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Atmospheric pollutant dispersion around an urban area using trace metal concentrations and Pb isotopic compositions in epiphytic lichens [An article from: Atmospheric Environment]
Book Details
Author(s)C. Cloquet, J. Carignan, G. Libourel
PublisherElsevier
ISBN / ASINB000RR7Y14
ISBN-13978B000RR7Y18
AvailabilityAvailable for download now
Sales Rank99,999,999
MarketplaceUnited States 🇺🇸
Description
This digital document is a journal article from Atmospheric Environment, published by Elsevier in . The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
Epiphytic lichen samples were collected in and around a city of 300000 inhabitants in NE France to study the dispersion and fallout of Cd, Cu, Zn and Pb. Lichens hanging in small tree branches within a 15km radius from the city centre, together with bus air filter aerosols and unleaded gasoline samples, were analysed to evaluate the relative contribution of anthropogenic metals. On an average, Pb and Cd concentrations and calculated enrichment factors in lichens showed a radial distribution from downtown, decreasing rapidly within 4 or 5km and then less so towards more rural areas, whereas it is more diffuse for Cu and Zn despite the more elevated values close to the city centre. Metal concentrations can be interpreted in the light of major wind directions and/or secondary pollution sources to the atmosphere. Lichens sampled in the city and close to high traffic roads had ^2^0^6Pb/^2^0^7Pb ratios of about 1.13. This ratio was consistently higher (up to 1.157) for lichens sampled at only five kilometres from the city centre. On the other hand, urban aerosols (on bus air filters) have homogeneous ^2^0^6Pb/^2^0^7Pb ratios of 1.153+/-0.003. The variation in Pb isotopic composition in lichens can be interpreted as the result of mixing between different industrial sources and old Pb pollution from leaded gasoline combustion re-emitted into the atmosphere. Combining elemental concentrations and isotopic ratios allowed a better understanding of the atmospheric deposition of metals and related sources in urban areas.
Description:
Epiphytic lichen samples were collected in and around a city of 300000 inhabitants in NE France to study the dispersion and fallout of Cd, Cu, Zn and Pb. Lichens hanging in small tree branches within a 15km radius from the city centre, together with bus air filter aerosols and unleaded gasoline samples, were analysed to evaluate the relative contribution of anthropogenic metals. On an average, Pb and Cd concentrations and calculated enrichment factors in lichens showed a radial distribution from downtown, decreasing rapidly within 4 or 5km and then less so towards more rural areas, whereas it is more diffuse for Cu and Zn despite the more elevated values close to the city centre. Metal concentrations can be interpreted in the light of major wind directions and/or secondary pollution sources to the atmosphere. Lichens sampled in the city and close to high traffic roads had ^2^0^6Pb/^2^0^7Pb ratios of about 1.13. This ratio was consistently higher (up to 1.157) for lichens sampled at only five kilometres from the city centre. On the other hand, urban aerosols (on bus air filters) have homogeneous ^2^0^6Pb/^2^0^7Pb ratios of 1.153+/-0.003. The variation in Pb isotopic composition in lichens can be interpreted as the result of mixing between different industrial sources and old Pb pollution from leaded gasoline combustion re-emitted into the atmosphere. Combining elemental concentrations and isotopic ratios allowed a better understanding of the atmospheric deposition of metals and related sources in urban areas.
