Journal of the Korean Society of Environmental Restoration Technology (한국환경복원기술학회지)

The Korea Society of Environmental Restoration Technology (한국환경복원기술학회)
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The Study of Distribution Changing and Community Characteristics of Daphniphyllum macropodum (National Monument No. 91) in Naejangsan National Park

내장산국립공원 굴거리나무군락의 군집특성 및 분포 변화 연구

  • Shin, Jin-Ho (National Research Institute of Cultural Heritage) ;
  • Jeon, Yong-Sam (Dept. of Horticulture, Chungnam National University) ;
  • Son, Ji-Won (National Research Institute of Cultural Heritage)
  • Received : 2016.03.24
  • Accepted : 2016.06.25
  • Published : 2016.06.30
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Abstract

This study was focused on the northernmost limit of the distribution changing of Daphniphyllum macropodum and studied characteristic of plant communities of natural monument No. 91 in Najangsan national park, Korea. The results of this study were as follows : 1. The highest importance percentage(I.P.) value at tree layer in Quercus. mongolica community was Q. mongolica, 37.8%. But the highest value of mean importance percentage(M.I.P.) was D. macropodum, 32.8%. 2. The highest I.P. value at tree layer in Carpinus laxiflora community was C. laxiflora, 47.4%. The highest M.I.P. value was C. laxiflora, 28.8% and M.I.P. value of D. macropodum was 24.0%. 3. The highest I.P. value at tree layer in D. macropodum community was D. macropodum, 55.6%. C. laxiflora and Q. mogolica I.P. value was 14.8% and 6.8%, respectively. The highest M.I.P. value was D. macropodum, 47.9%. Sapium japonicum and C. laxiflora M.I.P. value was 11.4% and 10.7%, respectively. 4. The highest I.P. value at tree layer in Quercus variabilis community was C. laxiflora, 20.8%. Q. variabilis and Acer pseudosieboldianum I.P. value was 15.3% and 12.5%, respectively. The highest M.I.P. value was D. macropodum, 21.5%. It needs to the continuous monitoring of vegetation and importance percentage change in tree layer and subtree layer of D. macropodum. The researching results of D. macropodum distribution, the distribution range of D. macropodum showed expanded more than range of Lim and Oh' result(1999). In other words, it was distributed low density level between Najangsa temple and Byeokryeonam, and distributed in upper Keumsun waterfall and Wonjeok upper valley. D. macropodum was appeared on hiking trails around from Wonjeokam to Bulchulbong. Especially, it was found in this study that D. macropodum was distributed on Seoraebong's north which placed outside area of Naejangsa region. In this study, it was considered that distribution range of D. macropodum was expanded. Also, it is expected to be used as a result of the field study of changing distribution study of broad leaved evergreen forest due to global warming.

Keywords

References

  1. Bae JY.Kim JS.Lee KJ.Kim JY and Yeum JH. 2013. Changes of vegetation structure in Naejangsan district, Najangsan National Park for twenty years(1991-2010), Korea. Korean J. Environ. Ecl. 27(1): 99-112. (in Korean with English summery)
  2. Bae KW.Lee KJ.Han BH.Kim JY and Jang JH. 2012. Actual vegetation and plant community structure of geumasun valley and weonjeok valley in Naejangsan(Mt.) National Park, Korea. Kor. J. env. Eco. 26(3): 412-425. (in Korean with English summery)
  3. Box, E. O..D. W. Crumpacker and E. D. Hardin. 1993. A climatic model for location of plant species in Florida, USA. Jorunal of Biogeography 20: 629-644. https://doi.org/10.2307/2845519
  4. Brower, J. E. and J. H. Zar. 1977. Field and laboratory methods for general ecology. Wm. C. Brown Company, p.194.
  5. Choi SH.Oh KK.Cho HS and Kang HM. 2011. Ecological characteristics of Daphniphyllum macropodum Miq. community in Naejangsan National Park. Kor. J. Env. Eco. 25(2): 175-188. (in Korean with English summery)
  6. Curtis, J. T. and R. P. McIntosh. 1951. An upland forest continuum in the Prairie-forest Border Region of Wisconsin. Ecology 32: 476-496. https://doi.org/10.2307/1931725
  7. Jeong JC.Jeong JY.Choi JH.Jeon KS and Bae JH. 2011. Growth performances of seedlings of Daphniphyllum macropodum in Naejang National Park for container seeding production. Journal of Bio-Environment Control 20(4): 365-372.
  8. Kil BS.Kim JU and Kim YS. 2000. Forest vegetation of southern area of Mt. Naejang National Park, Korea. Korean J. Ecol. 23(3): 231-240. (in Korean with English summery)
  9. Kim JS and Kim TY. 2011. Woody plants of Korean peninsula. press Dolbegae. p.126. (in Korean)
  10. Kim JY. 2012. Actual vegetation and sturcture of plant community of forest ecosystem in Taejongdae, Busan City, Korea. Kor. J. Env. Eco. 26(3): 426-436. (in Korean with English summery)
  11. Koo KA.Park WK and Kong WS. 2000. Growth of Daphniphyllum macropodum and climatic factors at Mt. Naejang, Korea. The Korean Journal of Quaternary Research 14(1): 65-71. (in Korean with English summery)
  12. Lee TB. 2006. Coloured flora of Korea. p.669. (in Korean)
  13. Lee WT and Yim YJ. 1978. Studies on the distribution of vascular plants in korean peninsula. Journal of the Botanical Society of Korea 8: appendix 1-33. (in Korean with English summery)
  14. Lim YH and Oh KK. 1999. Ecological characteristics of Daphniphyllum macropodum population in the Naejangsan National Park. Korean Journal of Environment and Ecology. 13(1): 17-33 (in Korean with English summery)
  15. Ministry of Environment. 2012. 4th National Ecosystem Surveys. Plant community p.7. (in Korean)
  16. Park IH.Lee KJ and Jo JC. 1987. Forest community structure of Mt. Bukhan area. Journal of korean applied ecology 1(1): 1-23. (in Korean with English summery)
  17. Rijksherbarium. 1867. Annales Musei botanici lugduno-batavi v. 3. Amstelodami, Apud C.G. van der Post. Netherlands. p.129.
  18. Woodward, F. I. 1992. A review of the effects of climate on vegetation: range, competition, and composition. pp.23-105
  19. Huggett R. J. 1998. Fundamentals of Biogeography, pp.21-23, London and New York
  20. Yim KB.Park IH and Lee KJ. 1980. Phytosociological changes of Pinus densiflora forest induced by insect damage in Kyonggido Area. Journal of Korean Forestry 50: 56-71. (in Korean with English summery)
  21. Yim YJ and Kim JU. 1992. The Vegetation of Mt. Chiri National Park. The Chung-Ang University Press, p.200.
  22. Yim YJ and T. Kira. 1975. Distribution of forest vegetation and climate in the Korean peninsula. I. Distribution of some indices of thermal climate. Japanese J. Ecol. 25: 77-88. (in Japanese with English summery)
  23. Yim YJ. 1977. Distribution of forest vegetation and climate in the Korean Peninsula. III. Distribution of tree species along the thermal gradient. Jap. J. Ecol. 27: 177-189.
  24. Yun JH.K Nakao.Park CH.Lee BY and Oh KH. 2011. Change prediction for potential habitats of warm-temperate evergreen broadleaved trees in Korea by climate change. Kor. J. Env. Eco. 25(4): 590-600.
  25. CHA(2015) http://www.cha.go.kr
  26. KMA(2015) http://www.kma.go.kr
  27. KNPS(2015) http://www.knps.or.kr
  28. NGII(2015) http://www.ngii.go.kr