RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

Objectives: This study was conducted to provide scientific and effective information on phytoncides, which are associated with forest healing, and to activate recreational forests. Methods: The target sites were natural recreation forests, a forest park and an arboretum, and the control sites were three urban parks. The samples were collected at a volume of 6.0 L and a flow rate of 0.1 L/min for one hour using a low volume pump and the solid adsorbent sampling method. The phytoncide compounds adsorbed in the Tenax TA tube were analyzed by a automatic heat desorption unit and GC-MS. Results: By type of recreational forest, the annual concentrations of phytoncide (monoterpene) for the forest park showed the highest concentration with $1.450{\mu}g/m^3$, while those for the arboretum showed the lowest concentration at $0.892{\mu}g/m^3$, and thus the concentration of the forest park was approximately 1.6 times higher than the arboretum. The season showing the highest concentration of phytoncides was summer (June) and the forest park was the highest among the recreational forests. The concentrations of major components for phytoncide showed in descending order: ${\alpha}-pinene$, ${\beta}-pinene$, camphene, 3-carene and limonene. The seasonal concentration of ${\alpha}-pinene$, camphene and ${\beta}-pinene$ by type of recreational forest increased in April, which is characterized by low temperature and humidity, and the seasonal concentration of camphene decreased with higher humidity. The meteorological factors which had the high correlation with the concentration of total terpene were temperature and humidity. $CO_2$ and $O_2$ showed an inverse correlation. Conclusion: The major components of phytoncide were ${\alpha}-pinene$, ${\beta}-pinene$, camphene, 3-carene and limonene in descending order of concentration. Further and systematic study on the chemical nature of individual phytoncides, and on the effect of phytoncides on humans needs to be performed.

번역하기

참고문헌 (Reference)

1 김조천, "침엽수로부터 발생되는 방향성 테르펜의 배출속도 비교 연구" 한국대기환경학회 20 (20): 175-183, 2004

2 손윤석, "유효광합성량 (PAR)의 증가에 따른 BVOCs 배출 특성 변화" 한국대기환경학회 28 (28): 77-85, 2012

3 지동영, "소나무와 잣나무에서 배출되는 주요 테르펜의 배출특성에 관한 비교연구" 한국대기환경학회 18 (18): 515-525, 2002

4 송일석, "광교산의 피톤치드 발생량 및 분포 특성" 한국환경기술학회 14 (14): 269-277, 2013

5 Yokouchi Yoko, "VOC and the Global Envir-onment" NIES Research Booklet 4-9, 2011

6 Lee HY., "The characteristics of temporal and spatial distribution of ambient air ozone concentration in Jeju island" Cheju national university 2007

7 Owen S, "The BEMA-project: screening of 18Mediterranean plant species for volatile organic compound emission" 31 : 101-117, 1997

8 Hirano H, "Test text forest health guidance to forester - forest therapist" fir forest 2011

9 Kim UH, "Phytoncide extraction and processing technologies and current status" 5 (5): 71-82, 2010

10 Dominguez-Taylor P, "Monoterpene and isoprene emission from typical tree species in forest around Maxico City" 29 (29): 2977-2988, 2007