한국환경생태학회지 (Korean Journal of Environment and Ecology)

  • 제36권4호
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  • Pages.402-412
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  • 2022
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  • 1229-3857(pISSN)
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  • 2288-131X(eISSN)
한국환경생태학회 (Korean Society of Environment and Ecology)
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난대 상록활엽수림과 곰솔림 임분 특성 및 NVOCs 발산 특성

Stand Characteristics and NVOCs Emission Characteristics in Warm Temperate Evergreen Broadleaf Forests and Pinus thunbergii Forest

  • 김광일 (전라남도산림자원연구소) ;
  • 김상미 (전라남도산림자원연구소) ;
  • 박인택 (전라남도산림자원연구소) ;
  • 이계한 (전남대학교 농생대 산림자원학과) ;
  • 오득실 (전라남도산림자원연구소)
  • Kim, Gwang-Il (Jeollanam-Do Research Institute of Forest Resources) ;
  • Kim, Sang-Mi (Jeollanam-Do Research Institute of Forest Resources) ;
  • Park, In-Teak (Jeollanam-Do Research Institute of Forest Resources) ;
  • Lee, Kye-Han (Dept. of Forestry, Chonnam National Univ.) ;
  • Oh, Deuk-Sil (Jeollanam-Do Research Institute of Forest Resources)
  • 투고 : 2022.02.09
  • 심사 : 2022.06.15
  • 발행 : 2022.08.31
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초록

본 연구는 주요 난대 상록활엽수종인 붉가시나무, 구실잣밤나무, 동백나무, 황칠나무 등 4종 임분과 곰솔림을 대상으로 2019년 5월~2020년 1월까지 각 산림의 임분 특성 및 NVOCs 발산특성을 알아보고자 수행되었다. 분석 결과, 각 조사구의 계절별 기온 및 습도는 여름철에 고온다습하고 겨울철 저온건조한 일반적 우리나라의 기후적 특성을 보였고 기압은 대체적으로 겨울이 높았으며 봄, 여름보다 가을과 겨울의 기압이 높았다. 조사구 5개소의 총 NVOCs는 전체적으로 여름철에 가장 높았으며 봄, 겨울은 황칠나무림, 가을은 구실잣밤나무림, 여름은 붉가시나무림의 NVOCs량이 상대적으로 높은 특성을 보였다. 수종별로 살펴보면, 침엽수종인 곰솔림보다 난대 상록활엽수종인 붉가시나무, 구실잣밤나무, 동백나무, 황칠나무의 NVOCs 발산량이 낮지 않거나 오히려 높은 것을 확인하였다. NVOCs 발산에 기온(r=0.590, P=0.000), 습도(r=0.655, P=0.000)는 양(+)의 상관관계, 기압(r=-0.384, P=0.000)과 풍속(r=-0.263, P=0.018)은 낮은 음(-)의 영향이 있었다. 미기상인자 중 습도(β=0.507, P=0.000)가 NVOC 발산량에 가장 크게 영향을 미치는 것으로 나타났으며 기온, 기압, 풍속 순으로 영향을 미치는 것으로 분석되었다.

This study investigated each forest's stand characteristics and the NVOCs emission characteristics for Quercus acuta, Castanopsis sieboldii, Dendropanax trifidus, Camellia Japonica which are major warm temperate evergreen broad-leaved species, and Pinus thunbergii. Data were collected from May 2019 to January 2020. The seasonal temperature and humidity of each research site indicated the typical climatic characteristics of Korea, which are hot and humid in summer and cold and dry in winter. Also, the atmospheric pressure was generally high in winter and higher in autumn and winter than in spring and summer. Overall, the total volume of NVOCs (Natural Volatile Organic Compounds) from the five research sites was the highest in the summer. The concentration of TNVOCs was relatively high in the Dendropanax trifidus forest in spring and winter, the Castanopsis sieboldii forest in the autumn, and the Quercus acuta forest in the summer. According to the results of this study, it was confirmed that the concentrations of NVOCs emission of warm temperate evergreen broad-leaved species such as Quercus acuta, Castanopsis sieboldii, Dendropanax trifidus and Camellia Japonica were not lower but rather higher than Pinus thunbergii. The correlation was positive (+) between NVOCs emission and temperature (r=0.590, P=0.000) or humidity (r=0.655, P=0.000), whereas it was negative (-) between NVOCs emission and atmospheric pressure (r=-0.384, P=0.000) or wind speed (r=-0.263, P=0.018). Among the micrometeological factors, humidity (β=0.507, P=0.000) was found to have the greatest effect on NVOC emission, followed by temperature, atmospheric pressure, and wind speed.

키워드

참고문헌

  1. Allen, H.G. and E.G. Ian(2007) Known and unexplored organic constituents in the Earth's atmosphere. Environmental Science & Technology 41: 1514-1521. https://doi.org/10.1021/es072476p
  2. Bernart, M.W., J.H. Cardellina, M.S. Balaschak, M.R. Alexander, R.H. Shoemaker and M.R. Boyd(1996) Cytotoxic falcarinol oxylipins from Dendropanax arboreus. Journal of Natural Products 59(8): 748-801. https://doi.org/10.1021/np960224o
  3. Harrison, D., M. Hunter, A.C. Lewis, P.W. Seakins, T.V. Nunes and C.A. Pio(2001) Isoprene and monoterpene emission from the coniferous species Abies Borisiiregis-implications for regional air chemistry in Greece. Atmospheric Environment 35: 4687-4698. https://doi.org/10.1016/S1352-2310(01)00092-9
  4. Hwang, J.S., J.T. Kang, Y.M. Son and H.S. Jeon(2015) Prediction of the Optimal Growth Site and Estimation of Carbon Stocks for Quercus acuta in Wando Area. Journal of Climate Change Research 6(4): 319-330. (in Korean with English abstract) https://doi.org/10.15531/ksccr.2015.6.4.319
  5. Ji, D.Y., S.Y. Kim and J.S. Han(2002)Study on the Comparison to Source Profile of the Major Terpenes from Pine Tree and Korean Pine Tree. Journal of Korean Society for Atmospheric Environment 18(6): 515-525. (in Korean with English abstract)
  6. Jo, Y.S., S.J. Park, M.A. Jeong, J.H. Lee, R.H. Yoo, C.M. Kim and S.T. Lee(2018)Analysis of Phytoncide Concentration and Micrometeorology Factors by Pinus Koraiensis Stand Density. Journal of Environmental Health Sciences 44(3): 205-216. (in Korean with English abstract) https://doi.org/10.5668/JEHS.2018.44.3.205
  7. Kang, D.J. and K.W. Kim(2012)Effects of Temperature and Wind Velocity on Phytoncide Concentration in Korean Pine(Pinus Koraiensis) Forest. Journal of People Plants and Environment 15(1): 15-20. (in Korean with English abstract)
  8. Kang, J.T., J.W. Kim and C.M. Kim(2012)Development of Assessment Model for the Optimal Site Prediction of Evergreen Broad-leaved Trees in Warm Temperate Zone according to Climate Change. Journal of Agriculture & Life Science 46(3): 47-58. (in Korean with English abstract)
  9. Kang, S.K., M.K. Shin, Q.S. Auh, Y.H. Chun and J.P. Hong(2007)Antibacterial Effect on Oral Pathogenic Bacteria of Phytoncide from Chamaecyparis Obtusa. Journal of Oral Medicine and Pain 32(1): 45-55. (in Korean with English abstract)
  10. Kim, G.W., C.H. Park, S.G. Lee, D.W. Joung, J.D. Lee and B.J. Park(2017)Development of a Prediction Model for NVOCs Concentration with Changing Microclimate in Pinus Densiflora Forest. The Journal of Korean Institute of Forest Recreation 21(3): 11-21. (in Korean with English abstract) https://doi.org/10.34272/FOREST.2017.21.3.002
  11. Kim, H.C., S.S. Oh, Y.C. Song and Y.J. Kim(2013) Distribution Characteristics of Phytoncide in Jeolmul Natural Recreation Forest of Jeju. Journal of Naturopathy 2(2): 89-98. (in Korean with English abstract)
  12. Kim, J.C.(2006) Trends and Control Technologies of Volatile Organic Compound. Journal of Korean Society for Atmospheric Environment 22(6): 743-757. (in Korean with English abstract)
  13. Kim, U.H. and Y.U. Kim(2010) The Current Status of Phytoncide Extraction and Finishing Technology. Dyeing and Finishing 5: 71-82. (in Korean with English abstract)
  14. Korea Forest Service(2019) Statistical Yearbook of Forestry. Korea Fores Service, 444pp.
  15. Lee, B.K. and H.H. Lee(2012) A Study on the Effects of Human Physiology after Forest Phytoncide Therapy. Journal of Naturopathy 1(1): 14-20. (in Korean with English abstract)
  16. Lee, H.O., S.H. Baek and D.M. Han(2001) Antimicrobial Effects of Chamaecyparis obtusa Essential Oil. Korean Journal of Microbiology 29(4): 253-257. (in Korean with English abstract)
  17. Lee, S.W., D.G. Park and K.Y. Kim(2012) Characteristics of phytoncide production at the recreation forest in the Chungbuk area. Journal of Environmental Impact Assessment 21(2): 279-287. (in Korean with English abstract) https://doi.org/10.14249/EIA.2012.21.2.279
  18. Ministry of Environment(2020) Korean Climate Change Assessment Report 2020. 339pp.
  19. Mishra, A.K. and N.K. Dubey(1994) Evaluation of some essential oils for their toxicity against fungi causing deterioration of stored food commodities. Applied and Environmental Microbioligy 60(4): 1101-1105. https://doi.org/10.1128/aem.60.4.1101-1105.1994
  20. National Center for Forest Therapy(2019) Forest Therapy Resources Research Report. 67pp.
  21. National Institute of Biological Resources(2019) The Guidebook of Climate Sensitive Biological Indicator Species. 32pp.
  22. National Institute of Forest Sciences(2013) Diagnosis method and utilization of forest soil. 265pp.
  23. National Institute of Forest Sciences(2018) Phytoncide Concentration and Micrometeorology Factors Occurrence Characteristics of Pinus Koraiensis stand. 64pp
  24. National Institute of Meteorological Sciences(2018) 100 Years of Climate Change on the Korean Peninsula. 31pp.
  25. National Institute of Meteorological Sciences(2019) Global Climate Change Prospect Report. 33pp.
  26. National Species Information System(2022) http://www.nature.go.kr/main/Main.do
  27. Park, H.J., B.G. Yu, S.H. Park, J.Y. Lee, Y.S. Hahm, S.W. Jeong, K.Y. Byeon, S.H. Kim, I.S. Jung and M.L. Lee(2013) Study on Seasonal Variation Characteristics of Forest Phytoncide in Ulsan Metropolitan Trails. Journal of Environmental Science International 22(11): 1415-1419. (in Korean with English abstract) https://doi.org/10.5322/JESI.2013.22.11.1415
  28. Park, J.C., K.C. Yang and D.H. Jang(2010) The Movement of Evergreen Broad-Leaved Forest Zone in the Warm Temperate Region Due the Climate Change in South Korea. Journal of Climate Research 5(1): 29-41. (in Korean with English abstract)
  29. Park, S.U., K.A. Koo and W.S. Kong(2016) Potential Impact of Climate Change on Distribution of Warm Temperate Evergreen Broad-leaved Trees in the Korean Peninsula. Journal of the Korean Geographical Society 51(2): 201-217. (in Korean with English abstract)
  30. Yatagai, M., M. Ohira, T. Ohira and S. Nagai(1995) Seasonal variations of terpene emission from trees and influence of temperature, light and contact stimulation on terpene emission. Chemosphere 30(6): 1137-1149. https://doi.org/10.1016/0045-6535(95)00006-T
  31. Yun, J.H., K. Nakao, C.H. Park, B.Y. Lee and K.H. Oh(2011) Change Prediction for Potential Habitats of Warm-temperate Evergreen Broad-Leaved Trees in Korea by Climate Change. Korean Journal of Environment and Ecology 25(4): 590-600. (in Korean with English abstract)