Journal of Korean Society of Forest Science (한국산림과학회지)

Korean Society of Forest Science (한국산림과학회)
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Classification and Stand Characteristics of Subalpine Forest Vegetation at Hyangjeukbong and Jungbong in Mt. Deogyusan

덕유산 향적봉 및 중봉 아고산대의 산림식생유형분류와 임분 특성

  • Han, Sang Hak (Department of Forest Resources, Kongju National University) ;
  • Han, Sim Hee (Department of Forest Genetic Resources, National Institute of Forest Science) ;
  • Yun, Chung Weon (Department of Forest Resources, Kongju National University)
  • 한상학 (공주대학교 산림자원학과) ;
  • 한심희 (국립산림과학원 유전자원부) ;
  • 윤충원 (공주대학교 산림자원학과)
  • Received : 2016.01.18
  • Accepted : 2016.02.19
  • Published : 2016.03.31
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Abstract

This study was conducted to classify forest vegetation structure and stand feature of Mt. Deogyusan National Park from Hyangjeukbong to Jungbong, 48 plots were surveyed. The type classification of the vegetation structure was performed with Z-M phytosociological method. As a result, Quercus mongolica community group was classified into the Picea jezoensis community, Carpinus cordata community and Tilia amurensis community in community unit. P. jezoensis community was subdivided into Deutzia glabrata group and Viburnum opulus var. calvescens group in group unit. D. glabrata group was subdivided into Acer mandshuricum subgroup and Ribes mandshuricum subgroup and V. opulus var. calvescens group was subdivided into Hemerocallis dumortieri subgroup and Prunus padus subgroup in subgroup unit. In the result of estimating the importance value, it constituted Q. mongolica (23.9%), Abies koreana (14.7%), Taxus cuspidata (10.2%), P. jezoensis (8.2%) and Betula ermanii (7.4%) in tree layer. It constituted Acer komarovii (18.6%), Acer pseudosieboldianum (18.4%) and Q. mongolica (8.9%) in subtree layer. It constituted Rhododendron schlippenbachii (20.7%), A. pseudosieboldianum (17.4%) and Symplocos chinensis (8.5%) in shrub layer. Indicator species analysis of vegetation unit 1 was consisted of Hydrangea serrata, Fraxinus mandshurica and D. glabrata that species prefer moist valley in subalpine or rocks. In the results of analyzing the species diversity, vegetation unit 1, 4 and 5 represented that there were different and complex local distributions. As in the similarity between the vegetation units, the vegetation units 1, 2, 3 and 4 represented high with 0.5 or above. It represented that there wasn't no differences on composition species in vegetation units.

본 연구는 덕유산국립공원 향적봉 및 중봉 아고산대를 대상으로 총 48개소의 고정방형구를 설치하여 Z-M 식물사회학적 방법으로 군락유형분류와 임분 구조를 분석하였던 바, 신갈나무군락군에서 군락단위로 가문비나무군락, 까치박달군락, 피나무군락으로 분류되었으며 가문비나무군락은 물참대군, 백당나무군으로 세분되었다. 군단위로 물참대군은 복장나무소군과 까치밥나무소군으로 세분되었으며, 백당나무군은 각시원추리소군과 귀룽나무소군으로 세분되었다. 중요치를 분석한 결과, 교목층을 구성하는 주요 종으로는 신갈나무(23.9%), 구상나무(14.7%), 주목(10.2%), 가문나무(8.2%), 사스래나무(7.4%)로 나타났으며, 아교목층은 시닥나무(18.6%), 당단풍나무(18.4%), 신갈나무(8.9%)로 나타났으며, 관목층은 철쭉(20.7%), 당단풍나무(17.4%), 노린재나무(8.5%)로 나타났다. 식생단위 1의 지표종은 산수국, 들메나무, 물참대와 같은 아고산의 적습한 계곡부 또는 전석지 환경을 선호하는 종들이 나타났다. 종다양도는 식생단위 1, 4, 5는 생육환경이 이질적이고 복잡하거나 국소적인 교란이 있었을 것으로 사료된다. 가문비나무군락의 하위단위인 복장나무아군, 까치밥나무아군, 각시원추리아군, 귀룽나무아군의 식생단위 1, 2, 3, 4는 유사도 지수가 0.5 이상으로 식생단위 간 유사도가 높은 경향으로 나타나, 식생단위 간 구성종의 차이가 크지 않은 것으로 판단된다.

Keywords

References

  1. Barbour, M.G., Buck, J.H., and Pitts, W.D. 1987. Terrestrial plant ecology, 2nd ed. The Benjamin Cummings Publishing Company. Menlo Park, pp. 155-229.
  2. Bazzaz, F.A. 1979. The physiological ecology of plant succession. Annual Review of Ecology Systematics 10: 351-371. https://doi.org/10.1146/annurev.es.10.110179.002031
  3. Braun-Blanquet, J. 1964. Pflanwensoziologie grundzuge der vegetation der vegetation 3rd. Springer-Verlag, Berlin, pp. 631.
  4. Brower, J.E. and Zar, J.H. 1977. Field and laboratory methods for general ecology. WM. C. Brown Company Publishers. Iowa, pp. 194.
  5. Buell, M.F., Langford, A.N., Davidson, D.W., and Ohmann, L.F. 1966. The upland forest continuum in Northern New Jersey. Ecology 47(3): 416-432. https://doi.org/10.2307/1932981
  6. Cho, H.J., Bea, K.H., Lee, C.S., and Lee, C.H. 2004. Species composition and structure of the evergreen coniferous forest vegetation of the subalpine area (South Korea). Journal of Korean Forest Society 93(5): 372-379.
  7. Cho, H.S. and Lee, S.D. 2010. Vegetation structure of Yongso valley in the Nakdong-jeongmaek, Samcheok-si. Korean Journal of Environment and Ecology 24(5): 582-590.
  8. Curtis, J.T. and McIntosh, R.P. 1957. An upland forest continuum in the prairie-forest boarder region of Wisconsin. Ecology 32: 476-498.
  9. Ellenberg, H. 1956. Grundlagen der vegetationsgliederung. 1. Aufgaben und Methoden der vegetationskunde. in: Walter, H.(Hrsg.) Einfuhrung in die Phytologie IV. Stuttgart, pp. 136
  10. Gwon, J.H., Sin, M.K., Kwon, H.J., and Song, H.K. 2013. A study on the forest vegetation of Jirisan National Park. Journal of Korean Environmental Restoration Technology 16(5): 93-118.
  11. Herlbert, S.H. 1971. The non-concept of species diversity: A critique and alternative parameters. Ecology 52: 577-586. https://doi.org/10.2307/1934145
  12. Hill, M.O. 1979. TWINSPAN-A FORTRAN program for arranging multivariate data in an order two-way table by classification of the individuals and attributes. Cornell University Press. Ithaca, New York. pp. 50.
  13. Jung, Y.H. 1989. Alpine plants in Korea. Science 12: 84-89.
  14. Kim H.S., Lee, S.M., and Song, H.K. 2011. Actual vegetation distribution status and ecological succession in the Deogyusan National park. Korean Journal of Environment and Ecology 25(1): 37-46.
  15. Kim, C.H. 1992. A study on the structure of forest vegetation and the secondary succession in Togyusan National Park, Korea. Dissertation. Wonkwang University. Iksan, pp. 156.
  16. Kim, G.T. and Choo, G.C. 2004. Forest structure of subalpine region from Hyangjeukbong to 2nd Deoguysan in Deogyusan National Park, Korea. Korean Journal of Environment and Ecology 18(2): 142-149.
  17. Kim, G.T., Choo, G.C., and Um, T.W. 1996a. Studies on the structure of forest community at Sangwonsa, Pirobong, Horyongbong area in Odaesan National Park. Korean Journal of Environment and Ecology 10(1): 151-159.
  18. Kim, G.T., Choo, G.C., and Um, T.W. 1996b. Studies on the structure of forest community at Dongdaesan, Turobong, SangWangbong area in Odaesan National Park. Korean Journal of Environment and Ecology 9(2): 147-155.
  19. Kim, H.S., Lee, S.M., and Song, H.K. 2010. Vegetation structure of the Hyangjeokbong in the Deogyusan National Park. Korean Journal of Environment and Ecology 24(6): 708-722.
  20. Kim, H.S., Lee, S.M., and Song, H.K. 2011. Actual vegetation distribution status and ecological succession in the Deogyusan National park. Korean Journal of Environment and Ecology 25(1): 37-46.
  21. Kim, J.U. and Kil, B.S. 2000. The Mongolian oak forest in Korea. Wonkwang University press. Iksan, pp. 511.
  22. Kim, S.H., Kim, H., Kang, W.C., and Jeon, S.H. 1997. Flora of alpine region in Mt. Seolag. Journal of Koran Biota 2: 1-17.
  23. Kim, S.Y. 2012. Syntaxonomy of subalpine vegetation in Korea. Dissertation. Keimyung University. Deagu, pp. 145.
  24. Ko, S.Y., Han, S.H., Lee, W.H., Han, S.H., Shin, H.S., and Yun, C.W. 2014. Forest vegetation classification and quantitative analysis of Picea zejoensis and Abies hollophylla stand in Mt. Gyebang. Korean Journal of Environment and Ecology 28(2): 182-196. https://doi.org/10.13047/KJEE.2014.28.2.182
  25. Kolbek, J., Srutek, M. and Elgene, O.B. 2003. Forest Vegetation of Northeast Asia. Kluwer Academic Publishers. Londen, pp. 469.
  26. Kong, W.S. 1989. The biogeographic divisions of Korea and their species composition. Geographical Society 40: 43-54.
  27. Kong, W.S. 1998. The distributional patterns of alpine plants of Mt. Halla, Cheju Island, Korea. Journal of the Korean Geographical Society 33(2): 191-208.
  28. Kong, W.S. 1999. The vertical distribution on air temperature and thermal amplitude of alpine plants on Mt. Halla, Cheju Island, Korea. Journal of the Korean Geographical Society 34(4): 385-393.
  29. Kong, W.S. 2000. Geoecology on the subalpine vegetation and landscape of Mt. Sorak. Journal of the Korean Geographical Society 35(2): 177-187.
  30. Kong, W.S. and Watts, D. 1993. The plant geography of Korea. Kluwer Academic Publishers. Netherlands, pp. 19.
  31. Korea National Park Service. 2004. Natural resource investigation of Deogyusan National Park. Korea National Park Research Institute. Seoul, pp. 838.
  32. Korean National Arboretum and the Plant Taxonomy Society of Korea. 2007. A synonymic list of vascular plant in Korea. Korean National Arboretum, Pocheon, pp. 534.
  33. Krebs, C.J. 1985. Ecology, 3ed. Haber and Row. Publishing Compony. pp. 3-14.
  34. Lee, B.C., Yun, C.W., Shin, J.H., and Oh, J.S. 2001. Community classification of forest vegetation in Mt. Myeonsan. Journal of Korean Forest Society 40(4): 548-557.
  35. Lee, J.H., Shin, H.S., Cho, H.J. and Yun, C.W. 2014. Subalpine conifer forest community. National Institute of Ecology. Seocheon, pp. 134.
  36. Lee, K.J., Cho, W., and Han, B.H. 1994. Plant community structure of Muju Resort golf course in Tokyusan National Park. Korean Journal of Environment and Ecology 7(2): 118-134.
  37. Lee, T.B. 1980. Illustrated flora of Korea. Hyangmunsa, Seoul, pp. 791.
  38. Lee, T.B. 2003. Coloured flora of Korea. Hyangmunsa, Seoul, 910pp.
  39. Lee, T.S., Lee, K.J., Choi, B.U., and Park, S.C. 2010. Planting managements for improvement of species diversity in Recreational Forest. Korean Journal of Environment and Ecology 24(4): 351-362.
  40. Lee, W.T. 1996a. Standard illustrations of Korean Plants. Academy Press. Seoul, pp. 624.
  41. Lee, W.T. 1996b. Lineamenta flora Korea. Academy Press. Seoul, pp. 1688.
  42. Lee, W.T. and Yim, Y.J. 1978. Studies on the distribution of vascular plants in the Korean peninsula. Korean Journal of Plant Taxonomy 8: 1-33. https://doi.org/10.11110/kjpt.1978.8.1.001
  43. Loucks, O.L. 1970. Evolution of diversity, efficiency, and community stability. American Zoologist 10: 17-25. https://doi.org/10.1093/icb/10.1.17
  44. McMun, B. and Mefford, M.J. 2011. PC-ORD, Multivariate anlysis of ecological data Version 6.0. MjM Software Desing. Gleneden Beach. Oregon, pp. 237
  45. Müller-Dombois, D. and Ellenberg, H. 1974. Aims and methods of vegetation ecology. Wiley New York, pp. 525.
  46. Odum, E.P. 1969. The strategy of ecosystem development. Science 164: 262-270. https://doi.org/10.1126/science.164.3877.262
  47. Park, M.G. 1942. List of Korea alpine plant. Korea Museum Society Magazine 9(33): 181-188.
  48. Peck, J.E. 2010. Multivariate analysis for community ecologist: Step-by-step using PC-ORD. MjM Software Dsign, Gleneden Beach. Oregon. USA, pp. 162.
  49. Shannon, C.E. and Weaver, W. 1949. The mathematical theory of communication. University of Illinois Press, Urbana.
  50. Shin, J.H. and Kim, C.M. 1996. Ecosystem classification in Korea(I): Ecoprovince classification. FRI Journal of Forest. Science 54: 188-199.
  51. Shin, J.H. and Lim, J.H. 2003. Forum and conference on climate change. National Institute of Meteorological Sciences. pp. 82-100.
  52. Shin, K.H., Kwon, H.J., and Song, H.K. 2011. Vegetation and soil properties of the Young-bong area in Woraksan National Park. Journal of Korean Society of Environmental Restoration Technology 14(1): 43-55.
  53. Song, J.S. and Kim, H.K. 1993. Synecological study on the forest vegetation of Imha-dam area, Andong. Korean Journal of Ecological Sciences 64(4): 439-457.
  54. Toyohara, G. 1977. The vegetation and it's mapping of the Hiba Mounatins, Southwestern Honshu, Japan. Journal of Ecology 6: 149-152.
  55. Whittaker, R.H. 1975. Communities and Ecosystem 2nd. ed. The Macmillan Company. pp. 99-120.
  56. Yee, S. and Song, H.K. 2000. Phytosociological sutudy on vegetation of valley in Kyeryongsan National Park. Korean Journal of Environment and Ecology 14(1): 88-98.
  57. Yim, K.B., Kim, G.T. Lee, K.J., and Kim, J.S. 1993. Studies on the structure of forest community at Birobong Area in Sobaeksan. Korean Journal of Environment and Ecology 6(2): 154-161.
  58. Yim, K.B., Kim, Y.S., Chun, S.H., and Jeon, J.I. 1994. Floristic study on Tokyunsan National Park. Korean Journal of Environment and Ecology 7(2): 91-103.
  59. Yim, K.B., Park, I.H., and Lee, K.J. 1980. Phytosociological changes of Pinus densiflora forest induced by insect demage in Kyonggi-do Area. Journal of Korean Forest Society 50: 56-71.
  60. Yim, Y.J. and Kira, T. 1975. Distribution of forest vegetation and climate in the Korean peninsula. (I) Distribution of some indices of thermal climate, Japan. Journal of Ecology 26: 157-164.
  61. Yun, C.W., Kim, H.J., Lee, B.C., Shin, J.H., Yang, H.M., and Lim, J.H. 2011a. Characteristic community type classification of forest vegetation in South Korea. Journal of Korean Forest Society 100(3): 504-521.
  62. Yun, C.W., Shin, J.H., Yang, H.M., Lim, J.H., and Lee, B.C. 2011b. Phytosociological classification of forest vegetation in Korea. Korea Forest Research Institute. Seoul, pp. 135.

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