Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications
Background, aim and scope Street sediment samples were collected at 50 locations in a mixed land use area of Hamilton, Ontario, Canada, and metal levels were analyzed using a sequential extraction procedure for different particle size classes to provide an estimate of potential toxicity as well as t...
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th-cmuir.6653943832-490342018-08-16T02:08:44Z Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications Kim N. Irvine Mary F. Perrelli Ratchadawan Ngoen-Klan Ian G. Droppo Earth and Planetary Sciences Background, aim and scope Street sediment samples were collected at 50 locations in a mixed land use area of Hamilton, Ontario, Canada, and metal levels were analyzed using a sequential extraction procedure for different particle size classes to provide an estimate of potential toxicity as well as the potential for treatment through best management practices (BMPs). Methodology The street sediment samples were dry sieved into four different particle size categories and a sequential extraction procedure was done on each size category following the methodology proposed by Tessier et al. 1979 using a Hitachi 180-80 Polarized Zeeman Atomic Absorption Spectrophotometer. Results and discussion Analysis of variance, post hoc least-significant difference tests, and kriging analysis showed that spatially Mn and Fe levels were associated with a well-defined heavy industrial area that includes large iron-and steel-making operations; Cu and Pb were associated with both the industrial and high-volume traffic areas, while Zn tended to be more associated with high-volume traffic areas. The potential bioavailability of the metals, based on the sum of chemical fractions 1 (exchangeable) and 2 (carbonate-bound), decreased in order: Zn > Cd > Mn > Pb > Cu > Fe. Based on aquatic sediment quality guidelines, there is some concern regarding the potential impact of the street sediment when runoff reaches receiving waters. Conclusions It is possible that a combination of BMPs, including street sweeping and constructed wetlands, could help to reduce street sediment impact on environmental quality in the Hamilton region. The data presented here would be important in developing and optimizing the design of these BMPs. © Springer-Verlag 2009. 2018-08-16T02:08:44Z 2018-08-16T02:08:44Z 2009-06-29 Journal 14390108 2-s2.0-78649705922 10.1007/s11368-009-0098-5 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=78649705922&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/49034 |
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Earth and Planetary Sciences Kim N. Irvine Mary F. Perrelli Ratchadawan Ngoen-Klan Ian G. Droppo Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications |
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Background, aim and scope Street sediment samples were collected at 50 locations in a mixed land use area of Hamilton, Ontario, Canada, and metal levels were analyzed using a sequential extraction procedure for different particle size classes to provide an estimate of potential toxicity as well as the potential for treatment through best management practices (BMPs). Methodology The street sediment samples were dry sieved into four different particle size categories and a sequential extraction procedure was done on each size category following the methodology proposed by Tessier et al. 1979 using a Hitachi 180-80 Polarized Zeeman Atomic Absorption Spectrophotometer. Results and discussion Analysis of variance, post hoc least-significant difference tests, and kriging analysis showed that spatially Mn and Fe levels were associated with a well-defined heavy industrial area that includes large iron-and steel-making operations; Cu and Pb were associated with both the industrial and high-volume traffic areas, while Zn tended to be more associated with high-volume traffic areas. The potential bioavailability of the metals, based on the sum of chemical fractions 1 (exchangeable) and 2 (carbonate-bound), decreased in order: Zn > Cd > Mn > Pb > Cu > Fe. Based on aquatic sediment quality guidelines, there is some concern regarding the potential impact of the street sediment when runoff reaches receiving waters. Conclusions It is possible that a combination of BMPs, including street sweeping and constructed wetlands, could help to reduce street sediment impact on environmental quality in the Hamilton region. The data presented here would be important in developing and optimizing the design of these BMPs. © Springer-Verlag 2009. |
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Journal |
author |
Kim N. Irvine Mary F. Perrelli Ratchadawan Ngoen-Klan Ian G. Droppo |
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Kim N. Irvine Mary F. Perrelli Ratchadawan Ngoen-Klan Ian G. Droppo |
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Kim N. Irvine |
title |
Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications |
title_short |
Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications |
title_full |
Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications |
title_fullStr |
Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications |
title_full_unstemmed |
Metal levels in street sediment from an industrial city: Spatial trends, chemical fractionation, and management implications |
title_sort |
metal levels in street sediment from an industrial city: spatial trends, chemical fractionation, and management implications |
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2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=78649705922&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/49034 |
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