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基于生物监测法的北京空气质量空间分布特征 被引量:1

Analysis of Spatial Distribution of Air Quality in Beijing Based on Biomonitoring Method
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摘要 基于生物监测法,以北京城区为研究区域,采集了不同功能区和交通水平下的20个采样点的油松松针,采用ICP-AES测定了松针中的w(Pb)、w(Cd)、w(Cu)、w(Zn)、w(S)和w(Ca),对北京城区空气质量空间分布特征及潜在生态风险进行了分析.结果表明:较高的w(Pb)主要分布在北京西南部的工业区和人口密集居住区;位于老城的交通繁忙区和人口密集居住区及西南部工业区的w(Cu)均较高;较高的w(S)主要出现在北京城西南及东南部的工业区.因子分析表明:污染物Pb、Zn、Cd和S主要来源于混合污染源(如工业排放、家用炉灶和汽车尾气);Cu主要由人为活动过程(如金属加工)释放.总的说来,松针中w(Pb)与w(S)高于植物生长的正常范围,对植物生长和人类健康构成了潜在威胁,而Cd、Cu和Zn的污染未呈现潜在生态风险. To assess the air quality of Beijing,China,using a biomonitoring method,samples of Pinus tabulaeformis needles were collected from 20 sites with different functions and traffic levels.The concentrations of heavy metals(Pb,Cd,Cu and Zn),sulfur(S) and calcium(Ca) in the needle samples were determined by ICP-AES.The results showed that high Pb concentrations were observed in the southwestern industrial area and densely populated residential area.Heavy traffic and dense residential sites located in the old city area,together with the industrial area in the southwestern part of Beijing,showed high Cu contents.High S concentrations primarily existed in the industrial sites,which are located in the southwestern and southeastern districts of Beijing.Furthermore,Pb,Zn,Cd and S were mostly originated from mixed pollution sources of industrial emissions,home furnaces and vehicle exhaust.Cu was mainly originated from anthropogenic activities such as metallurgical processes.On average,Pb and S posed a potential threat to plant and human health,since their contents in the needles were far above the normal ranges for plant growth.However,Cd,Cu and Zn did not show potential ecological risk.
作者 陈志凡 赵烨 乔捷娟 仝致琦 呼红霞
机构地区 河南大学资源与环境研究所环境与规划学院 北京师范大学环境学院 北京市规划委员会昌平分局
出处 《环境科学研究》 EI CAS CSCD 北大核心 2012年第6期633-638,共6页 Research of Environmental Sciences
基金 国家重点基础研究发展计划(973)项目(2007CB407302) 河南省教育厅自然科学研究计划项目(2010B610004)
关键词 油松松针 重金属 S 空气质量 生物监测 Pinus Tabulaeformis needles heavy metals sulfur air quality biomonitoring
分类号 X51 [环境科学与工程—环境工程]
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参考文献29

  • 1HAO J M, WANG L T. Improving urban air quality in China: Beijing case study [ J ]. J Air Waste Manag Assoc, 2005,55 ( 9 ) : 1298-1305.
  • 2WESTERDAHL D,WANG X, PAN X C, et al. Characterization of on-road vehicle emission factors and microenvironmental air quality in Beijing, China[ J ]. Atmos Environ ,2009,43 ( 3 ) :697-705.
  • 3LEHNDORFF E, SCHWARK L. Accumulation histories of major and trace elements on pine needles in the Cologne Conurbation as function of air quality [ J ]. Atmos Environ, 2008,42 ( 5 ) : 833-845.
  • 4SMODIS B. Preface: validation and application of plants as biomonitors of atmospheric trace element deposition [ J ]. International Journal of Environment and Pollution, 2008,32 ( 4 ) : 431-433.
  • 5SOKHI R S. Urban air quality modelling-approaches, evaluation and applications-preface [ J ]. Environmental Modeling & Assessment,2008,13 ( 3 ) : 327- 328.
  • 6DMUCHOWSKI W,BYTNEROWICZ A. Monitoring environmental- pollution in Poland by chemical-analysis of Scots pine (Pinus sylvestris L. ) needles[J]. Environ Pollut,1995,87( 1 ):87-104.
  • 7TAUSZ M, TRUMMER W, GOESSLER W, et al. Accumulating pollutants in conifer needles on an Atlantic island:a case study with Pinus canariensis on Tenerife, Canary Islands [ J ]. Environ Pollut, 2005.136 (3) :397-407,.
  • 8HAO J M,WANG L T,SHEN M J,et al. Air quality impacts of power plant emissions in Beijing [ J]. Environ Pollut, 2007,147 (2) :401-408.
  • 9ZHENG M,SALMON L G, SCHAUER J J,et al. Seasonal trends in PM2.5 source contributions in Beijing, China [ J]. Atmos Environ, 2005,39 ( 22 ) : 3967- 3976.
  • 10曾令建,缪启龙,高庆先,高文康,向亮.沙尘天气对北京大气环境质量及太阳辐射的影响[J].环境科学研究,2011,24(4):433-439. 被引量:14

二级参考文献75

共引文献75

同被引文献32

  • 1汤庆合,丁振华,江家骅,杨文华,程金平,王文华.大型垃圾焚烧厂周边环境汞影响的初步调查[J].环境科学,2005,26(1):196-199. 被引量:33
  • 2Zhang L,Wang S X,Wang L,et al.Updated emission inventories for speciated atmospheric mercury from anthropogenic sources in China[J].Environmental Science&Technology,2015,49(5):3185-3194.
  • 3Cheng H F,Hu Y N.Mercury in municipal solid waste in China and its control:A review[J].Environmental Science&Technology,2012,46(2):593-605.
  • 4Zheng J Y,Ou J M,Mo Z W,et al.Mercury emission inventory and its spatial characteristics in the Pearl River Delta region,China[J].Science of the Total Environment,2011,412-413:214-222.
  • 5Hu D,Zhang W,Chen L,et al.Mercury emissions from waste combustion in China from 2004 to 2010[J].Atmospheric Environment,2012,62:359-366.
  • 6Carpi A.Mercury from combustion sources:A review of the chemical species emitted and their transport in the atmosphere[J].Water Air and Soil Pollution,1997,98(3-4):241-254.
  • 7Llobet J M,Schumacher M,Domingo J L.Spatial distribution and temporal variation of metals in the vicinity of a municipal solid waste incinerator after a modernization of the flue gas cleaning systems of the facility[J].Science of the Total Environment,2002,284(1/3):205-214.
  • 8Bretzel F,Calderisi M.Contribution of a municipal solid waste incinerator to the trace metals in the surrounding soil[J].Environmental Monitoring and Assessment,2011,182(1):523-533.
  • 9Wang J J,Zhao H W,Zhong X P,et al.Investigation of mercury levels in soil around a municipal solid waste incinerator in Shenzhen,China[J].Environmental Earth Sciences,2011,64(4):1001-1010.
  • 10vanD ijk C,van Doom W,van Alfen B.Long term plant biomonitoring in the vicinity of waste incinerators in the Netherlands[J].Chemosphere,2015,122:45-51.

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环境科学研究
2012年 第6期

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