城市树木滞尘能力研究及存在的问题与对策

编号 lyqk004222

中文标题 城市树木滞尘能力研究及存在的问题与对策

作者 戚继忠  魏进华  张倩  刘瑞华 

作者单位 北华大学林学院,吉林省吉林市 132011;北华大学林学院,吉林省吉林市 132011;东北林业大学,哈尔滨 150040;北华大学林学院,吉林省吉林市 132011;北华大学林学院,吉林省吉林市 132011

期刊名称 世界林业研究 

年份 2013 

卷号 26

期号 3

栏目编号 1

栏目名称 专题论述 

中文摘要 近年来城市树木在降低环境粉尘污染中的作用一直成为研究的热点.文中总结、分析了城市树木滞尘能力研究现状,指出研究工作中存在的主要问题:滞尘能力与滞尘量概念混淆,实验技术与评价方法不成体系,数据结果可比性差难以共享,对PM2.5等细粒子阻滞作用研究结论不一致,树木滞尘特异性研究缺乏系统性等;提出解决这些问题的具体对策:建立可比的滞尘量测定实验技术体系与树木抗性评价方法体系,建立树木滞尘能力评价方法体系,开展针对尘源、颗粒大小的滞尘特异性和针对污染粒子循环轨迹等的滞尘机理研究.

关键词 城市树木  滞尘能力  问题  对策 

基金项目 国家林业公益性行业科研专项(201104051)

英文标题 Problems and Countermeasures in Research on Urban Trees’ Dust-retaining Ability

作者英文名 Qi Jizhong,Wei Jinhua,Zhang Qian and Liu Ruihua

单位英文名 Forestry College,Beihua University,Jilin 132013,Jilin,China;Forestry College,Beihua University,Jilin 132013,Jilin,China;Northeast Forestry University,Harbin 150040,China;Forestry College,Beihua University,Jilin 132013,Jilin,China;Forestry College,Beihua University,Jilin 132013,Jilin,China

英文摘要 In recent years substantial research effort has focused on the role of urban trees in reducing the effect of particulate pollution. The researches about the ability of urban trees to capture the particles were reviewed here. The problems arising from these researches were pointed out, including the dust-retaining ability and the dust-retaining amount are confused in concept, laboratory technique and evaluation method fail to be systematic, the measuring results and data are difficult to share due to lack of comparability, the inconsistent conclusions in the studies on role of urban trees in reducing PM2.5 concentration, lack of systematic study on tree species specificity in dust-retaining, etc. The countermeasures to solve these problems were suggested to develop a comparable laboratory technical system for measuring the dust-retaining amount and a methodological system for assessing the influence of particulate pollution on the trees, to establish a methodology for synthetically appraising the particulate-retaining ability of trees, and carrying out a research on tree species specificity in dust-retaining based on different dust sources and particles sizes and on circular track of a particle.

英文关键词 urban trees;particulate-retaining ability;problem;countermeasure

起始页码 52

截止页码 57

投稿时间 2013/3/1

分类号 S731.2

参考文献 [1] Mage D,Ozolins G,Peterson P,et al.Urban airpollution in megacities of the world[J].Atmospheric Environment,1996,30(5):681-686.
[2] Ostrikova V M,Baǐzhanova M K.Dust-retaining capacity of the leaves of certain tree and shrub species in city air pollution[J].Gig Sanit,1980 (2):87-88.
[3] Fujiwara G F,Gómez R D,Dawidowski L,et al.Metals associated with airborne particulate matter in road dust and tree bark collected in a megacity (Buenos Aires, Argentina)[J].Ecological Indicators,2011,11(2):240-247.
[4] Zulfacar A.Vegetation and urban environment[J]. Journal of the Urban Planning and Development Division,1975,101(1):21-33
[5] Black R J.Ornamental trees for central Florida[M]. Gainesville,FL,USA: University of Florida,1997:1-6.
[6] Beckett K P,Freer-Smith P H,Taylor G.Urban woodlands: their role in reducing the effects of particulate pollution[J].Environmental Pollution,1998, 99(3):34-360.
[7] Villere Town Planning Associates, llc. Best management practices for community trees in terrebonne parish, Louisiana. Terrebonne Parish Consolidated Government, 2007.
[8] Rotschke M.Untersuchungen über die meteorologie der staubatmosphäe[M].Veröffentlichungen des Geophysikalischen Instituts der Karl-Marx-Universität Leipzig ,1937:1-78.
[9] Spitsyna N T,Skripal’shchikova L N. Phytomass and dust accumulation of birch forests near open-pit mines[J]. Soviet Journal of Ecology,1991, 22(6): 354-359.
[10] Department of Defense. Landscape design and planning criteria[S]. USA,2004:23-25.
[11] Chakre J O.Choice of eco-friendly trees in urban environment to mitigate airborne particulate pollution[J].Journal of Human Ecology,2006, 20(2):135-138.
[12] Kretinin V M,Selyanina Z M.Dust retention by tree and shrub leaves and its accumulation in light chestnut soils under forest shelterbelts[J]. Eurasian Soil Science,2006,39(3):334-338.
[13] Sternberg T,Viles H,Cathersides A,et al.Dust particulate absorption by ivy (Hedera helix L.) on historic walls in urban environments[J].Science of the Total Environment,2010, 409(1): 162-168.
[14] Prajapati S K,Tripathi B D.Seasonal variation of leaf dust accumulation and pigment content in plant species exposed to urban particulates pollution[J].Journal of Environmental Quality,2008,37(3):865-70.
[15] Alcalá J,Sosa M,Moreno M,et al. Atmospheric dust retention in tree species as an indicator of the sustainable urban planning: city of chihuahua, Mexico[J].Multequina,2008,17(1): 17-28.
[16] Lohr V I,Pearson-Mims C H.Particulate matter accumulation on horizontal surfaces in interiors influence of foliage plants[J].Atmospheric Environment,1996,30 (14):2565-2568.
[17] Tallis M,Gaylor G,Sinnett D,et al.Estimating the removal of atmospheric particulate pollution by the urban tree canopy of London, under current and future environments[J].Landscape and Urban Planning,2011,103(2):129-138.
[18] Lohr V I,Pearson-Mims C H,Tarnai J,et al.How urban residents rate and rank the benefits and problems associated with trees in cities[J].Journal of Arboriculture,2004,30(1):28-35.
[19] Malone B.Using trees to reduce dust and odour emissions from poultry farms// Proceedings 2004 Poultry Information Exchange, Surfers Paradise, Qld, AU,2004:33-38.
[20] Dongarrà G,Sabatino G,Triscari M,et al.The effects of anthropogenic particulate emissions on roadway dust and Nerium oleander leaves in Messina (Sicily, Italy)[J].Journal of Environmental Monitoring,2003,5(5):766-773.
[21] Ahmad S,Daud M,Qureshi I H.Use of biomonitors to assess the atmospheric changes[J].Proceedings of Pakistan Academy of Science,2007, 44(3): 201-219.
[22] Village of Oswego.Oswego zoning ordinance[S]. Village of Oswego, Illinois,2009:88
[23] Prusty B A,Mishra P C,Azeez P A.Dust accumulation and leaf pigment content in vegetation near the national highway at Sambalpur, Orissa, India[J].Ecotoxicology and Environmental Safety,2005,60(2):228-35.
[24] Farmer A M.The effects of dust on vegetation:a review[J]. Environmental Pollution,1993,79(1): 63-75.
[25] Sharifi M R,Gibson A C,Rundel P W.Surface dust impacts on gas exchange in Mojave Desert shrubs[J].Journal of Applied Ecology,1997, 34(4):837-846.
[26] Nanos G D,Ilias I F.Effects of inert dust on olive (Olea europaea L.) leaf physiological para[J].Environmental Science and Pollution Research International,2007,14(3):212-214.
[27] Iqbal M Z,Shafüg M.Periodical effect of cement dust pollution on the growth of some plant species[J]. Turkish Journal Of Botany,2001,25(1):19-24.
[28] Mandre M,Ots K.Growth and biomass partitioning of 6-year-old spruces under alkaline dust impact[J].Water, Air, and Soil Pollution,1999,114(1): 13-25.
[29] Hegazi A A,El-Kady A F Y.Effect of road dust on vegetative characters and leaves heavy metal contents of Zizyphus spina-christi (L.) Willd, Syzygium cumini (L.) Skeels and Olea europaea L. seedlings[J].Journal of Horticultural Science and Ornamental Plants,2010, 2(3):98-107.
[30] Joshi N,Bora M.Impact of air quality on physiological attributes of certain plants[J].Report and Opinion,2011, 3(2):42-47.
[31] Pourkhabbaz A,Rastin N,Olbrich A,et al.Influence of environmental pollution on leaf properties of urban plane trees, Platanus orientalis L.[J]. Bull Environ Contam Toxicol,2010,85(3):251-255.
[32] Burkhardt J.Hygroscopic particles on leaves: nutrients or desiccants? [J].Ecological Monographs,2010, 80(3):369-399.
[33] 杜克勤,刘胜兰,张杰.绿化树木带滞尘能力的测定与探讨[J].环境污染与防治,1998,(3):47-48.
[34] 苟亚清,张清东.道路景观植物滞尘量研究[J].中国城市林业,2008, 6 ( 1):59-61.
[35] Liu R T,Bi R C,Zhao H L.Dust removal property of major afforested plant in and around an urban area,North China[J].生态环境,2008, l7(5):1879-1886.
[36] 柴一新,祝宁,韩焕金.城市绿化树种的滞尘效应:以哈尔滨市为例[J].应用生态学报,2002,13(9):l121-1126.
[37] 赵勇,李树人,阎志平.城市绿地的滞尘效应及评价方法[J].华中农业大学学报,2002,21(6):582-586.
[38] 董希文,崔强,王丽敏,等.园林绿化树种枝叶滞尘效果分类研究[J].防护林科技,2005(1):28-30.
[39] 胡羡聪,殷爱华,吴小英,等.珠三角地区城市园林绿化滞尘树种选择[J].广东园林,2007(3):44-46.
[40] 李海梅,刘霞.青岛市城阳区主要园林树种叶片表皮形态与滞尘量的关系[J].生态学杂志,2008,27(10):1659-1662.
[41] 王会霞,石辉,李秧秧.城市绿化植物叶片表面特征对滞尘能力的影响[J].应用生态学报,2010,21(12):3077-3082.
[42] 陈玮,何兴元,张粤,等.东北地区城市针叶树冬季滞尘效应研究[J].应用生态学报,2003,14(12):2113-2116.
[43] 王蕾,哈斯,刘连友,等.北京市春季天气状况对针叶树叶面颗粒物附着密度的影响[J].生态学杂志,2006,25(8):998-1002.
[44] 胡迪琴.水泥厂废气污染对绿化树木的影响[J].广州环境科学,1994,9(3):30-33.
[45] 黄慧娟,袁玉新,杜炳新,等.保定5种主要绿化树种叶片滞尘对气体交换特征的影响[J].西北林学院学报,2008,23(6) :50-53.
[46] Sbø A,Popek R,Nawrot B,et al.Plant species differences in particulate matter accumulation on leaf surfaces[J].Science of the Total Environment, 2012,427/428:347-54.
[47] Jouraeva V A, Johnson D L, Hassett J P,et al. Differences in accumulation of PAHs and metals on the leaves of Tili aeuchlora and Pyrus calleryana[J]. Environmental Pollution,2002,120(2):331-338
[48] Beckett K P,Freer-Smith P,Taylor G.Effective tree species for local airquality management[J].Journal of Arboriculture,2000,26(1):12-19.
[49] Nowak D J, Crane D E, Stevens J C, et al.A ground-based method of assessing urban forest structure and ecosystem services[J]. Arboriculture & Urban Forestry,2008,34(6):347-358.
[50] Langner M.Distribution of gigantic particles and PM10 in a single tree crown and on an urban brownfield. CLIMAQS Workshop 'Local Air Quality and its Interactions with Vegetation’,January 21-22 2010, Antwerp, Belgium.
[51] Whitlow T. Determining the fate of PM 2.5 particles following capture by leaves :final technical report : Forest Service Grant No. 05-DG11244225-208 . Cornell University,2008.
[52] Beil R S,Whitlow T W,Albright L D,et al.Urban trees:filters for PM2.5?//Laband D N(ed).Conference proceedings:emerging issues along urban/rural interfaces:linking science and society,Hilton Atlanta,Atlanta,Georgia,USA,13-16 March 2005:270-273.
[53] Sevimoglu O, Rogge W F, Bernardo-Bricker A, et al. Fine particulate abrasion products from leaf surfaces of urban plants: comparison between Los Angeles and Pittsburgh// Second International Specialty Conference Sponsored by the American Association for Aerosol Research: Particulate Matter Supersites Program, AAA, Atlanta, GA, February 7-11, 2005.
[54] 李瑞雪,张明军,张永芳.石家庄大叶黄杨叶片滞尘量及滞尘颗粒物的粒度[J].城市环境与城市生态,2009, 22(1):15-19

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