Magneto-biomonitoring of intra-urban spatial variations of particulate matter using tree leaves

Preliminary mineral magnetic results from a pilot project investigating the suitability of roadside tree leaves as depositories of vehicular pollution are presented. Tree leaf surfaces (Lime: Tilia europaea; Sycamore: Acer pseudoplatanus) at four roadside and one woodland location in Wolverhampton,...

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Veröffentlicht in:	Environmental geochemistry and health 2009-04, Vol.31 (2), p.315-325
Hauptverfasser:	Power, Ann L, Worsley, Ann T, Booth, Colin
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Sprache:	eng
Schlagworte:	Acer - chemistry Acer pseudoplatanus Airborne particulates Biomonitoring Cities Earth and Environmental Science England Environment Environmental Chemistry Environmental Health Environmental monitoring Environmental Monitoring - methods Environmental Pollutants - analysis Epidemiology Geochemistry Leaves Magnetics Magnetism Minerals Original Paper Particle Size Particulate matter Pilot projects Plant Leaves - chemistry Public Health Soil Science & Conservation Studies Terrestrial Pollution Tilia - chemistry Tilia europaea Traffic management Trees Urban areas Vehicle Emissions - analysis Woodlands
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container_title	Environmental geochemistry and health
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creator	Power, Ann L Worsley, Ann T Booth, Colin
description	Preliminary mineral magnetic results from a pilot project investigating the suitability of roadside tree leaves as depositories of vehicular pollution are presented. Tree leaf surfaces (Lime: Tilia europaea; Sycamore: Acer pseudoplatanus) at four roadside and one woodland location in Wolverhampton, UK, have been monitored (July 2003 to November 2003). Mineral magnetic technologies have revealed spatial variations of particulate pollution concentration throughout the conurbation and data analysis indicates that magnetic concentration parameters are suitable proxies for fine particulate pollution, which are particularly hazardous to health. Site-specific traffic management and associated vehicle behaviour appear to be chiefly responsible for the magnetic concentration differences between sites. Magneto-biomonitoring in this way allows the high-resolution spatial mapping of particulate matter (PM) pollution, which may also benefit epidemiology in better assessing exposure to vehicular-derived particulates. Given the speed, measurement sensitivity and non-destructive nature of the technique, it is proposed that this low-cost approach offers some advantages over centralised monitoring stations to monitor urban roadside particulate pollution.
doi_str_mv	10.1007/s10653-008-9217-2
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Tree leaf surfaces (Lime: Tilia europaea; Sycamore: Acer pseudoplatanus) at four roadside and one woodland location in Wolverhampton, UK, have been monitored (July 2003 to November 2003). Mineral magnetic technologies have revealed spatial variations of particulate pollution concentration throughout the conurbation and data analysis indicates that magnetic concentration parameters are suitable proxies for fine particulate pollution, which are particularly hazardous to health. Site-specific traffic management and associated vehicle behaviour appear to be chiefly responsible for the magnetic concentration differences between sites. Magneto-biomonitoring in this way allows the high-resolution spatial mapping of particulate matter (PM) pollution, which may also benefit epidemiology in better assessing exposure to vehicular-derived particulates. 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Tree leaf surfaces (Lime: Tilia europaea; Sycamore: Acer pseudoplatanus) at four roadside and one woodland location in Wolverhampton, UK, have been monitored (July 2003 to November 2003). Mineral magnetic technologies have revealed spatial variations of particulate pollution concentration throughout the conurbation and data analysis indicates that magnetic concentration parameters are suitable proxies for fine particulate pollution, which are particularly hazardous to health. Site-specific traffic management and associated vehicle behaviour appear to be chiefly responsible for the magnetic concentration differences between sites. Magneto-biomonitoring in this way allows the high-resolution spatial mapping of particulate matter (PM) pollution, which may also benefit epidemiology in better assessing exposure to vehicular-derived particulates. Given the speed, measurement sensitivity and non-destructive nature of the technique, it is proposed that this low-cost approach offers some advantages over centralised monitoring stations to monitor urban roadside particulate pollution.</abstract><cop>Dordrecht</cop><pub>Dordrecht : Springer Netherlands</pub><pmid>19023666</pmid><doi>10.1007/s10653-008-9217-2</doi><tpages>11</tpages></addata></record>
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subjects	Acer - chemistry Acer pseudoplatanus Airborne particulates Biomonitoring Cities Earth and Environmental Science England Environment Environmental Chemistry Environmental Health Environmental monitoring Environmental Monitoring - methods Environmental Pollutants - analysis Epidemiology Geochemistry Leaves Magnetics Magnetism Minerals Original Paper Particle Size Particulate matter Pilot projects Plant Leaves - chemistry Public Health Soil Science & Conservation Studies Terrestrial Pollution Tilia - chemistry Tilia europaea Traffic management Trees Urban areas Vehicle Emissions - analysis Woodlands
title	Magneto-biomonitoring of intra-urban spatial variations of particulate matter using tree leaves
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