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Study on Natural VOC Emission Rates and Characteristics Emitted from Larix Leptoleis (Sieb. et Zucc.) Gordon
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 Title & Authors
Study on Natural VOC Emission Rates and Characteristics Emitted from Larix Leptoleis (Sieb. et Zucc.) Gordon
Kim, Ki-Joon; Kim, Jo-Chun; Lim, Jun-Ho; SunWoo, Young; Park, Hyun-Ju; Cho, Kyu-Tak;
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In order to investigate the compositions and the emission rates of monoterpenes emitted from coniferous trees, those from Larix leptoleis (Sieb, et Zucc.) Gordon were measured. In spring and summer, the major monoterpenes were , myrcene; however, were most abundant in fall. The total mean monoterpene emission rates were during the whole period. The higher monoterpene emission rates were found in fall compared to those in spring and summer. In addition, the slopes () between emission rate and temperature were two times lower in fall than those in spring and summer. It was also found that Larix leptoleis (Sieb. et Zucc.) Cordon had lower monoterpene emission rates than P. densiflora and P. rigida.
NVOC;Monoterpene;ERs;;Larix leptoleis (Sieb. et Zucc.) Gordon;
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Seasonal variations and emission fluxes of monoterpene emitted from coniferous trees in East Asia: focused on Pinus rigida and Pinus koraiensis, Journal of Atmospheric Chemistry, 2015, 72, 1, 27  crossref(new windwow)
Michael. E. H. et al., 1997, The tropospheric degradation of volatile organic compounds: A protocal for mechanism development, Atmospheric Environment, 3(1), 81-104

Nunes, T. V. and Pio C. A, 2001, Emission of volatile organic compounds from Portuguese eucalyptus forests, Chemosphere-Global Change Science, 3(3), 239-248 crossref(new window)

Harrison, D., Hunter, M. C., Lewis, A. C., Seakins, P. W., Nunes, T. W. and Pio, C. A., 2001, Isoprene and monoterpene emission from the coniferous species Abies Borisiiregis-implications for regional air chemistry in Greece, Atmospheric Environment 35, 46874698 crossref(new window)

Went, F. W., 1960, Organic matter in the atmosphere and its possible relation to petroleumformation, Proc. Nat. Acad. Sci., U.S.A, 46, 212-221

Finlayson-Pitts, B. J. and PittsJ. N. N., 1993, Atmospheric chemistry of tropospheric ozone: scientific and regulatout implications, J. Air Waste Man. Ass., 43, 1091-1100 crossref(new window)

Arey, J., E. C. David, C. Margaret, R. Margaret, and L. Julia, 1995, Hydrocarbon emissions from natural vegetation in california's south coast air basin, Atmos. Environ., 29(21), 2977-2988 crossref(new window)

김조천, 홍지형, 강창희, 선우영, 김기준, 임준호, 2004, 침엽수로부터 발생되는 방향성 테르펜의 배출속도 비교 연구, 한국대기환경학회, 20(2) 175-183

Rasmussen, R. A and C. A Jones, 1973, Emission of isoprene from leaf discs of Hammameis, Photochem, 12, 15-19 crossref(new window)

Tingey, D. T., 1981, The effect of environmental factors on the emission of biogenic carbons from live oak and slash pine, In 'Atmospheric Biogenic Hydrocarbons'' (J. J. Bufalini and R. R. Arnts, eds.). 1, Emissions, 53-79

Guenther, A B., R. K. Monson and R. Fall, 1991, Isoprene and monoterpene rate variability: observations with Eucalyptus and emission rate algorithm development, J. Geophys, Res., 96(D6), 10799-10808 crossref(new window)

Trapp, D. et al., 2001, Isoprene and its degradation products methyl vinyl ketone, methacrolein and formaldehyde in a eucalyptus, Chemosphere-Global Change Science, 3, 295307 crossref(new window)

Owen, S., C. Boissard, R, A. Street, S. C. Duckham and C. C. Hewitt, 1997, The BEMAproject: screening of 18 Mediterranean plant species for volatile organic comound emission, Atmospheric Environment, 31, 101-117 crossref(new window)

Kim, J. C., 1995, Monoterpene emissions from pine trees and their contributions to ambient air quality in a southeastern pine forest, University of Florida

Zimmerman, P. R, 1979, Testing of Hydrocarbon Emissions from Vegetation, Leaf Litter and Aquatic Surfaces, and Development of a Methodology for Compiling Biogenic Emission Inventories. EPA-450/4-79-004, U.S. Environmental Protection Agency (U.S. EPA)

Winer, A. M., D. R Fitz and P. R Miller, 1983, Investigation of the Role of Natural Hydrocarbons in Photochemical Smog Formation in Calif., Contract #A0-056-32, Air Resour., Board, Sacramento

Kim, J. C., 2001, Factors controlling natural VOC emissions in a southeastern US pine forest, Atmospheric Environment, 35, 3279-3292 crossref(new window)

Kim, J C., 2001, Development of a Novel Sampling Technique for Natural vac emissions, J Korean Society for Atmospheric Environment, 17(E2), 61-70

Kesselmeier, J, L. Schafer, P. Ciccioli, E. Brancaleoni, A. Cecinato, M. Frattoni, P. Foster, V. Jacob, J Denis, J. L. Fugit, L. Dutaur and L. Torres, 1996, Emission of monoterpenes and isoprene from a mediterranean oak species Quercus ilex L. measured within the bema (Biogenic emissions in the mediterranean area) project, Atmospheric Environment, 30(10/11), 1841-1850 crossref(new window)

Komenda, M., E. Parusel, A. Wedel and R. Koppmann, 2001, Measurements of biogenic VOC emissions: sampling, analysis, and calibration, Atmospheric Environment, 35, 20692080 crossref(new window)

김조천, 김기준, 홍지형, 선우영, 임수길, 2004, 여름철 참나무속의 이소프렌 배출속도 비교에 관한 연구, 한국대기환경학회, 20,111-118

Holm, Y. and Hiltunen, R., 1997, Variation and inheritance of monoterpenes in Larix species., Flavour Fragrance J, 12, 335-339 crossref(new window)