Korean Journal of Environment and Ecology (한국환경생태학회지)

Korean Society of Environment and Ecology (한국환경생태학회)
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Vegetation Structure and Site Characteristics of Syringa fauriei Population in South Korea

버들개회나무(Syringa fauriei H. Lév.) 개체군의 식생구조와 입지특성

  • 황용 (국립산림품종관리센터) ;
  • 김용율 (국립산림품종관리센터) ;
  • 김무열 (전북대학교 생명과학과)
  • Received : 2016.04.14
  • Accepted : 2016.08.13
  • Published : 2016.08.30
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Abstract

This study intended to investigate environmental factors including soil and vegetation in order to understand the environmental and ecological characteristics of the Korean endemic species, Syringa fauriei. Syringa fauriei is mainly distributed along the valley and riverside of the Gangwondo and its population is located at an elevation of 121~520m. Consequent to a vegetation survey within natural populations, a total of 320 taxa were identified from 20 quadrates in 4 natural populations. The Syringa fauriei population was classified into Securinega suffruticosa dominant population, Acer pseudosieboldianum dominant population, Amorpha fruticosa dominant population and Sorbaria sorbifolia var. stellipila dominant population. According to the physical and chemical soil analysis, Syringa fauriei habitats contained 1.98~2.81% of organic matter and 0.13~0.20 mg/kg of total nitrogen. The concentrations of cation exchange capacities $K^+$, $Ca^{2+}$, and $Mg^{2+}$ were $0.10{\sim}0.33cmol^+/kg$, $3.44{\sim}20.53cmol^+/kg$, and $0.34{\sim}0.95cmol^+/kg$, respectively. Positive ion substitution capacity was $8.08{\sim}13.68cmol^+/kg$. The pH was 6.28~7.74. The importance value of Deutzia glabrata, Fraxinus rhynchophylla, Alangium platanifolium var. trilobum, Syringa fauriei, Juglans mandshurica, and Salix koreensis in the Syringa fauriei population were 86.99%, 43.97%, 23.01%,18.52, 18.40%, and 11.56%, respectively. Correlation analysis between the vegetation of Syringa fauriei populations and its environmental factors using DCCA revealed that the altitude above sea level and $Mg^{2+}$ were the most influential factors, while dominant populations of Securinega suffruticosa and Acer pseudosieboldianum were spread across areas with high percentages of pH, CEC, and $Mg^{2+}$. Acer pseudosieboldianum population was dispersed in areas with higher $K^+$ compared to Securinega suffruticosa population. The dominant population of Amorpha fruticosa was found to live in places with high altitudes above sea level and with high rates of available phosphate, $K^+$, and rock-exposure.

본 연구는 물푸레나무과의 한국특산식물인 버들개회나무 자생지의 입지 환경과 생태적 특성을 알아보기 위하여 수행되었다. 버들개회나무 개체군은 주로 강원도의 계곡과 강변을 따라 분포하고 해발고는 121~520m의 높이에 위치하고 있다. 식생분석결과 4개 지역의 20개 방형구내에서 조사된 관속식물은 총 320분류군이었다. 버들개회나무 개체군은 광대싸리 우점개체군, 당단풍나무 우점개체군, 족제비싸리 우점개체군, 쉬땅나무 우점개체군으로 분류되었다. 토양의 이화학적 특성을 분석한 결과 유기물함량은 1.98~2.81%, 전질소함량 0.13~0.20 mg/kg, 치환성 $K^+$$0.10{\sim}0.33cmol^+/kg$, $Ca^{2+}$$3.44{\sim}20.53cmol^+/kg$, $Mg^{2+}$$0.34{\sim}0.95cmol^+/kg$, 양이온치환용량 $8.08{\sim}13.68cmol^+/kg$이며, 토양 pH는 6.28~7.74인 것으로 조사되었다. 버들개회나무 개체군 내에서 중요치는 물참대 86.99%, 물푸레나무 43.97%, 박쥐나무 23.01%, 버들개회나무 18.52%, 가래나무 18.40%, 버드나무 11.56%로 나타났다. DCCA를 이용한 버들개회나무 개체군의 식생과 환경요인과의 상관분석 결과 해발고도와 $Mg^{2+}$가 가장 큰 영향을 미치는 것으로 나타났으며, 광대싸리와 당단풍나무 우점개체군은 pH, CEC, $Mg^{2+}$가 높은 지역에 분포하였고, 당단풍나무 우점개체군의 경우 광대싸리 우점개체군보다 $K^+$가 높은 곳에 분포하였다. 족제비싸리 우점개체군은 해발고가 높고, 유효인산과 $K^+$, 노암율이 높은 곳에 분포하는 것으로 나타났다.

Keywords

References

  1. Braun-Blanquet, J.(1964) Pflanzensoziologie. Grundzuge der Vegetations-kunde. Springer-Verlag, New York, 631pp.
  2. Black, C. A.․Evans, D. D.․Ensminger, L. E.․White, J. L. and Clark, F. E.(1965) Methods of Soil Analysis. Part I:Physical and Mineralogical Properties, Including Statistics of Measurement and Sampling. Am. Soc.Agr., Madison, Wl. 770pp.
  3. Bicklhaupt, D. H. and White, E. H.(1982) Laboratory manual for soil and plant tissue analysis. SUNY Coll. Envir. Sei. and For. Syracuse, N.Y. 67pp.
  4. Brady,N.C. and R.R. Weil(2009) Elements of the nature and properties of soils(3nd ed.). Prentice Hall publishing company, NJ, USA.
  5. Curtis, J. T. and McIntosh, R. P.(1951) An Upland Forest Continuum in the Prairie Forest Border Region of Wisconsin. Ecological Society of America 32(3):476-496.
  6. Cheon, K.S., J.S. Han, K.A. Kim, K.H. Ok and K.O. Yoo(2012) Habitats environmental characteristics of Polypodium vulgare L. in Uleung-do. Korean Journal of Environment and Ecology. 26(1): 1-10. (in Korean whieth English abstract)
  7. Chung, J. M., J. K. Shin, B. C. Lee and K. W. Park.(2011) Distribution and Population Dynamics of Natural Populations of an Endemic Tree Species, Syringa fauriei H. Lev. in Korea. Joint conference of Forest science. Korean Forest Society. pp. 578-579
  8. Dierssen, K.(1990) Einfuhrung in die Pflanzensoziologie. Akademie-Verlag Berlin, 241pp.
  9. 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. Ithaca, N.Y. Cornell Univ. Press, 50pp.
  10. Jeong, J.H., K.S. Koo, C.H. Lee and C.S. Kim(2002) Physicochemical properties of Korean Forest Soils by regions. Journal of Korean Forest Society 91(6): 694-700. (in Korean with English abstract)
  11. Kim, T. H., J.H. Jung, C.H. Lee, W.K. Lee, I.A. Kang and S.I. Kim(1991) Studies on the Growth of Major Tree Species by Forest Soil Types. The research reports of the forestry research institute 42:91-106. (in Korean with English abstract)
  12. Kim, S. C., Y. S. Kim, H. B. Lee, H. M. Kim and W. G. Park.(2012) Distribution and Population Dynamics of Natural Populations of an Endemic Tree Species, Syringa fauriei H. Lev. in Korea. Joint conference of Forest science. Korean Forest Society. pp. 174-176
  13. Korean National Arboretum and The Plant Taxonomic Society of Korea(2007) A synonymic list of vascular plants in Korea. Korea National Arvoretum, Pocheon, 468pp. (in Korean)
  14. Leveille, H. (1910) Decades plantarum novarum. Fedde. Rep. 8:285.
  15. Lee, S.W.(1981) Studies on forest soils in Korea (II). Jour. Korean For. Soc. 54: 25-35. (in Korean with English abstract)
  16. Lee, T.B.(2014) Coloured Flora of Korea: vol. I,II. Hyangmunsa, Seoul, I: 914pp; II: 910pp. (in Korean)
  17. Mueller-Dombois, D. and Ellenberg, H.(1974) Aims and methods of vegetation ecology. John Wiley and Sons. 54pp.
  18. Miller, H.G. and R.L. Donahue(1990) Soils: an Introduction to Soils and Plant Growth. Prentice-Hall. N. J., 768pp.
  19. National Academy of Agricultural Science.(2012) Agricultural Science and Technology Research Analysis Standard. Rural Development Administration, Korea, 16-20pp.
  20. Park, K.S. and S.O. Lee(1990) The Influence of organic Matter on Soil Aggregation in Forest Soils. Journal of Korean Forest Society 79(4):367-375. (in Korean with English abstract)
  21. Primack, R.B.(2004) A primer of conservation biology(3rd ed.). Sinaurer Associates, U.S.A., 292pp.
  22. Sung, J.W., M.H. Yi, J.W. Yoon, G.S. Kim, H.T. Shin and Y.S. Kim( 2013) Growth environment and vegetation structure of native habitat of Corydalis cornupetala Y. H. Kim et J. H. Jeong. Korean Journal of Environment and Ecology. 27(3): 271-279. (in Korean whieth English abstract)
  23. Ter Braak, C.J.F. and P. Smilauer(1998) CANOCO -Reference Manual and User's Guide to Canoco for Windows. Microcomputer Power, Ithaca, USA, 352pp.
  24. Townsend, C.R., M. Begon and J.L. Harper(2008) Essentials of ecology(3rd ed.). Blackwell Publishing, Oxford.