 연대에 관한 고찰

Blockfields of Seoraksan National Park: Age and Origin

  • Kyeong Park (Department of Geography, Sungshin Women′s University)
  • 발행 : 2003.12.01

초록

설악산 아고산대 지역에 분포하는 암괴원은 2000년에 보고 된 후. 아직 그 규모에 비해 많은 논의가 이루어지지 못하였다. 고산지형학과 주빙하 지형학 분야에서의 새로운 논의들을 소개하고 현지답사를 통해 확인한 새로운 논의점들을 소개하고자 한다. 항공사진에서 확인하기 어려운 분포지역과 관련된 정보는 IKONOS 위성영상을 통해 일부지역에서 확인할 수 있으며. 분포범위를 확정할 수 있었다. 현지조사의 결과 지의류의 성장이 암괴의 화학적 풍화를 유발하고 있음을 확인할 수 있었고, 심층풍화와 관련된 절리구조가 아직도 중요한 것으로 파악된다. 외국의 대부분의 산정형 암해와는 달리 미립물질이 대부분 세탈되어 버리고 암괴만 남아. 화학적 풍화의 산물인 점토광물 등을 확인하기 어렵다는 점과 지의류의 성장속도와 풍화혈의 발달정도로 보아, 홀로세이전에 형성된 암괴원이 현재 기후하에서 생물학적 풍화를 받아 변형되는 것이라고 판단된다.

On top of several peaks of Seoraksan National Park. many extensive blockfields are found. After initial report was made in year 2000, further field work and analysis of satellite image have been made. Blockfields on top of mountain peaks exhibit evidence of chemical weathering including gnammas and grooves. Also, several lichen colonies larger than 80 cm in diameter have been found on the surface of many blocks. High resolution IKONOS image has been used to delineate the boundary of blockfields which are hard to access during the field trip. Blockfields of Mt. Seoraksan lack fine material necessary for age dating and clay mineral analysis because they experienced long period of wash and erosion during the Holocene. The ages of blockfields seem to be pre-Holocene on the basis of size of lichen colony and weathering pits.

키워드

참고문헌

  1. Chemical Geology v.188 Weathering rates of bedrock by lichens: a mini watershed study Aghamiri,R.R.;Schwartzman,D.W. https://doi.org/10.1016/S0009-2541(02)00105-5
  2. Zeitschrift fur Geomorphologie, N. F. Bd. v.24 Relations between rock type and the slope from in the Sonora Desert, Arizona Akagi,Y.
  3. Geomorphology v.52 Do periglacial landscapes evlove under periglacial conditions? Andre,M.F. https://doi.org/10.1016/S0169-555X(02)00255-6
  4. Quaternary Science Reviews v.21 Paraglacial geomorphology Ballantyne,C.K. https://doi.org/10.1016/S0277-3791(02)00005-7
  5. Permafrost and Periglacial Processes v.9 Age and significance of mountain-top detritus Ballantyne,C.K. https://doi.org/10.1002/(SICI)1099-1530(199810/12)9:4<327::AID-PPP298>3.0.CO;2-9
  6. The Periglaciation of Great Britain Ballantyne,C.K.;Harris,C.
  7. Geomorphology v.55 Integrating soils and geomorphology in mountains-an example from the Fron Range of Colorado Birkeland,P.W.;Shroba,R.R.;Burns,S.F.;Price,A.B.;Tonkin,P.J. https://doi.org/10.1016/S0169-555X(03)00148-X
  8. Geomorphology v.47 Teaching about relict, no-analog landscapes Bloom,A.L. https://doi.org/10.1016/S0169-555X(02)00094-6
  9. Gemorphology v.32 Chemical weathering studies in relation to geomorphological research in southeastern Canada Bouchard,M.;Jolicoeur,S. https://doi.org/10.1016/S0169-555X(99)00098-7
  10. Climaic Geomorphology Budel,J.;Fisher,L.;Busche,D.(trans.)
  11. Geomorphology v.31 Engineering geomorphology of rock glaciers Burger,K.C.;Degenhardt,Jr.J.J.;Giardino,J.R. https://doi.org/10.1016/S0169-555X(99)00074-4
  12. Building and Environment v.38 Experimental investigations into the interactions between moisture, rock surface temperatures and epilithic lichen cover in the bioprotection of limestone Carter,N.E.A.;Viles,H.A. https://doi.org/10.1016/S0360-1323(03)00079-9
  13. Geography, Korean geographical Society v.27 Periglacial landforms in the eastern part of the main ridge of Mt. Jiri, South Korea Chang,H.
  14. Kangweondo-Unpublished Master's Thesis, Kangwon University Petrology of the Cretaceous granites in Mt. Sorak area - National Park Choi,M.Y.
  15. Advances in Periglacial Geomorphology Clark,M.J.(ed.)
  16. Geomorphology (article in press) Lateglacial and Holocene talus slope development and rockwall rereat on Mynydd Du, UK. Curry,A.M.;Morris,C.J.
  17. Glacial and Periglacial Geomorphology Embleton,C.;King,C.A.M.
  18. Quaternary Science Reviews v.18 A comparison of the lichenometric and Schimidt hammer dating techniques based on data from the proglacial areas of some Icelandic glaciers Evans,D.J.A.;Archer,S.;Wilson,D.J.H. https://doi.org/10.1016/S0277-3791(98)00098-5
  19. The Encyclopedia of Geomorphology, Dowden Fairbridge,R.W.(ed.)
  20. The Periglacial Environment (2nd) French,H.M.;Longman(ed.)
  21. Zeitschrift fur Geomorphologie, N.F.Bd. v.15 Morphology and sediment characteristics of mountain debris slopes in Lake Louise District Gardner,J.
  22. Zeitschrift fur Geomorphologie, N.F.Bd. v.27 Rockfall frequency and distribution in the Highwood Pass area, Canadian Rocky Mountains Gardner,J.
  23. Quaternary Research v.52 Paleoclimate of Southwestern China for the past 50,000 yr inferred from lake sediment records Hodell,D.A.;Brenner,M.;Kanfoush,S.L.;Curtis,J.H.;Soner,J.S.;Song,X.;Wu,Y.;Whitmore,T. https://doi.org/10.1006/qres.1999.2072
  24. Geomorphology v.35 The geomorphic significance of rock glaciers: estimates of rock glacier debris volumes and headwall recession rates in West Greenlands Humlum,O. https://doi.org/10.1016/S0169-555X(00)00022-2
  25. Journal of Korean Forestry Science v.89 no.1 Investiation of lichen species as a biomonitor of atmospheric ozone in Backwoon Mountain, Korea Hur,J.S.;Kim,P.G.
  26. Research Review of Geography v.10-11 A Review Trend and Theoretical Background on Debris Slope Landform - mainly about Talus-Block Stream-blockfield Jeon,Y.G.
  27. Journal of the Korean Association of Regional Geographers v.6 no.2 A study on the boulder stream of granitoid in Korea Jeon,Y.G.
  28. Geography of Daegu City Jeon,Y.G.
  29. Field Survery Report (in Koran) Mt. Seoraksan Kangwondo
  30. Unpublished Dissertation, Korea National University of Education Morpho-pedologic milieu in Taegwallyong Area Kee,K.D.
  31. Korean Journal of Botany v.18 no.1 Quatitative studies on the distribution of Corticolous Lichens in Korea Kim,C.M.;Lee,H.S.
  32. Detailed Survey of Subalpine Vegetation and Landform in Seoraksan National Park KNPA
  33. Natural Resources Report - Seoraksan National Park KNPA
  34. Geomorphology v.52 Periglacial Geomorphology at the beginning of the 21st century: introdution Matsuoka,N.;Iwata,S.;Haeberli,W. https://doi.org/10.1016/S0169-555X(02)00245-3
  35. Catena v.49 Grus weathering mantles-problems of interpretation Migon,P.;Thomas,M.F. https://doi.org/10.1016/S0341-8162(02)00014-0
  36. Effects of fungi and lichens on the stone cultural properties Preservation Science 6 Min,K.H.
  37. Ecological distribution of lichens growing on the stone cultural properties in royal mausoleums of Seoul, Area, Preservation Science 7 Min,K.H.;An,H.K.;Lee,P.S.
  38. Natural Resources Report - Mt. Seoraksan National Park Ministry of Internal Affairs
  39. Zeitschrift fur Geomorphologie, N.F.Bd.11 Spheroidal Weathering, exfoliation and constant volume alteration Ollier,C.D.
  40. Journal of the Korean Geographical Society v.35 no.4 Morphology and Genesis of blockfields on the Seoraksan National Park in Kangwon Province, Korea Park,K.
  41. Annals of the Association of American geographers v.40 The geomorphic cycle in periglacial regions as it is related tp climatic geomorphology Peltier,L.C. https://doi.org/10.1080/00045605009352070
  42. Lichens Purbis,W.
  43. Geomorphology v.15 Blockfields, old or new? Evidence and Implications from some plateaus in northern Norway Rea,B.R.;Whalley,W.B.;Rainey,M.M.;Gordon,J.E. https://doi.org/10.1016/0169-555X(95)00118-O
  44. Quaternary International v.65;66 Pleistocene paleoenvironmental changes in the high mountain ranges of central China and adjacent regions Rost,K.T.
  45. Zeitschrift fur Geomorphologie, N.F.Bd. v.9 Ein Beitrag zum Blockmeerproblem Rother,K.
  46. Journal of the Korean Association of Regional Geographers v.9 no.3 A landform survey in transborder region using the RS data-in case of Goseong region, Kangwon Province- Seo,J.C.;Park,K.
  47. Geomorphology v.55 Advances in Holocene mountain geomorphology inspired by sediment budger methodology Slaymaker,O.;Souch,C.;Menounos,B.;Filippelli,G. https://doi.org/10.1016/S0169-555X(03)00146-6
  48. Catena Landslides and climate change in the Italian Dolomites since late glacial Soldati,M.;Corsini,A.;Pasuto,A.
  49. Journal of the Korean Geographical Society v.38 no.3 Application of insitu produced cosmogenic ${^10}Be and {^26}Al$ for estimating erosion rate and exposure age of tor and block stream detritus: case study form Mt. Maneo, South Korea Seong,Y.B.;Kim,J.W.
  50. Geomorphology v.41 The Chemical weathering regime of Karkevagge, arctic-alpine Sweden Thorn,C.E.;Darmody,R.G.;Dixon,J.C.;Schlyster,P. https://doi.org/10.1016/S0169-555X(01)00102-7
  51. Quaternary Research v.48 Comment on ${^10}Be and {^26}Al$ evidence for exceptionally low rates of Australian bedrock erosion and the likely existence of Pre-Pleistocene landscapes Twidale,R.C.;Bierman and Turner https://doi.org/10.1006/qres.1997.1934
  52. Geocryology - A Survery of Periglacial Processes and Environments Washburn,A.L.
  53. Global Climates since the Last Glacial Maximum The Late Quaternary vegetation and climate of China Winkler,M.G.;Wang,P.K.;Wright,H.E.(et al.)(ed.)
  54. Quaternary Research v.53 Vegetation, climate and sea level in the past 55,000 years, Hanjiang Delta, Southwestern China Zheng,Z.;Li,Q. https://doi.org/10.1006/qres.1999.2126
  55. Geomorphological Hazards in High Mountain Areas Kalvoda,J.(ed.);Rosenfeld,C.L.(ed.)