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NTIS 바로가기한국산림과학회지 = Journal of korean society of forest science, v.112 no.1, 2023년, pp.1 - 10
Sanghee Park (Department of Environmental Horticulture, University of Seoul) , Myeong Ja Kwak (Department of Environmental Horticulture, University of Seoul) , Jongkyu Lee (Department of Environmental Horticulture, University of Seoul) , Yea Ji Lim (Department of Environmental Horticulture, University of Seoul) , Handong Kim (Department of Environmental Horticulture, University of Seoul) , Su Gyeong Jeong (Department of Environmental Horticulture, University of Seoul) , Joung-a Son (Urban Forests Research Center, National Institute of Forest Science) , Hanna Chang (Urban Forests Research Center, National Institute of Forest Science) , Sun Mi Je (Urban Forests Research Center, National Institute of Forest Science) , Chang-Young Oh (Urban Forests Research Center, National Institute of Forest Science) , Kyongha Kim (Department of Environmental Horticulture, University of Seoul) , Su Young Woo (Department of Environmental Horticulture, University of Seoul)
Urbanization and industrialization associated with rapid economic development have resulted in air pollution in urban areas, which adversely affects human health and the environment around the world. Growing awareness of the health effects of airborne particulate matter (PM) has led to the emergence...
Abhijith, K.V., Kumar, P., Gallagher, J., McNabola, A.,?Baldauf, R., Pilla, F., Broderick, B., Sabatino S.D. and?Pulvirenti, B. 2017. Air pollution abatement performances?of green infrastructure in open road and built-up street?canyon environments-A review. Atmospheric Environment 162: 71-86.
Baldacchini, C. et al. 2017. How does the amount and?composition of PM deposited on Platanus acerifolia leaves?change across different cities in Europe? Environmental?Science & Technology 51(3): 1147-1156.
Barthlott, W. and Neinhuis, C. 1997. Purity of the sacred lotus,?or escape from contamination in biological surfaces. Planta?202(1): 1-8.
Barthlott, W., Neinhuis, C., Cutler, D., Ditsch, F., Meusel,?I., Theisen, I. and Wilhelmi, H. 1998. Classification and?terminology of plant epicuticular waxes. Botanical Journal?of the Linnean Society 126(3): 237-260.
Brook, R.D. et al. 2010. Particulate matter air pollution and?cardiovascular disease: an update to the scientific statement?from the American Heart Association. Circulation 121(21):?2331-2378.
Burkhardt, J. and Grantz, D.A. 2016. Plants and atmospheric?aerosols. pp. 369-406. In: Progress in Botany Vol. 78.?Springer, Cham.
Burkhardt, J. 2010. Hygroscopic particles on leaves: nutrients?or desiccants? Ecological Monographs 80(3): 369-399.
Chen, L., Liu, C., Zhang, L., Zou, R. and Zhang, Z. 2017.?Variation in tree species ability to capture and retain?airborne fine particulate matter (PM 2.5 ). Scientific Reports?7(1): 1-11.
Chen, M., Dai, F., Yang, B. and Zhu, S. 2019. Effects of?neighborhood green space on PM 2.5 mitigation: Evidence?from five megacities in China. Building and Environment?156: 33-45.
Chen, X., Pei, T; Zhou, Z., Teng, M., He, L., Luo, M. and?Liu, X. 2015. Efficiency differences of roadside greenbelts?with three configurations in removing coarse particles?(PM 10 ): A street scale investigation in Wuhan, China.?Urban Forestry & Urban Greening 14(2): 354-360.
Chiam, Z., Song, X.P., Lai, H.R. and Tan, H.T.W. 2019.?Particulate matter mitigation via plants: Understanding?complex relationships with leaf traits. Science of the Total?Environment 688: 398-408.
Dock ery, D.W., Pope, C.A., Xu, X., Spengler, J.D., Ware,?J.H., Fay, M.E., FerrisJr., B.G. and Speizer, F.E. 1993.?An association between air pollution and mortality in six?US cities. New England Journal of Medicine 329(24):?1753-1759.
Dzierzanowski, K., Popek, R., Gawronska, H., Saebo, A. and?Gawronski, S.W. 2011. Deposition of particulate matter?of different size fractions on leaf surfaces and in waxes?of urban forest species. International Journal of Phytoremediation 13(10): 1037-1046.
Evans, K.A., Hopk e, P.K., Utell, M.J., Kane, C., Thurston,?S.W., Ling, F.S., Chalupa, D. and Rich, D.Q. 2017. Triggering of ST-elevation myocardial infarction by ambient?wood smoke and other particulate and gaseous pollutants.?Journal of Exposure Science & Environmental Epidemiology 27(2): 198-206.
Falcon-Rodriguez, C.I., Osornio-Vargas, A.R., Sada-Ovalle,?I. and Segura-Medina, P. 2016. Aeroparticles, composition,?and lung diseases. Frontiers in Immunology 7: 3.
Freer-Smith, P.H., Beckett, K.P. and Taylor, G. 2005. Deposition velocities to Sorbus aria, Acer campestre, Populus?deltoides × trichocarpa 'Beaupre', Pinus nigra and×?Cupressocyparis leylandii for coarse, fine and ultra-fine?particles in the urban environment. Environmental?Pollution 133(1): 157-167.
Fuzzi, S. et al. Particulate matter, air quality and climate:?lessons learned and future needs. Atmospheric Chemistry?and Physics 15: 8217-8299.
Gajbhiye, T., Pandey, S.K., Lee, S.S. and Kim, K.H. 2019.?Size fractionated phytomonitoring of airborne particulate?matter (PM) and speciation of PM bound toxic metals?pollution through Calotropis procera in an urban?environment. Ecological Indicators 104: 32-40.
Gueguen, F., Stille, P., Geagea, M.L. and Boutin, R. 2012.?Atmospheric pollution in an urban environment by tree?bark biomonitoring-Part I: Trace element analysis.?Chemosphere 86(10): 1013-1019.
He, C., Qiu, K., Alahmad, A. and Pott, R. 2020. Particulate?matter capturing capacity of roadside evergreen vegetation?during the winter season. Urban Forestry & Urban?Greening 48: 126510.
Hirabayashi, S. 2021. Technical specifications of urban forests?for air purification: A case study in Tokyo, Japan. Trees,?Forests and People 4: 100078.
Hopke, P.K. et al. 2008. Urban air quality in the Asian region.?Science of the Total Environment 404(1): 103-112.
Hwang, H.J., Yook, S.J. and Ahn, K.H. 2011. Experimental?investigation of submicron and ultrafine soot particle?removal by tree leaves. Atmospheric Environment 45(38):?6987-6994.
Janhall, S. 2015. Review on urban vegetation and particle air?pollution-Deposition and dispersion. Atmospheric?Environment 105: 130-137.
Jouraeva, V.A., Johnson, D.L., Hassett, J.P. and Nowak, D.J.?2002. Differences in accumulation of PAHs and metals?on the leaves of Tilia×euchlora and Pyrus calleryana.?Environmental Pollution 120(2): 331-338.
Kabisch, N. and Haase, D. 2013. Green spaces of European?cities revisited for 1990-2006. Landscape and Urban?Planning 110: 113-122.
Kaneyasu, N., Ohta, S. and Murao, N. 1995. Seasonal variation?in the chemical composition of atmospheric aerosols and?gaseous species in Sapporo, Japan. Atmospheric Environment 29(13): 1559-1568.
Kardel, F., Wuyts, K., De Wael, K. and Samson, R. 2018.?Biomonitoring of atmospheric particulate pollution via?chemical composition and magnetic properties of roadside?tree leaves. Environmental Science and Pollution Research?25: 25994-26004.
Kaupp, H., Blumenstock, M. and McLachlan, M.S. 2000. Retention and mobility of atmospheric particle-associated?organic pollutant PCDD/Fs and PAHs in maize leaves.?New Phytologist 148(3): 473-480.
Koch, K. and Ensikat, H.J. 2008. The hydrophobic coatings?of plant surfaces: epicuticular wax crystals and their?morphologies, crystallinity and molecular self-assembly.?Micron 39(7): 759-772.
Kim, Y.H., Tong, H., Daniels, M., Boykin, E., Krantz, Q.T.,?McGee, J., Hays, M., Kovalcik, K., Dye, J.A. and Gilmour,?M.I. 2014. Cardiopulmonary toxicity of peat wildfire?particulate matter and the predictive utility of precision?cut lung slices. Particle and Fibre Toxicology 11(1): 1-17.
Kumar, P. et al. 2019. The nexus between air pollution, green?infrastructure and human health. Environment International 133: 105181.
Kumar, R., Nagar, J.K., Kumar, H., Kushwah, A.S., Meena,?M., Kumar, P., Raj, N., Singhal, M.K. and Gaur, S.N.?2007. Association of indoor and outdoor air pollutant level?with respiratory problems among children in an industrial?area of Delhi, India. Archives of Environmental & Occupational Health 62(2): 75-80.
Kurth, L.M., McCawley, M., Hendryx, M. and Lusk , S. 2014.?Atmospheric particulate matter size distribution and?concentration in West Virginia coal mining and nonmining areas. Journal of Exposure Science & Environmental Epidemiology 24(4): 405-411.
Kwak, M.J., Lee, J., Kim, H., Park, S., Lim, Y., Kim, J.E.,?Baek, S.G., Seo, S.M., Kim, K.N. and Woo, S.Y. 2019.?The removal efficiencies of several temperate tree species?at adsorbing airborne particulate matter in urban forests?and roadsides. Forests 10(11): 960.
Kwak, M.J., Lee, J.K., Park, S., Kim, H., Lim, Y.J., Lee,?K.A., Son, J-a., Oh, C-Y., Kim, I. and Woo, S.Y. 2020.?Surface-based analysis of leaf microstructures for adsorbing and retaining capability of airborne particulate matter?in ten woody species. Forests 11(9): 946.
Leonard, R.J., McArthur, C. and Hochuli, D.F. 2016. Particulate matter deposition on roadside plants and the?importance of leaf trait combinations. Urban Forestry &?Urban Greening 20: 249-253.
Li, P., Xin, J., Wang, Y., Li, G., Pan, X., Wang, S., Cheng,?M., Wen, T., Wang, G. and Liu, Z. 2015. Association?between particulate matter and its chemical constituents?of urban air pollution and daily mortality or morbidity?in Beijing City. Environmental Science and Pollution?Research 22: 358-368.
Liang, D., Ma, C., Wang, Y.Q., Wang, Y.J. and Chenxi, Z.?2016. Quantifying PM 2.5 capture capability of greening?trees based on leaf factors analyzing. Environmental?Science and Pollution Research 23: 21176-21186.
Liu, J., Cao, Z., Zou, S., Liu, H., Hai, X., Wang, S., Duan,?J., Xi, B., Yan, G., Zhang, S. and Jia, Z. 2018. An?investigation of the leaf retention capacity, efficiency and?mechanism for atmospheric particulate matter of five?greening tree species in Beijing, China. Science of the?Total Environment 616: 417-426.
Liu, L., Guan, D. and Peart, M.R. 2012. The morphological?structure of leaves and the dust-retaining capability of?afforested plants in urban Guangzhou, South China.?Environmental Science and Pollution Research 19:?3440-3449.
Lukowski, A., Popek, R. and Karolewski, P. 2020. Particulate?matter on foliage of Betula pendula, Quercus robur, and?Tilia cordata: deposition and ecophysiology. Environmental Science and Pollution Research 27: 10296-10307.
McDonald, A.G., Bealey, W.J., Fowler, D., Dragosits, U.,?Skiba, U., Smith, R.I., Donovan, R.G., Brett, H.E., Hewitt,?C.N. and Nemitz, E. 2007. Quantifying the effect of urban?tree planting on concentrations and depositions of PM 10 ?in two UK conurbations. Atmospheric Environment?41(38): 8455-8467.
Nowak, D.J. 2006. Institutionalizing urban forestry as a?"biotechnology" to improve environmental quality. Urban?Forestry & Urban Greening 5(2): 93-100.
Peixoto, M.S., de Oliveira Galvao, M.F. and de Medeiros,?S.R.B. 2017. Cell death pathways of particulate matter?toxicity. Chemosphere 188: 32-48.
Peters, K. and Eiden, R. 1992. Modelling the dry deposition?velocity of aerosol particles to a spruce forest. Atmospheric?Environment. Part A. General Topics 26(14): 2555-2564.
Popek, R., Gawronska, H., Wrochna, M., Gawronski, S.W.?and Saebo, A. 2012. Particulate matter on foliage of 13?woody species: deposition on surfaces and phytostabilisation in waxes-a 3-year study. International Journal of?Phytoremediation 15(3): 245-256.
Poschl, U. 2005. Atmospheric aerosols: composition, transformation, climate and health effects. Angewandte Chemie?International Edition 44(46): 7520-7540.
Prum, B., Seidel, R., Bohn, H.F. and Speck, T. 2012. Plant?surfaces with cuticular folds are slippery for beetles.?Journal of the Royal Society Interface 9(66): 127-135.
Saebo, A., Popek, R., Nawrot, B., Hanslin, H.M., Gawronska,?H. and Gawronski, S.W. 2012. Plant species differences?in particulate matter accumulation on leaf surfaces. Science?of the Total Environment 427: 347-354.
Salmond, J.A. et al. 2016. Health and climate related ecosystem?services provided by street trees in the urban environment.?Environmental Health 15(1): 95-111.
Schaubroeck, T., Deckmyn, G., Neirynck, J., Staelens, J.,?Adriaenssens, S., Dewulf, J., Muys, B. and Verheyen, K.?2014. Multilayered modeling of particulate matter removal?by a growing forest over time, from plant surface?deposition to washoff via rainfall. Environmental Science?& Technology 48(18): 10785-10794.
Sgrigna, G., Baldacchini, C., Dreveck, S., Cheng, Z. and?Calfapietra, C. 2020. Relationships between air particulate?matter capture efficiency and leaf traits in twelve tree?species from an Italian urban-industrial environment.?Science of the Total Environment 718: 137310.
Sgrigna, G., Baldacchini, C., Esposito, R., Calandrelli, R.,?Tiwary, A. and Calfapietra, C. 2016. Characterization of?leaf-level particulate matter for an industrial city using?electron microscopy and X-ray microanalysis. Science of?the Total Environment 548: 91-99.
Sgrigna, G., Saebo, A., Gawronski, S., Popek, R. and Calfapietra,?C. 2015. Particulate Matter deposition on Quercus ilex?leaves in an industrial city of central Italy. Environmental?Pollution 197: 187-194.
Sisler, J.F. and Malm, W.C. 2000. Interpretation of Trends?of PM 2.5 and reconstructed visibility from the IMPROVE?network. Journal of the Air & Waste Management Association 50(5): 775-789.
Song, Y., Maher, B.A., Li, F., Wang, X., Sun, X. and Zhang,?H. 2015. Particulate matter deposited on leaf of five?evergreen species in Beijing, China: Source identification?and size distribution. Atmospheric Environment 105:?53-60.
Tallis, M., Taylor, G., Sinnett, D. and Freer-Smith, P. 2011.?Estimating the removal of atmospheric particulate?pollution by the urban tree canopy of London, under?current and future environments. Landscape and Urban?Planning 103(2): 129-138.
Tian, L., Yin, S., Ma, Y., Kang, H., Zhang, X., Tan, H., Meng,?H. and Liu, C. 2019. Impact factor assessment of the uptake?and accumulation of polycyclic aromatic hydrocarbons by plant leaves: Morphological characteristics have the?greatest impact. Science of the Total Environment 652:?1149-1155.
UN. World urbanization prospects 2018. United Nations Department for Economic and Social Affairs. 1-126. Available online: https://population.un.org/wup/Publications/
Wang, H., Shi, H., Li, Y. and Wang, Y. 2014. The effects?of leaf roughness, surface free energy and work of adhesion?on leaf water drop adhesion. PLoS One 9(9): e107062.
Wang, H., Shi, H., Li, Y., Yu, Y. and Zhang, J. 2013. Seasonal?variations in leaf capturing of particulate matter, surface?wettability and micromorphology in urban tree species.?Frontiers of Environmental Science & Engineering 7:?579-588.
Wang, H., Shi, H. and Wang, Y. 2015. Effects of weather,?time, and pollution level on the amount of particulate?matter deposited on leaves of Ligustrum lucidum. The?Scientific World Journal 935942.
Wang, L., Gong, H., Liao, W. and Wang, Z. 2015. Accumulation of particles on the surface of leaves during leaf?expansion. Science of the Total Environment 532: 420-434.
Weerakkody, U., Dover, J.W., Mitchell, P. and Reiling, K.?2018. Evaluating the impact of individual leaf traits on?atmospheric particulate matter accumulation using natural?and synthetic leaves. Urban Forestry & Urban Greening?30: 98-107.
Weerakkody, U., Dover, J.W., Mitchell, P. and Reiling, K.?2017. Particulate matter pollution capture by leaves of?seventeen living wall species with special reference to railtraffic at a metropolitan station. Urban Forestry & Urban?Greening 27: 173-186.
Xie, C., Yan, L., Liang, A. and Che, S. 2019. Understanding?the washoff processes of PM 2.5 from leaf surfaces during?rainfall events. Atmospheric Environment 214: 116844.
Xu, H., Wang, W., Wang, H., Sun, Y., Zhong, Z. and Wang,?S. 2019a. Differences in quantity and composition of leaf?particulate matter and morphological structures in three?evergreen trees and their association in Harbin, China.?Environmental Pollution 252: 1772-1790.
Xu, X., Yu, X., Mo, L., Xu, Y., Bao, L. and Lun, X. 2019b.?Atmospheric particulate matter accumulation on trees: A?comparison of boles, branches and leaves. Journal of?Cleaner Production 226: 349-356.
Xu, X., Zhang, Z., Bao, L., Mo, L., Yu, X., Fan, D. and?Lun, X. 2017. Influence of rainfall duration and intensity?on particulate matter removal from plant leaves. Science?of the Total Environment 609: 11-16.
Xu, Y., Xu, W., Mo, L., Heal, M.R., Xu, X. and Yu, X. 2018.?Quantifying particulate matter accumulated on leaves by?17 species of urban trees in Beijing, China. Environmental?Science and Pollution Research 25: 12545-12556.
Yang, J., McBride, J., Zhou, J. and Sun, Z. 2005. The urban?forest in Beijing and its role in air pollution reduction.?Urban Forestry & Urban Greening 3(2): 65-78.
Zhang, L., Zhang, Z., Chen, L. and McNulty, S. 2019. An?investigation on the leaf accumulation removal efficiency?of atmospheric particulate matter for five urban plant?species under different rainfall regimes. Atmospheric?Environment 208: 123-132.
Zhang, X., Lyu, J., Han, Y., Sun, N., Sun, W., Li, J., Liu,?C. and Yin, S. 2020. Effects of the leaf functional traits?of coniferous and broadleaved trees in subtropical?monsoon regions on PM 2.5 dry deposition velocities.?Environmental Pollution 265: 114845.
Zhao, X., Yan, H., Liu, M., Kang, L., Yu, J. and Yang, R.?2019. Relationship between PM 2.5 adsorption and leaf?surface morphology in ten urban tree species in Shenyang,?China. Energy Sources, Part A: Recovery, Utilization, and?Environmental Effects 41(8): 1029-1039.
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