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백두대간 조침령-신배령 구간 소나무림과 신갈나무림의 군락구조

Community Structure of Pinus densiflora and Quercus mongolica forest in Jochimryeong to Shinbaeryeong of the Baekdudaegan

  • 이하영 (국립공주대학교 산림자원학과) ;
  • 김혜진 (국립공주대학교 산림자원학과) ;
  • 신학섭 (국립생태원 기후생태연구실) ;
  • 한상학 (국립공주대학교 산림자원학과) ;
  • 고승연 (충남산림환경연구소 임업시험과) ;
  • 송주현 (국립공주대학교 산림자원학과) ;
  • 이중효 (국립생태원 기후생태연구실) ;
  • 장경환 (국립산림과학원 산림유전자원과) ;
  • 윤충원 (국립공주대학교 산림자원학과)
  • Lee, Ha Young (Department of Forest Resource, Kongju National University) ;
  • Kim, Hye Jin (Department of Forest Resource, Kongju National University) ;
  • Shin, Hak Sub (Department of Climate & Ecology, National Institute of Korea,) ;
  • Han, Sang Hak (Department of Forest Resource, Kongju National University) ;
  • Ko, Seung Yeon (Department of Forestry Experiment, Chungcheongnam-do Forest Environment Research Institute) ;
  • Song, Ju Hyeon (Department of Forest Resource, Kongju National University) ;
  • Lee, Jung Hyo (Department of Climate & Ecology, National Institute of Korea,) ;
  • Jang, Kyung Hwan (Division of Forest Genetic Resources, Korea Forest Research Institute) ;
  • Yun, Chung Weon (Department of Forest Resource, Kongju National University)
  • 투고 : 2014.04.01
  • 심사 : 2014.06.02
  • 발행 : 2014.09.30

초록

백두대간 조침령-신배령 구간 소나무림과 신갈나무림을 대상으로 2012년 4월부터 2013년 8월까지 영구조사구($100m{\times}100m$) 설치하여 조사하였다. 총 50개소의 산림식생조사 자료를 토대로 Z-M식물사회학적 방법에 의해 식생유형 분류를 수행하였던바, 최상위 수준에서 신갈나무군락군이 분류되었으며, 군락단위에서는 물푸레나무군락과 까치박달군락으로 세분되었다. 물푸레나무군락은 군단위에서 소나무군과 가래나무군으로 나누어지며, 소나무군은 다시 회나무소군과 머루소군으로 분류되었고, 까치박달군락은 시닥나무군과 사스래나무군으로 각각 세분되어, 총 5개의 식생단위로 분류되었다. 식생단위별 중요치를 분석한 결과 소나무림에서 소나무와 신갈나무의 중요치가 20%이상으로 높게 나타났으나 소나무가 신갈나무보다 상대피도가 50%이상으로 가장 높게 나타났다. 종간연관 분석결과 크게 4개의 유형으로 구분되었고, 이는 식생단위의 식별종 및 표징종과 일치하는 경향이었다. 또한 소나무림의 흉고직경급별 개체 분포에서 중간직경급에서 개체수가 가장 많은 정규분포를 나타낸 소나무와 이를 제외한 다른 수종은 직경이 커질수록 개체수가 감소하는 역 J자형의 분포유형을 나타내어 소나무림에서 신갈나무림으로 교체될 가능성이 크다 판단된다. 반면 신갈나무림에서는 신갈나무를 포함한 다른 수종 모두 역 J자형의 분포유형을 나타내어 신갈나무림은 당분간 안정된 상태로 지속될 것으로 판단되었다.

The study was carried out to analyze vegetation structure of Pinus densiflora and Quercus mongolica forests located in Jochimryeong to Shinbaeryeong of the Baekdudaegan mountain range. The survey for 50 plots was conducted from April 2012 to August 2013 in the permanent plots ($100m{\times}100m$) using phytosociological analysis. As a result, the vegetations were classified into five vegetation units. In species composition, they were classified into Q. mongolica community group divided into 2 community such as Fraxinus rhynchophylla community and Carpinus cordata community, F. rhynchophylla community was subdivided Pinus densiflor group (into Euonymus sachalinensis subgroup, Vitis coignetiae subgroup) and Juglans mandshurica group. C. cordata community was subdivided Acer komarovii group and Betula ermanii group. In terms of importance value, P. densiflora and Q. mongolica were more than 20% respectively. P. densiflora was found to have the highest relative coverage. Analysis of interspecific association showed four types which were coincident with differential species and character species on the constancy table. Based on the diameter class distribution, P. densiflora forest presented a normal distribution pattern except for other species which showed a reverse Jshaped distribution pattern, therefore P. densiflora forest would likely be replaced by Q. mongolica forests. While in Q. mongolica forest, diameter class distribution of all species population presented a reverse J-shaped distribution pattern, therefore Q. mongolica forest could likely remain in the future.

키워드

참고문헌

  1. An, H.C. and Choo, G.C. 2010. Vegetation structure of the Woongseokbong in the Jirisan(Mt.). Korean Journal of Environment and Ecology 24(5): 547-555.
  2. Barbour, M.G., Burk, J.H., and Pitts, W.D. 1987. Terrestrial plant ecology 2nd ed. The benjamin Cummings Publishing Co. Menlo Park. pp. 604.
  3. Byun, D.W., Lee, H.J.. and Kim, C.H. 1998. Vegetation pattern and successional serein the forest of Mt. Odae. Korean Journal of Environment and Ecology 21(3): 283-290.
  4. Cho, H.S. and Choi, S.H. 2002. Plant community structure of the Baekcheon valley in Taebaeksan area, the Baekdudaegan. Korean Journal of Environment and Ecology 15(4): 369-378.
  5. Choi, B.H. 2002. Theory of divination based on topography of Do Seon and Founding principle of a nation of Korean dynasty. pp. 11-32. In:Kim, C.J. ed. Geomancy culture of Korea. Park I-jeong book. Seoul.
  6. Choi, C.J. 1990. Where is the good land. Booksea. Seoul. pp. 504.
  7. Choi, S.H. and Oh, K.K. 2003. Vegetation structure of mountain ridge from Jeongryeongchito to Bokseongijae in the Baekdudaegan. Korean Journal of Environment and Ecology 16(4): 421-432.
  8. Choi, S.H., Kwon, J.O., and Song, K.J. 2000. Analysis on the forest community structure of Daewon valley in Chirisan National Park. Korean Journal of Environment and Ecology 13(4): 354-366.
  9. Choo, G.C. and Kim, G.T. 2005. Vegetation structure of mountain ridge from Bubong to Poamsanin Baekdudaegan. Korean Journal of Environment and Ecology 19(2): 83-89.
  10. Cole, L.C. 1949. The measurement of interspecific association. Journal of Ecology 30(4): 411-424. https://doi.org/10.2307/1932444
  11. Curtis, J.T. and Mcintosh, R.P. 1951. An upland forest continuum in the prairie-forest border region of Wisconsin. Journal of Ecology 32(3): 476-498. https://doi.org/10.2307/1931725
  12. Ellenberg, H. 1956. Grundlagen der vegetationsgliederung. Aufgaben und Methoden der Vegetationskunde. Ulmer. Germany. pp. 136.
  13. Ford, E.D. 1975. Competition and stand structure in some evenaged plant monocultures. Journal of Ecology 63(1): 311-333. https://doi.org/10.2307/2258857
  14. Hill, M.O. 1979. TWINSPAN, a FORTRAN program for arranging multivariate data in an ordered two way table by classification of the individuals and attribute. Ecology and Systematics, Cornell University. Ithaca, N.Y. pp. 99.
  15. Hwang, K.M., Lee, J.M., and Kim, J.H. 2012. Community classification and successional trends in the natural forest of Baekdudaegan in Gangwon Province -focused on Hyangrobong, Odaesan, Seokbyeongsan, Dutasan, Deokhangsan and Hambaeksan-. Journal of Agriculture and Life Sciences 46(4): 41-55.
  16. Kim, G.T. and Choo, G.C. 2003. Vegetation structure of mountain ridge from Nogodan to Goribong in Baekdudaegan, Korea. Korean Journal of Environment and Ecology 16(4): 441-448.
  17. Kim, H.J. 2009. A study on the flora and forest vegetation classification of Mt. Munsu and Mt Okseok. Kongju University. Masters Thesis. pp. 88.
  18. Kim, H.J. and Yun, C.W. 2009. A Study on the forest vegetation classification and analysis of interspecific association in Mt. Munsu and Mt. Okseok. Journal of Korean Forest Society 98(4): 379-391.
  19. 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.
  20. Kim, J.H., Lee, D.K., Kim, Z.S., Lee, K.J., Hyun, J.O., Hwang, J.W., and Kwon, K.W. 1993. The interpretation for stand structure in natural oak forests. Journal of Korean Forest Society 82(3): 235-245.
  21. Kim, J.S., Kim, G.T., and Choo, G.C. 1990. The actual vegetationin Mt. Sokri. Korean Journal of Environment and Ecology 4(1): 1-15.
  22. Korea Forest Research Institute. 2010. Geographical range of Baekdudaegan mountain system and development of restoration model for it's deteriorated ecosystem. Korea Forest Research Institute. pp. 245.
  23. Korea Forest Service. 2013. Assessment of the Korea's Forest Resources. Korea Forestry Promotion Institute. pp. 291.
  24. 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 90(4): 548-557.
  25. Lee, H.J., Byun, D.W., and Kim, C.H. 1998. Analysis of interspecific association and ordination on the forest vegetation of Mt. Odae. Journal of Ecology and Field Biology 21(3): 291-300.
  26. Lee, J.H., Bae, K.H., and Cho, H.J. 2006. Forest vegetation classification and species composition of Mt. Ilwol, Yeongyang-Gun, Korea. Korean Journal of Agricultural and Forest Meteorology 8(3): 132-140.
  27. Lee, J.H., Cho, H.J., Lee, B.C., Oh, S.H., and Bae, K.H. 2007. Forest vegetation types and growth characteristics of Seonginbong in Ulleung Island, Korea. Korean Journal of Agricultural and Forest Meteorology 9(1): 37-48. https://doi.org/10.5532/KJAFM.2007.9.1.037
  28. Lee, K.J., Cho, W., and Han, B.H. 1996a. Plant community structure of Pinus densiflora forests in Odaesan National Park. Korean Journal of Environment and Ecology 9(2): 115-125.
  29. Lee, K.J., Han, S.S., Kim, J.H., and Kim, Y.S. 1996b. Forest ecology. Hyangmunsa. Seoul. pp. 395.
  30. Lee, K.S., Kim, S.K., Bae, S.W., Lee, J.H., and Jung, M.H. 2009. Vegetation type and stand structure of Pinus densiflora forests in Samcheok and Taebaek of Kangwon Southern Region. Journal of Korean Forest Society 99(6): 855-862.
  31. Lee, S.H., Kim, H.J., and Yun, C.W. 2012. Correlation analysis between forest community structure and environment factor in Mt. Guryong, Gyeongsangbuk-Do Province. Journal of Korean Forest Society 101(3): 526-537.
  32. Lim, D.S. 1999. Mark Mountains Baekdudaegan discussion about the history, geography. Restoration and management direction Baekdudaegan explore the concept of the symposium. pp. 1-22.
  33. Lim, K.B. 1989. The theory of silviculture. Hyangmunsa. Seoul. pp. 491.
  34. Ministry of Environment. 2002. A study on the efficient management of the Baekdu Daegan II. Ministry of Environment. pp. 514.
  35. Ministry of Environment. 2012. 2012 Ecosystem Baekdudaegan scrutiny. National Institute of Environmental Research. pp. 406.
  36. Mirov, N.T. 1967. The genus Pinus. The Ronald Press Company, New york. pp. 602.
  37. Mohler, C.L., Marks, P.L., and Sprugel, D.G. 1978. Stand structure and allometry of tree during self-thinning of pure stands. Journal of Ecology 66(2): 599-614. https://doi.org/10.2307/2259153
  38. Oh, K.K., Choi, S.H., Kim, S.H., and Choi, W.K. 2005. Analysis of the forest community structure in the Woraksan National Park -Case study of Yeongbong and Doraksan region-. Korean Journal of Environment and Ecology 19(2): 90-98.
  39. Park, I.H., Seo, Y.K., and Choi, Y.C. 2003. Forest structure in relation to slope aspect and altitude in valley forests at Baraebong, Jirisan National Park. Korean Journal of Environment and Ecology 16(4): 449-456.
  40. Shin, J.H. 2004. Management area and management strategy of Baekdudaegan. Korean Journal of Environment and Ecology 18(2): 197-204.
  41. Shin, J.H. and Kim, C.M. 1996. Ecosystem classification in Korea(I) : Ecoprovince classification. Korea Forest Research Institute 54: 188-199.
  42. Song, H.K. and Jang, K.K. 1997. Study on the DBH analysis and forest succession of Pinus densiflora and Quercus mongolica forests. Journal of Korean Forest Society 86(2): 223-232.
  43. Song, Y.H. and Yun, C.W. 2006. Vegetation structure of subalpine forest zone in Mt. Seorak. Korean Journal of Environmental Biology 24(3): 268-274.
  44. Welch, J.R. 1960. Observation on deciduous woodland in the Eastern Provenance of Tanganyika. Journal of Ecology 48(3): 557-573. https://doi.org/10.2307/2257333
  45. Yang, H.S. 2002. Phytosociological studies of Pinus densiflora forest in Islets of Southwestern Coast, Korea. Journal of Ecology and Field Biology 25(3): 197-204. https://doi.org/10.5141/JEFB.2002.25.3.197
  46. Yeocheon Ecology Research Society. 2005. Modern ecological experiment. Kyomunsa. Seoul. pp. 370.
  47. Yu, J.E., Lee, J.H., and Kwon, K.W. 2003. An analysis of forest community and dynamics according to elevation in Mt. Sokri and Odae. Korean Journal of Agricultural and Forest Meteorology 5(4): 238-246.
  48. Yun, C.W. and Hong, S.C. 2000. Quantitative analysis of vegetation types in Pinus densiflora for. erecta forest. Journal of Ecology and Field Biology 23(3): 281-291.
  49. Yun, C.W., Kim, H.J., Lee, B.C., Shin, J.H., Yang, H.M., and Lim, J.H. 2011. Characteristic community type classification of forest vegetation in South Korea. Journal of Korean Forest Society 100(3): 504-521.
  50. Yun, J.W., Jung, S.C., Koo, G.S., Lee, J.H., Yun, C.W., and Joo, S.H. 2010. Forest vegetation classification on Sobaeksan National Park in the Baekdudaegan. Korean Journal of Environment and Ecology 24(6): 630-637.

피인용 문헌

  1. Comparison of Butterfly Communities between Guryongryeong and Gojigkyeong of the Baekdudaegan Mountain Range and the Changes in Their Distribution vol.54, pp.3, 2015, https://doi.org/10.5656/KSAE.2015.06.0.008
  2. Phytosociological Community Classification of Mountain Ridge from Guryongryeong to Mt. Yaksu in the Baekdudaegan, Korea vol.28, pp.6, 2014, https://doi.org/10.13047/kjee.2014.28.6.741
  3. 백두대간(깃대배기봉-죽령 구간) 마루금 주변의 산림식생구조 vol.108, pp.2, 2014, https://doi.org/10.14578/jkfs.2019.108.2.147
  4. 백두대간 미시령-단목령 구간의 마루금 주변 산림식생에 대한 식물사회학적 군락유형분류 vol.108, pp.3, 2019, https://doi.org/10.14578/jkfs.2019.108.3.277