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NTIS 바로가기한국대기환경학회지 = Journal of Korean Society for Atmospheric Environment, v.32 no.1, 2016년, pp.21 - 31
함지영 (고려대학교 지구환경과학과) , 이미혜 (고려대학교 지구환경과학과) , 김현석 (서울대학교 농업생명대학교 산림과학부 산림환경학전공) , 박현주 (국립환경과학원 대기환경연구과) , 조강남 (국립환경과학원 대기환경연구과) , 박정민 (국립환경과학원 대기환경연구과)
Organic carbon (OC) and elemental carbon (EC) in
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핵심어 | 질문 | 논문에서 추출한 답변 |
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미세입자는, 생태계에서 무엇에 영향을 미치는가? | 미세입자(particulate matter, PM)는 기후 변화, 가시거리 감소, 식물 생장 장애 등에 크게 기여한다(Anderson et al., 2012; Rattigan et al. | |
초미세입자가 인간에게 미치는 영향은? | 5 μm 미만인 초미세입자(PM2.5)는 이러한 영향뿐 아니라 인간의 폐나 호흡기에 악영향을 끼치는 것으로 알려져 있다(Bond et al., 2013; Janssen et al. | |
PM2.5를 구성하는 탄소화합물 중, EC는 무엇인가? | , 2009). EC는 주로 생체 소각(biomass burning)과 석탄 및 디젤 연소에서 검댕(soot)의 형태로 배출되며(Chow et al., 2010), 대부분 대기 중으로 직접 방출되는 1차 오염물질이다(Sandrini et al., 2014). |
Agarwal, S., S.G. Aggarwal, K. Okuzawa, and K. Kawamura (2010) Size distributions of dicarboxylic acids, ketoacids, ${\alpha}$ -dicarbonyls, sugars, WSOC, OC, EC and inorganic ions in atmospheric particles over Northern Japan: implication for long-range transport of Siberian biomass burning and East Asian polluted aerosols, Atmos. Chem. Phys., 10(13), 5839-5858.
Anderson, J.O., J.G. Thundiyil, and A. Stolbach (2012) Clearing the air: a review of the effects of particulate matter air pollution on human health, Journal of Medical Toxicology, 8(2), 166-175.
Andreae, M.O. and P.J. Crutzen (1997) Atmospheric aerosols: Biogeochemical sources and role in atmospheric chemistry, Science, 276(5315), 1052-1058.
Atkinson, R. (2000) Atmospheric chemistry of VOCs and NOx, Atmos. Environ., 34(12-14), 2063-2101.
Bates, T.S., P.K. Quinn, D.J. Coffman, J.E. Johnson, and A.M. Middlebrook (2005) Dominance of organic aerosols in the marine boundary layer over the Gulf of Maine during NEAQS 2002 and their role in aerosol light scattering, J. Geophys. Res., 110 (D18), doi:10.1029/2005JD005797.
Bond, T.C., S.J. Doherty, D.W. Fahey, P.M. Forster, T. Berntsen, B.J. DeAngelo, M.G. Flanner, S. Ghan, B. Kaercher, D. Koch, S. Kinne, Y. Kondo, P.K. Quinn, M.C. Sarofim, M.G. Schultz, M. Schulz, C. Venkataraman, H. Zhang, S. Zhang, N. Bellouin, S.K. Guttikunda, P.K. Hopke, M.Z. Jacobson, J.W. Kaiser, Z. Klimont, U. Lohmann, J.P. Schwarz, D. Shindell, T. Storelvmo, S.G. Warren, and C.S. Zender (2013) Bounding the role of black carbon in the climate system: a scientific assessment, J. Geophys. Res., 118(11), 5380-5552.
Chou, C.C.-K., C.T. Lee, M.T. Cheng, C.S. Yuan, S.J. Chen, Y.L. Wu, W.C. Hsu, S.C. Lung, S.C. Hsu, C.Y. Lin, and S.C. Liu (2010) Seasonal variation and spatial distribution of carbonaceous aerosols in Taiwan, Atmos. Chem. Phys., 10(19), 9563-9578.
Chow, J.C., J.G. Watson, D.H. Lowenthal, L.-W.A. Chen, and N. Motallebi (2010) Black and organic carbon emission inventories: review an application to California, J. Air Waste Manage. Assoc., 60(4), 497-507.
Chow, J.C., J.G. Watson, P. Doraiswamy, L.-W.A. Chen, D.A. Sodeman, D.H. Lowenthal, K. Park, W.P. Arnott, and N. Motallebi (2009) Aerosol light absorption, black carbon, and elemental carbon at the Fresno Supersite, California, Atmos. Res., 93(4), 874-887.
Duan, J., J. Tan, D. Cheng, and X. Bi (2007) Sources and characteristics of carbonaceous aerosol in two largest cities in Pearl River Delta Region, China, Atmos. Environ., 41(14), 2895-2903.
Elbert, W., P.E. Taylor, M.O. Andreae, and U. Poschl (2007) Contribution of fungi to primary biogenic aerosols in the atmosphere: wet and dry discharged spores, carbohydrates, and inorganic ions, Atmos. Chem. Phys., 7(17), 4569-4588.
Feng, Y., Y. Chen, H. Guo, G. Zhi, S. Xiong, J. Li, G. Sheng, and J. Fu (2009) Characteristics of organic and elemental carbon in $PM_{2.5}$ samples in Shanghai, China, Atmos. Res., 92(4), 434-442.
Gentner, D.R., G. Isaacman, D.R. Worton, A.W.H. Chan, T.R. Dallmann, L. Davis, S. Liu, D.A. Day, L.M. Russell, K.R. Wilson, R. Weber, A. Guha, R.A. Harley, and A.H. Goldstein (2012) Elucidating secondary organic aerosol from diesel and gasoline vehicles through detailed characterization of organic carbon emissions, Proc. Natl. Acad. Sci. U.S.A., 109(45), 18318-18323.
Ham, J.Y. (2015) Continuous measurement of $PM_{2.5}$ organic carbon (OC) at Mt. Teahwa: Temporal variation and estimation of source, Korea University, Master's thesis.
Hopke, P. (2009) Contemporary threats and air pollution, Atmos. Environ., 43(1), 87-93.
Janssen, N.A., G. Hoek, M. Simic-Lawson, P. Fischer, L. van Bree, H. ten Brink, M. Keuken, R.W. Atkinson, H.R. Anderson, B. Brunekreef, and F.R. Cassee (2011) Black carbon as an additional indicator of the adverse health effects of airborne particles compared with $PM_{10}$ and $PM_{2.5}$ , Environ. Health Perspect, 119(12), 1691-1699.
KFRI (2010) Information report.
Kim, H.-S., J.-B. Huh, P.K. Hopke, T.M. Holsen, and S.-M. Yi (2007) Characteristics of the major chemical constituents of $PM_{2.5}$ and smog events in Seoul, Korea in 2003 and 2004, Atmos. Environ., 41(32), 6762-6770.
Kim, H., M. Lee, S. Kim, A. Guenther, J. Park, G. Cho, and H. Kim (2015a) Measurements of Isoprene and Monoterpenes at Mt. Taehwa and Estimation of Their Emissions, Korean Journal of Agricultural and Forest Meteorology, 17(3), 217-226. (in Korean with English abstract)
Kim, S., M. Lee, S. Kim, S. Choi, S. Seok, and S. Kim (2013a) Photochemical Characteristics of High and Low ozone episodes observed in the Taehwa Forest Observatory (TFO) in June 2011 near Seoul South Korea, Asia-Pacific J. Atmos. Sciences, 49(3), 325-331.
Kim, S.-Y., X. Jiang, M. Lee, A. Turnipseed, A. Guenther, J.-C. Kim, S.-J. Lee, and S. Kim (2013b) Impact of biogenic volatile organic compounds on ozone production at the Taehwa Research Forest near Seoul, South Korea, Atmos. Environ., 70, 447-453.
Kim, S., S.-Y. Kim, M. Lee, H. Shim, G. Wolfe, A. Guenther, A. He, H. Hong, and J. Han (2015b) Impact of isoprene and HONO chemistry on ozone and OVOC formation in a semirural South Korean forest, Atmos. Chem. Phys., 15(8), 4357-4371.
KMA (2013-2014) Monthly weather report.
KMOE (2013) Air environmental conservation act.
Kroll, J.H. and J.H. Seinfeld (2008) Chemistry of secondary organic aerosol: formation and evolution of low volatility organics in the atmosphere, Atmos. Environ., 42(16), 3593-3624.
Li, G., R. Zhang, J. Fan, and X. Tie (2005) Impacts of black carbon aerosol on photolysis and ozone, J. Geophys. Res., 110 (D23206), doi:10.1029/2005JD005898.
MOLIT (2014) Information report.
Na, K., C. Song, C. Switzer, and D.R. Cocker III (2007) Effect of ammonia on secondary organic aerosol formation from ${\alpha}$ -pinene ozonolysis in dry and humid conditions, Environ. Sci. Technol., 41(17), 6096-6102.
NIOSH, A. (1996) Method 5040 issue 1: Elemental carbon (Diesel Exhaust), NIOSH Manual of Analytical Methods, fourth ed. National Institute of Occupational Safety and Health, Cincinnati, OH.
Park, S.S., Y.J. Kim, and K. Fung (2001) Characteristics of $PM_{2.5}$ carbonaceous aerosol in the Sihwa industrial area, South Korea, Atmos. Environ., 35(4), 657-665.
Park, S.S., Y.J. Kim, and K. Fung (2002) $PM_{2.5}$ carbon measurements in two urban areas: Seoul and Kwangju, Korea, Atmos. Environ., 36(8), 1287-1292.
Park, S.S., D. Harrison, P. Pancras, and J.M. Ondov (2005) Time resolved elemental and organic carbon measurements at the Baltimore Supersite in 2002, J. Geophys. Res., 110 (D07S06), doi:10.1029/2004JD004610.
Park, S.S., S.A. Jung, B.J. Gong, S.Y. Cho, and S.J. Lee (2013) Characteristics of $PM_{2.5}$ haze episodes revealed by highly time-resolved measurements at an air pollution monitoring Supersite in Korea, Aerosol and Air Quality Res., 13, 957-976.
Rattigan, O., H. Felton, M. Bae, J. Schwab, and K. Demerjian (2010) Multi-year hourly $PM_{2.5}$ carbon measurements in New York: Diurnal, day of week and seasonal patterns, Atmos. Environ., 44(16), 2043-2053.
Robinson, A.L., N.M. Donahue, M.K. Shrivastava, E.A. Weitkamp, A.M. Sage, A.P. Grieshop, T.E. Lane, J.R. Pierce, and S.N. Pandis (2007) Rethinking Organic Aerosols: Semivolatile Emissions and Photochemical Aging, Science, 315(5816), 1259-1262.
Samara, C., D. Voutsa, A. Kouras, K. Eleftheriadis, T. Maggos, D. Saraga, and M. Petrakakis (2014) Organic and elemental carbon associated to $PM_{10}$ and $PM_{2.5}$ at urban sites of northern Greece, Environ. Sci. Pollut. Res., 21(3), 1769-1785.
Sandrini, S., S. Fuzzi, A. Piazzalunga, P. Prati, P. Bonasoni, F. Cavalli, M.C. Bove, M. Calvello, D. Cappelletti, C. Colombi, D. Contini, Gianluigi de Gennaro, A.D. Gilio, P. Fermo, L. Ferrero, V. Gianelle, M. Giugliano, P. Ielpo, G. Lonati, A. Marinoni, D. Massabo, U. Molteni, B. Moroni, G. Pavese, C. Perrino, M.G. Perrone, M.R. Perrone, J.-P. Putaud, T. Sargolini, R. Vecchi, and S. Gilardoni (2014) Spatial and seasonal variability of carbonaceous aerosol across Italy, Atmos. Environ., 99, 587-598.
Seinfeld, J.H. and S.N. Pandis (2012) Atmospheric chemistry and physics: from air pollution to climate change, John Wiley & Sons, USA, 628-690.
Shilling, J.E., R.A. Zaveri, J.D. Fast, L. Kleinman, M.L. Alexander, M.R. Canagaratna, E. Fortner, J.M. Hubbe, J.T. Jayne, A. Sedlacek, A. Setyan, S. Springston, D.R. Worsnop, and Q. Zhang (2013) Enhanced SOA formation from mixed anthropogenic and biogenic emissions during the CARES campaign, Atmos. Chem. Phys., 13(4), 2091-2113.
Shim, C., J. Hong, J. Hong, Y. Kim, M. Kang, B.M. Thakuri, Y. Kim, and J. Chun (2014) Evaluation of MODIS GPP over a complex ecosystem in East Asia: A case study at Gwangneung flux tower in Korea, Advances in Space Res., 54(11), 2296-2308.
Szidat, S., M. Ruff, N. Perron, L. Wacker, H.A. Synal, M. Hallquist, A.S. Shannigrahi, K.E. Yttri, C. Dye, and D. Simpson (2009) Fossil and non-fossil sources of organic carbon (OC) and elemental carbon (EC) in Goteborg, Sweden, Atmos. Chem. Phys., 9(5), 1521-1535.
Turpin, B.J. and J.J. Huntzicker (1995) Identification of secondary organic aerosol episodes and quantitation of primary and secondary organic aerosol concentrations during SCAQS, Atmos. Environ., 29(23), 3527-3544.
Turpin, B.J., P. Saxena, and E. Andrews (2000) Measuring and simulating particulate organics in the atmosphere: problems and prospects, Atmos. Environ., 34(18), 2983-3013.
Yin, J.X. and R.M. Harrison (2008) Pragmatic mass closure study for $PM_{10}$ , $PM_{2.5}$ and $PM_{10}$ at roadside, urban background and rural sites, Atmos. Environ., 42(5), 980-988.
Ying, Q., I.V. Cureno, G. Chen, S. Ali, H. Zhang, M. Malloy, H.A. Bravo, and R. Sosa (2014) Impacts of Stabilized Criegee Intermediates, surface uptake processes and higher aromatic secondary organic aerosol yields on predicted $PM_{2.5}$ concentrations in the Mexico City Metropolitan Zone, Atmos. Environ., 94, 438-447.
Yu, X.Y., R.A. Cary, and N.S. Laulainen (2009) Primary and secondary organic carbon downwind of Mexico City, Atmos. Chem. Phys., 9(18), 6793-6814.
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