[an error occurred while processing this directive] [an error occurred while processing this directive] [an error occurred while processing this directive]
[an error occurred while processing this directive]

植物生态学报 >

2015 , Vol. 39 >Issue 7: 736 - 745

DOI: https://doi.org/10.17521/cjpe.2015.0070

研究论文

北京市26种落叶阔叶绿化树种的滞尘能力

展开
  • 1城乡生态环境北京实验室 北京林业大学园林学院, 北京 100083
    2中国城市建设研究院有限公司, 北京 100120
    3北京市朝阳区城市管理监督指挥中心, 北京 100020

*作者简介:E-mail:dengchuanyuan@163.com

网络出版日期: 2015-07-22

基金资助

国家科技支撑计划课题(2013BAJ- 02B04)、“十二五”农村领域国家科技计划课题 (2012BAJ24B05-2)和“北京朝阳区社区绿化滞尘降噪及降温增湿生态效益评价方法研究及标准设计”项目

收起

Dust capturing capacities of twenty-six deciduous broad-leaved trees in Beijing

Expand
  • 1Beijing Laboratory of Urban and Rural Ecological Environment, College of Landscape Architecture, Beijing Forestry University, Beijing 100083, China
    2China Urban Construction Design & Research Institute Co. Ltd., Beijing 100120, China
    3Urban Administration and Control Center of Chaoyang District, Beijing 100020, China

# Co-first authors

Online published: 2015-07-22

Fold

摘要

为筛选适用于北京市的具有优良滞尘能力的绿化物种, 提高城市植被滞尘效应, 选取北京市园林绿化应用最广泛的26种落叶阔叶树种, 应用质量差值法, 于2014年夏季对不同树种单位叶面积滞尘量进行测定, 计算单叶滞尘量与单株滞尘量, 并对树种滞尘能力进行了相应的聚类分析。结果表明: 不同树种间滞尘能力存在较大差异, 选择不同的滞尘量计量单位, 树种滞尘量排序会相应地发生变化。对26种北京市常用落叶阔叶树种从叶片、植株与综合滞尘能力三个方面的聚类分析均可得到相应的分类, 各类别代表不同级别的滞尘能力水平。研究分析认为, 植物滞尘能力与其叶表特征、滞尘方式、株型结构、整株叶量及所处环境含尘量等密切相关, 评价树种滞尘能力时应进行综合考虑。

关键词: 落叶阔叶树种; 叶片滞尘能力; 植株滞尘能力; 综合滞尘能力; 滞尘量计量单位

本文引用格式

范舒欣, 晏海, 齐石茗月, 皮定均, 李雄, 董丽 . 北京市26种落叶阔叶绿化树种的滞尘能力[J]. 植物生态学报, 2015 , 39(7) : 736 -745 . DOI: 10.17521/cjpe.2015.0070

Abstract

Aims Aiming at providing basic informations on dust capturing capacity of different tree species and criterions for selecting trees in landscape design, this study selected 26 deciduous broad-leaved tree species widely used in urban landscaping in Beijing to measure the dust capturing both in field and indoor experiments. Methods The dust deposition per unit leaf area of each species was quantified by determining the mass difference before and after the treatment of blades. The dust deposition per leaf and plant were further calculated for each species. Based on the dust capturing capacity measured in three different units, cluster analysis on different tree species was carried out from distinct dimensions. Important findings Results showed that the dust capturing capacity differed significantly among tree species, and the ranking changed with measurement units selected in the experiments. For different specific evaluation focuses, choosing a diverse unit combination as clustering factor, the 26 deciduous broad-leaved tree species were broadly divided into different categories representing different dust capturing capacity level. Dust capturing capacity was closely related to the surface characteristics of leaves, the dust capturing method, the plant structure, the leaf amount of whole plant, the dust content of the environment, etc. Therefore, multiple factors should be taken into account in the assessment of dust capturing capacity of different tree species.

Key words: deciduous broad-leaved trees; dust capturing capacity of leave; dust capturing capacity of plant; comprehensive dust capturing capacity; measurement unit of the dust capturing

[an error occurred while processing this directive]

参考文献

[1] Badrulla A, Halik U, Aishan T, Ubul A, Zhayumu K, Jin H (2014). Patterns of dust retention by five common tree species for urban greening in Aksu City, Northwest China.Chinese Journal of Plant Ecology, 38, 970-977.
[1] (in Chinese with English abstract) [阿丽亚·拜都热拉, 玉米提·哈力克, 塔依尔江·艾山, 艾克热木·吾布力, 喀哈尔·扎依木, 金华 (2014). 阿克苏市5种常见绿化树种滞尘规律. 植物生态学报, 38, 970-977.]
[2] Beckett KP, Freer-Smith PH, Taylor G (1998). Urban woodlands: Their role in reducing the effects of particulate pollution.Environmental Pollution, 99, 347-360.
[3] Beckett KP, Freer-Smith PH, Taylor G (2000a). The capture of particulate pollution by trees at five contrasting urban sites.Arboricultural Journal: The International Journal of Urban Forestry, 24, 209-230.
[4] Beckett KP, Freer-Smith PH, Taylor G (2000b). Particulate pollution capture by urban trees: Effect of species and windspeed.Global Change Biology, 6, 995-1003.
[5] Cavanagh J-AE, Zawar-Reza P, Wilson JG (2009). Spatial attenuation of ambient particulate matter air pollution within an urbanised native forest patch.Urban Forestry & Urban Greening, 8, 21-30.
[6] Chai YX, Zhu N, Han HJ (2002). Dust removal effect of urban tree species in Harbin.Chinese Journal of Applied Ecology, 13, 1121-1126.
[6] (in Chinese with English abstract) [柴一新, 祝宁, 韩焕金 (2002). 城市绿化树种的滞尘效应——以哈尔滨市为例. 应用生态学报, 13, 1121-1126.]
[7] China National Environmental Monitoring Centre (2014). The air quality status report of 74 cities in first half of 2014. . Cited 22 July 2014.
[7] (in Chinese) [中国环境监测总站(2014). 2014年上半年74个城市空气质量状况报告. . 引用时间2014年7月22日.]
[8] Fang Y, Zhang JC, Wang YH (2007). Dustfall adsorbing capacity of major species of greening trees in Nanjing and its law.Journal of Ecology and Rural Environment, 23(2), 36-40.
[8] (in Chinese with English abstract) [方颖, 张金池, 王玉华 (2007). 南京市主要绿化树种对大气固体悬浮物净化能力及规律研究. 生态与农村环境学报, 23(2), 36-40.]
[9] Gao JH, Wang DM, Zhao L, Wang GD (2007). Airborne dust detainment by different plant leaves: Taking Beijing as an example.Journal of Beijing Forestry University, 29(2), 94-99.
[9] (in Chinese with English abstract) [高金晖, 王冬梅, 赵亮, 王国栋 (2007). 植物叶片滞尘规律研究——以北京市为例. 北京林业大学学报, 29(2), 94-99.]
[10] Givoni B (1991). Impact of planted areas on urban environ- mental quality: A review.Atmospheric Environment. Part B. Urban Atmosphere, 25, 289-299.
[11] He KB, Jia YT, Ma YL, Lei Y, Zhao Q, Tanaka S, Okuda T (2009). Regionality of episodic aerosol pollution in Beijing.Acta Scientiae Circumstantiae, 29, 482-487.
[11] (in Chinese with English abstract) [贺克斌, 贾英韬, 马永亮, 雷宇, 赵晴, Tanaka S, Okuda T (2009). 北京大气颗粒物污染的区域性本质. 环境科学学报, 29, 482-487.]
[12] He Y, Li L, Li JY, Li WX, Mu LQ (2010). Air purification efficiency of thirty species of landscape trees in northern China.Journal of Northeast Forestry University, 38(5), 37-39.
[12] (in Chinese with English abstract) [贺勇, 李磊, 李俊毅, 李伟星, 穆立蔷 (2010). 北方30种景观树种净化空气效益分析. 东北林业大学学报, 38(5), 37-39.]
[13] Ji HF, Zhang LJ, Yan HX, Huang DZ, Su XY, Huang QX, Liu L (2008). Study on dust catching property of major green tree species in northern China.Journal of Anhui Agricultural Sciences, 36, 10869-10871.
[13] (in Chinese with English abstract) [纪惠芳, 张立娟, 阎海霞, 黄大庄, 苏筱雨, 黄秋娴, 刘丽 (2008). 几种我国北方绿化树种滞尘能力的研究. 安徽农业科学, 36, 10869-10871.]
[14] Jim CY, Chen WY (2008). Assessing the ecosystem service of air pollutant removal by urban trees in Guangzhou (China).Journal of Environmental Management, 88, 665-676.
[15] Li HE, Wang ZY, Tan JD, Hu XC, Lu YD, Li PS (2006). Effects of main urban lanscape plants on dust blocking in Foshan.Ecologic Science, 25, 395-399.
[15] (in Chinese with English abstract) [李寒娥, 王志云, 谭家得, 胡羡聪, 陆耀东, 李佩珊 (2006). 佛山市主要城市园林植物滞尘效益分析. 生态科学, 25, 395-399.]
[16] Li HM, Liu X (2008). Relationships between leaf epidermal morphology and dust-retaining capability of main garden trees in Chengyang District of Qingdao City.Chinese Journal of Ecology, 27, 1659-1662.
[16] (in Chinese with English abstract) [李海梅, 刘霞 (2008). 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. 生态学杂志, 27, 1659-1662.]
[17] Liu L, Guan DS, Peart MR (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.
[18] Mo L, Yu XX, Zhao Y, Sun FB, Mo N, Xia HL (2014). Correlation analysis between urbanization and particle pollution in Beijing.Ecology and Environmental Sciences, 23, 806-811.
[18] (in Chinese with English abstract) [莫莉, 余新晓, 赵阳, 孙丰宾, 莫楠, 夏洪磊 (2014). 北京市区域城市化程度与颗粒物污染的相关性分析. 生态环境学报, 23, 806-811.]
[19] Nowak DJ, Crane DE, Stevens JC (2006). Air pollution removal by urban trees and shrubs in the United States.Urban Forestry & Urban Greening, 4, 115-123.
[20] Nowak DJ, Hirabayashi S, Bodine A, Greenfield E (2014). Tree and forest effects on air quality and human health in the United States.Environmental Pollution, 193, 119-129.
[21] Paoletti E, Bardelli T, Giovannini G, Pecchioli L (2011). Air quality impact of an urban park over time.Procedia Environmental Sciences, 4, 10-16.
[22] Pal A, Kulshreshtha K, Ahmad KJ, Behl HM (2002). Do leaf surface characters play a role in plant resistance to auto-exhaust pollution?Flora-Morphology, Distribution, Functional Ecology of Plants, 197, 47-55.
[23] Qian XL, Gan HD (2005). Epidemiological research progress of the effects of atmospheric particulate pollution on the cardiovascular system.Chinese Journal of Epidemiology, 26, 999-1001.
[23] (in Chinese) [钱孝琳, 阚海东 (2005). 大气颗粒物污染对心血管系统影响的流行病学研究进展. 中华流行病学杂志, 26, 999-1001.]
[24] Schaubroeck T, Deckmyn G, Neirynck J, Staelens J, Adriaenssens S, Dewulf J, Muys B, 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, 10785-10794.
[25] Su YX, Huang GQ, Chen XZ, Chen SS, Li ZS (2011). Research progress in the eco-environmental effects of urban green spaces.Acta Ecologica Sinica, 31, 7287-7300.
[25] (in Chinese with English abstract) [苏泳娴, 黄光庆, 陈修治, 陈水森, 李智山 (2011). 城市绿地的生态环境效应研究进展. 生态学报, 31, 7287-7300.]
[26] Tallis M, Taylor G, Sinnett D, 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, 129-138.
[27] Wang HX, Shi H, Li YY (2010). Relationships between leaf surface characteristics and dust-capturing capability of urban greening plant species.Journal of Applied Ecology, 21, 3077-3082.
[27] (in Chinese with English abstract) [王会霞, 石辉, 李秧秧 (2010). 城市绿化植物叶片表面特征对滞尘能力的影响. 应用生态学报, 21 3077-3082.]
[28] Wang L, Gao SY, Liu LY, Ha S (2006). Atmospheric particle-retaining capability of eleven garden plant species in Beijing.Chinese Journal of Applied Ecology, 17, 597-601.
[28] (in Chinese with English abstract) [王蕾, 高尚玉, 刘连友, 哈斯 (2006). 北京市11种园林植物滞留大气颗粒物能力研究. 应用生态学报, 17, 597-601.]
[29] Wang ZH, Li JB (2006). Capacity of dust uptake by leaf surface of Euonymus japonicus Thunb. and the morphology of captured particle in air polluted city.Ecology and Environment, 15, 327-330.
[29] (in Chinese with English abstract) [王赞红, 李纪标 (2006). 城市街道常绿灌木植物叶片滞尘能力及滞尘颗粒物形态. 生态环境, 15, 327-330.]
Options
文章导航

/

[an error occurred while processing this directive]