Spatial Distribution Of Atmospheric Pollutants Through Biomonitoring In Tree Bark Using X-Ray Fluorescence

Bruno Martins Gurgatz, R. Carvalho-Oliveira, Gisele Antoniaconi, P. Saldiva, L. Huergo, R. A. Reis
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引用次数: 3

Abstract

Several studies have shown that tree barks can absorb air contaminants, therefore, trees can be used as biomonitors to identify the distribution of atmospheric pollutants. The city of Paranaguá, located at the coast of the Paraná State in Brazil, hosts the largest bulk cargo port in Latin America and an elevated number of fertilizer processing industries. In this study we used tree barks coupled to X-ray fluorescence spectrometer analysis to biomonitor the distribution of air pollutants in the city of Paranaguá. We identified a visual correlation between the level of the elements K and Cl, with high levels detected near fertilizer warehouses. A relation between Fe levels and position of railways and train stations were also clear. The low levels of the elements Zn, Al, Ba and Mg detected in a traffic restricted zone confirm the use of these elements as markers of vehicles traffic and validate the approach of using tree barks for air pollution biomonitoring.  
利用x射线荧光技术监测树皮中大气污染物的空间分布
一些研究表明,树皮可以吸收空气中的污染物,因此,树木可以作为生物监测仪来识别大气污染物的分布。位于巴西帕拉纳瓜州海岸的帕拉纳瓜市拥有拉丁美洲最大的散货港口和大量的化肥加工业。在这项研究中,我们使用树皮结合x射线荧光光谱仪分析来生物监测巴拉那瓜市空气污染物的分布。我们确定了元素K和Cl水平之间的视觉相关性,在肥料仓库附近检测到高水平。铁含量与铁路和火车站位置的关系也很明显。在交通限制区内检测到的锌、铝、钡和镁元素的低水平证实了这些元素作为车辆交通标志的使用,并验证了使用树皮进行空气污染生物监测的方法。
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