한국환경생태학회지 (Korean Journal of Environment and Ecology)

  • 제28권2호
  • /
  • Pages.182-196
  • /
  • 2014
  • /
  • 1229-3857(pISSN)
  • /
  • 2288-131X(eISSN)
한국환경생태학회 (Korean Society of Environment and Ecology)
권호 표지
DOI QR코드

DOI QR Code

계방산 가문비나무 및 전나무 임분의 산림식생유형분류와 정량적 분석

Forest Vegetation Classification and Quantitative Analysis of Picea jezoensis and Abies hollophylla stand in Mt. Gyebang

  • 고승연 (충남산림환경연구소 임업시험과) ;
  • 한상학 (공주대학교 산림자원학과) ;
  • 이원희 (공주대학교 산림자원학과) ;
  • 한심희 (국립산림과학원 산림유전자원부) ;
  • 신학섭 (국립생태원 기후생태연구실) ;
  • 윤충원 (공주대학교 산림자원학과)
  • Ko, Seung-Yeon (Dept. of Forestry Experiment, Chungcheongnam-do Forest Environment Research Institute) ;
  • Han, Sang-Hak (Dept. of Forest Resources, Kongju National University) ;
  • Lee, Won-Hee (Dept. of Forest Resources, Kongju National University) ;
  • Han, Sim-Hee (Dept. of Forest Genetic Resources, Korea Forest Research Institute) ;
  • Shin, Hak-Sub (Dept. of Climate & Ecology, National Institute of Korea) ;
  • Yun, Chung-Weon (Dept. of Forest Resources, Kongju National University)
  • 투고 : 2013.12.23
  • 심사 : 2014.03.24
  • 발행 : 2014.04.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

본 연구는 계방산 가문비나무 및 전나무 임분의 산림식생유형분류와 정량적 분석을 위하여 Z-M 식물사회학적 방법으로 식생구조의 유형분류를 실시한 결과, 군락단위에서 가문비나무군락, 전나무군락으로 분류되었으며 가문비나무군락은 군단위에서 흰인가목군과 부게꽃나무군으로 세분되었으며, 전나무군락은 복장나무군과 생강나무군으로 세분되었다. 분류된 식생단위를 기준으로 중요치를 산출한 결과, 가문비나무는 식생단위 1과 2의 교목층에서 각각 30.73%, 20.25%로 비교적 높게 나타나 당분간 가문비나무의 우점이 계속될 것이라 판단되었다. 또한 종다양도를 분석한 결과 식생단위 4의 종다양도 지수는 0.6976으로 가장 낮았으며, 식생단위 2의 종다양도 지수는 1.1256으로 가장 높게 나타났다. 군락간의 유사도는 식생단위 1과 4, 2와 4가 각각 0.2880과 0.3626으로 낮게 나타났으며 식생단위 1과 2, 3과 4의 군락유사성은 각각 0.5411과 0.5041로 나타나, 군락 간 구성종의 차이가 크지 않은 군락으로 판단되었다. 종간연관에 대한 Chi-square matrix와 성좌표를 각각 분석한 결과, 크게 2개의 유형으로 나뉘어졌는데 I유형의 식물 종들은 대부분 식물사회학적으로 분류된 가문비나무군락에서 주로 출현하는 식별종과 표징종이었으며, II유형의 식물종은 전나무군락에서 주로 출현하는 식물종으로, 비교적 습한 곳에 나타나는 종들로 나뉘어졌다. 이러한 결과는 각 수종들이 선호하는 생육환경이 비슷한 종들끼리는 정의 상관이 인정되고, 선호하는 환경이 다른 종들끼리는 부의 상관을 보이는 것으로 판단된다.

In this study, for the forest vegetation classification and the quantitative analysis of the Picea jezoensis and Abies hollophylla stand, the type classification of the vegetation structure was performed with Z-M phytosociological method, and as a result, it was classified into the Picea jenoensis community and the Abies holophylla community in the community unity. The Picea jezoensis community was subdivided into the Rosa koreana group and the Acer ukurunduense group in the group unity and the Abies holophylla community was subdivided into the Acer mandshuricum group and the Lindera obtusiloba group. In the results of estimating the importance value based on the classified vegetation unity, it was deemed that the dominance of the Picea jezoensis would be continued for a while as the importance value from the tree layers of vegetation unity 1 and 2 represented relatively high with 30.73% and 20.25%. In addition, in the results of analyzing the species diversity to estimate the maturity of the community, the species diversity index of the vegetation unity 4 was the lowest with 0.6976 and that of vegetation unity 2 was the highest with 1.1256. As in the similarity between the communities, the vegetation unit 1 and 4 and the vegetation unit 2 and 4 represented low with 0.2880 and 0.3626, respectively, and the similarity between the vegetation unit 1 and 2 and between 2 and 4 represented 0.5411 and 0.5041, respectively, it was deemed that they were the communities that the difference in the composition species between the communities was not big. In the results of analyzing the Chi-square matrix and the catalog of constellations for the interspecific, they were divided mainly into two types, and type 1 plant species were mostly differential species and the characteristic species, which appeared in the Picea jezoensis community classified phytosociologically, and type II plant species were mostly the species appearing in the Abies holophylla community growing in the relatively damp places. Such results is deemed that the positive (+) correlation is recognized among the species, of which growing environments are similar, and the negative (-) correlation .represents among the species, of which preferential environments are different.

키워드

참고문헌

  1. Agnew, A.D.Q.(1961) The ecology of Juncus effusus L. in North Wales. J. Ecol. 49: 83-102. https://doi.org/10.2307/2257425
  2. Aizawa, M., H. Yoshimaru, T. Saito, T. Katsuki, T. Kawahara, K. Kitamura, F. Shi and M. KAJI(2007) Phylogeography of a northeast Asian Spruce, Picea jezoensis, inferred from genetic variation observed in organelle DNA makers. Molecular Ecology 16: 3393-3405. https://doi.org/10.1111/j.1365-294X.2007.03391.x
  3. An, H.C., G.T. Kim, G.C. Choo, T.W. Um, S.B. Park and E.H. Park(2010) A study on the structure of forest community of Picea jezoensis Stands at Cheonwangbong area, Jirisan (Mt.). Jour. Korean For. Soc. 99(4): 590-596. (in Korean with English abstract)
  4. Barbour, M.G., J.H. Buck and W.D. Pitts.(1987) Terrestrial Plant Ecology, 2nd ed. The Benjamin/Cummings Publishing Co. Inc. Menlo Park, pp. 155-229.
  5. Bazzaz, F.A.(1979) The physiological ecology of plant succession. Ann. Rev. Ecol. Syst. 10: 351-371. https://doi.org/10.1146/annurev.es.10.110179.002031
  6. Becking, R.W.(1957) The Zurich-Montpellier School of phytosociogy. Bot. Rev. 23: 411-488. https://doi.org/10.1007/BF02872328
  7. Braun-Blanquet, J.(1964) Pflanzensoziologie Grundzuge der Vegetation der Vegetation 3. Auf, Springer-Verlag, Wien, New York, 865pp.
  8. Brower, J.E. and J.H. Zar(1977) Field and Laboratory Methods for General Ecology. WM. C. Brown Co. Publ. Dubuque, Lowa, 194pp.
  9. Buell, M.F., A.N. Langford., D.W. Davidson and L.F. Ohmann(1966) The upland forest continuum in northern New Jersey. Ecology 47(3): 416-432. https://doi.org/10.2307/1932981
  10. Cho, H.J., K.H. Bea, C.S. Lee and C.H.Lee(2004) Species composition and structure of the evergreen coniferous forest vegetation of the subalpine area. Jour. Korean For. Soc. 93(5): 372-379. (in Korean with English abstract)
  11. Curtis, J.T. and R.P. McIntosh(1957) An upland forest continuum in the prairie-forest boarder region of Wisconsin. Ecology 32: 476-498.
  12. Ellenberg, H.(1956) Grundlagen der Vegetationsgliederung 1. Aufgaben und Methoden der Vegetaionskunde, In: Waltel, H. (Hrsg) Einfuhrung in die Phytologie IV, Stuttgard, 136pp.
  13. Greig-Smith, P.(1983) Quantitative Plant Ecology, 3rd ed. Blackwell Scientific Pub. Oxford, U.K., 359pp.
  14. Hill, M.O.(1979) TWINSPAN-a FORTRAN Program for Arranging Multivariate Data in an Ordered Two Way Table by Classification of Individual and Attributes Ecology and Systematics. Cornell University, Ithaca, New York, 90pp.
  15. Hong S.C., S.H. Byen and S.S. Kim(1987) Colored Illustrations of Trees and Shrubs in Korea. Gyemyengsa, 310pp.
  16. Httenschwiler, S. and W.K. Smith(1999) Seedling occurrence in alpine treeline conifers: A case study from the central Rocky Mountains, USA. Acta Oecologica 20(3): 219-224. https://doi.org/10.1016/S1146-609X(99)80034-4
  17. Jang, I.G., J.S. Kim and K.H. Bea(2008) A study on forest vegetation in Baekcheon valley. Annals of Tourism Research 12(2): 27-37. (in Korean with English abstract)
  18. Jang, W.S.(2008) Stand Structure and Spatial Distribution of Picea jezoensis in Mt.Gyebang, Gangwon Province. Master's Thesis, Univ. of Seoul, Korea, 87pp. (in Korean with English abstract)
  19. Jung, Y.H(1989) Alpine plants in Korea. Science 12: 84-89. (in Korean with English abstract)
  20. Keisuke, Y. and S. Masato(2010) Site preference and occurrence patterns of Picea jezoensis and Abies sachalinensis on decayed logs in natural coniferous forests in Hokkaido, northern Japan. Journal of Forest Research 15: 108-114. https://doi.org/10.1007/s10310-009-0162-4
  21. Kim, H.J.(2009) Study on the Flora and Forest Vegetation Classification of Mt. Munsu and Mt.Okseok. Master's Thesis, Univ. of Kongju, Korea, 96pp. (in Korean with English abstract)
  22. Kim, H.J. and C.W. Yun(2009) A study on the forest vegetation classification and analysis of interspecific association in Mt. Munsu and Mt. Okseok. Jour. Korean For. Soc. 98(4): 397-391. (in Korean with English abstract)
  23. Kim, J.H. and G.H. Geon(1991) Analysis of inter-species association and covariation in a natural deciduous forest. Jour. Korean For. Soc. 80(4): 360-368. (in Korean with English abstract)
  24. Kim, J.H., B.C. Lee and S.M. Lee(1996) The comparative evaluation of plant species diversity in forest ecosystems of Namsan and Kwangneung. Jour. Korean For. Soc. 85(4): 605-618. (in Korean with English abstract)
  25. Kim, J.W. and Y.G. Lee(2006) Classification and Assessment of Plant Communities. World Science, 240pp. (in Korean)
  26. Kim, S.H., H. Kim, W.C. Kang and S.H. Jeon(1997) Flora of alpine region in Mt. Seolag. Journal of Korean Biota. 2: 1-17. (in Korean with English abstract)
  27. Kimmins, J.P.(1987) Forest Ecology. Macumilan Publishing Company, 530pp.
  28. Ko, S.E., S.H. Han and C.W. Yun(2013) Population structure and dynamics of the Picea jezoensis stand in Mt. Gyebangsan. Jour. Korean For. Soc. 102(3): 355-364. (in Korean with English abstract)
  29. Kong, W.S. and D. Watts(1993) The Plant Geography of Korea. Kluwer Academic Publishers. The Netherlands. 19pp.
  30. 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. (in Korean with English abstract)
  31. 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. (in Korean with English abstract)
  32. Kong, W.S.(2000) Geoecology on the subalpine vegetation and landscape of Mt. Sorak. Journal of the Korean Geographical Society 35(2): 177-187. (in Korean with English abstract)
  33. Kong, W.S.(2002) Species composition and distribution of Korean alpine plants. Journal of the Korean Geographical Society 37(4): 357-370. (in Korean with English abstract)
  34. Kong, W.S.(2005) Selection of vulnerable indicator plants by global warming. Asia-Pacific Journal of Atmospheric Sciences 41(2-1): 263-273. (in Korean with English abstract)
  35. Korea Forest Service(2003) Korea Plant Species List. http://www.nature. go.kr/kpni/
  36. Korea Forest Service(2012) http://www.forest.go.kr/
  37. Korea National Arboretum(2009) http://www.nature.go.kr/
  38. Krebs, C.J.(1985) Ecology, 3ed. ed. Haber and Row, Publishing Company, pp. 3-14.
  39. Krestov, P.V. and Nakamura, Y.(2002) Phytosociological study of the Picea jezoensis forests of the Far East. Folia Geobotanica 37: 441-473. https://doi.org/10.1007/BF02803257
  40. Lee, B.C.(1999) Pattern of Distribution of Vegetation and Associated Picea jezoensis. Korea Forest Research Institute, pp. 27-29. (in Korean)
  41. Lee, C.B.(1997) Endemic Plants and Rare Plants Disappearing. Woori, pp. 158-162. (in Korean)
  42. Lee, C.B.(2003) Coloured Flora of Korea. Vol.I, II. Hyangmunsa, Seoul, I: 914pp.; II: 910pp. (in Korean)
  43. Lee, D.K. and J.U. Kim(2007) Vulnerability assessment of sub-alpine vegetations by climate change in Korea. J. Korean Env. Res. & Reveg. Tech. 10(6): 110-119. (in Korean with English abstract)
  44. Lee, G.S., O.G. Choi and S.C. Kim(2002) Effects of human trampling disturbance on the vegetation at the subalpine zone near the peak of Mt. Sorak. J. Ecol. Environ. 25(5): 321-328. (in Korean with English abstract)
  45. Lee, S.T., M.S. Park, H.M. Jun, J.Y. Park and H.S. Cho(2008) The effects of climatic factors on the tree ring growth of Pinus densiflora. Korean Journal of Agricultural and Forest Meteorology 10(4): 177-186. (in Korean with English abstract) https://doi.org/10.5532/KJAFM.2008.10.4.177
  46. Loucks, O.(1970) Evolution of diversity, efficiency, and community stability. Am. Zoologist 10: 17-25.
  47. Ludwig, J.A. and J.F. Reynolds(1988) Statistical Ecology. John Wiley and Sons, New York, 337pp.
  48. Masahiko, N., H. Toshihide, S. Tsuyoshi, O. Shigeo and K. Akio (2003) Effect of seed source elevation on bud opening of Yezo spruce (Picea jezoensis). Journal of Forest Research 8: 267-270. https://doi.org/10.1007/s10310-003-0036-0
  49. McCune, B. and M.J. Mefford(1999) PC-ORD. Multivariate Analysis of Ecological Data, Version 4.0. MjM Software Design, Gleneden Beach, Oregon, 237pp.
  50. Ministry of Environment(1999) Gangneung, Pyeongchang (1-11) In the Natural Environment: Manwolsan, Ironclad Command, Ungye Rods, Hwangbyeongsan, Odaesan, Gyebangsan, Sogyebangsan. Ministry of Environment, 681pp. (in Korean)
  51. Muller-Dombois and H. Ellenberg(1974) Aims and Methods of Vegetation Ecology. Willey, New York, 525pp.
  52. Nakamura, T.(1988) Forest succession in the subalpine region of Mt. Fuji, Japan. Vegetatio 64: 15-27.
  53. Odum, E.P.(1969) The strategy of ecosystem development. Science 164: 262-270. https://doi.org/10.1126/science.164.3877.262
  54. Park, M.G.(1942) List of Korean alpine plants. Korea Museum Society Magazine 9(33): 181-188. (in Korean)
  55. Pielou, E.C.(1977) Mathematical Ecology. John Wiley and Sons, New York, 377pp.
  56. Robert T., M.C. Watson and H. Richard(2001) Technical summary- Climate change: Scientific-Technical Analyses. IPCC, 73pp.
  57. Schluter, D.(1984) A variance test for detecting species associations, with some example applications. Ecology 65: 998-1005. https://doi.org/10.2307/1938071
  58. Shannon, C.E. and W. Weaver(1949) The Mathematical Theory of Communication. Urbana, IL: University of Illinois Press. 117pp.
  59. Toyohara, G.(1977) The vegetation and it's mapping of the Hiba mountains, southwestern Honshu, Japan. Ecol. 6: 149-152.
  60. Yang, H.M., S.K. Kang and J.H. Kim(2001) Selection of desirable species and estimation of composition ratio in a natural deciduous forest. Jour. Korean For. Soc. 90: 465-475.
  61. Yun, C.W., H.J. Kim, B.C. Lee, J.H. Lee and J.H. Lim(2001) Characteristic community type classification of forest vegetation in South Korea. Jour. Korean For. Soc. 100(3): 504-521. (in Korean with English abstract)
  62. Zar, J.H.(1974) Biostatistical Analysis. Prentice-Hall, Englewood Cliffs, NJ, 620pp.