Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types

Enhancements of the mixing ratios of short-lived halogenated gases were observed in air samples collected at Bachok Marine Research Station (BMRS), Peninsular Malaysia during Northern Hemisphere winters in 2013/2014 and 2015/2016. This study investigates the potential source regions and source types...

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Main Authors: Hanif, Norfazrin Mohd, Reeves, Claire E., Oram, David E., Ashfold, Matthew J., Panagi, Marios, Fleming, Zoe L., Gooch, Lauren J., Laube, Johannes C., Abu Samah, Azizan, Abdullah, Ahmad Amin, Sturges, William T.
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Published: IOP PUBLISHING LTD 2020
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Online Access:http://eprints.um.edu.my/37022/
https://iopscience.iop.org/article/10.1088/1755-1315/616/1/012011
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spelling my.um.eprints.370222023-06-14T02:35:09Z http://eprints.um.edu.my/37022/ Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types Hanif, Norfazrin Mohd Reeves, Claire E. Oram, David E. Ashfold, Matthew J. Panagi, Marios Fleming, Zoe L. Gooch, Lauren J. Laube, Johannes C. Abu Samah, Azizan Abdullah, Ahmad Amin Sturges, William T. Q Science (General) Enhancements of the mixing ratios of short-lived halogenated gases were observed in air samples collected at Bachok Marine Research Station (BMRS), Peninsular Malaysia during Northern Hemisphere winters in 2013/2014 and 2015/2016. This study investigates the potential source regions and source types that influenced the variability in chlorinated very short-lived substances (Cl-VSLS) dichloromethane, 1,2-dichloroethane, trichloromethane, tetrachloroethene] and methyl halides methyl chloride and methyl bromide]. The UK Met Office's Numerical Atmospheric Modelling Environment ( NAME) dispersion model, was used for tracking the origin of air masses arriving at BMRS. For the purpose of identifying possible sources of these compounds, carbon monoxide (CO) emission data taken from the Representative Concentration Pathway 8.5 were used along with NAME footprints to calculate modelled CO mixing ratios. A correlation analysis between the mixing ratios of measured compounds and the modelled CO from various emission sectors was perform to assess the extent to which emission sectors might be related to the mixing ratios of halogenated gases. The results show that the events of higher mixing ratios were associated with air masses, especially from East China. During the 2013/2014 campaign, the modelled CO from industrial, solvents and agriculture (waste burning on fields) were significantly correlated with the mixing ratios of Cl-VSLS (R > 0.7) and methyl halides (R > 0.40). During the 2015/2016 campaign, the strength of these correlations reduced for Cl-VSLS (R > 0.5) and with no significant correlations for methylhalides. Instead, mixing ratios of methyl halides were correlated (R=0.4) with modelled CO from forest burning. This work provides evidence that East and South East Asia act as important sources of halogenated gases. This is of significant given the proximity of these regions to prevalent deep convection which can rapidly transport these halogen-containing gases into the stratosphere and impact the ozone layer. IOP PUBLISHING LTD 2020 Conference or Workshop Item PeerReviewed Hanif, Norfazrin Mohd and Reeves, Claire E. and Oram, David E. and Ashfold, Matthew J. and Panagi, Marios and Fleming, Zoe L. and Gooch, Lauren J. and Laube, Johannes C. and Abu Samah, Azizan and Abdullah, Ahmad Amin and Sturges, William T. (2020) Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types. In: 2nd International Conference on Green Environmental Engineering and Technology (IConGEET), 23 July 2020, Online. https://iopscience.iop.org/article/10.1088/1755-1315/616/1/012011
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic Q Science (General)
spellingShingle Q Science (General)
Hanif, Norfazrin Mohd
Reeves, Claire E.
Oram, David E.
Ashfold, Matthew J.
Panagi, Marios
Fleming, Zoe L.
Gooch, Lauren J.
Laube, Johannes C.
Abu Samah, Azizan
Abdullah, Ahmad Amin
Sturges, William T.
Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types
description Enhancements of the mixing ratios of short-lived halogenated gases were observed in air samples collected at Bachok Marine Research Station (BMRS), Peninsular Malaysia during Northern Hemisphere winters in 2013/2014 and 2015/2016. This study investigates the potential source regions and source types that influenced the variability in chlorinated very short-lived substances (Cl-VSLS) dichloromethane, 1,2-dichloroethane, trichloromethane, tetrachloroethene] and methyl halides methyl chloride and methyl bromide]. The UK Met Office's Numerical Atmospheric Modelling Environment ( NAME) dispersion model, was used for tracking the origin of air masses arriving at BMRS. For the purpose of identifying possible sources of these compounds, carbon monoxide (CO) emission data taken from the Representative Concentration Pathway 8.5 were used along with NAME footprints to calculate modelled CO mixing ratios. A correlation analysis between the mixing ratios of measured compounds and the modelled CO from various emission sectors was perform to assess the extent to which emission sectors might be related to the mixing ratios of halogenated gases. The results show that the events of higher mixing ratios were associated with air masses, especially from East China. During the 2013/2014 campaign, the modelled CO from industrial, solvents and agriculture (waste burning on fields) were significantly correlated with the mixing ratios of Cl-VSLS (R > 0.7) and methyl halides (R > 0.40). During the 2015/2016 campaign, the strength of these correlations reduced for Cl-VSLS (R > 0.5) and with no significant correlations for methylhalides. Instead, mixing ratios of methyl halides were correlated (R=0.4) with modelled CO from forest burning. This work provides evidence that East and South East Asia act as important sources of halogenated gases. This is of significant given the proximity of these regions to prevalent deep convection which can rapidly transport these halogen-containing gases into the stratosphere and impact the ozone layer.
format Conference or Workshop Item
author Hanif, Norfazrin Mohd
Reeves, Claire E.
Oram, David E.
Ashfold, Matthew J.
Panagi, Marios
Fleming, Zoe L.
Gooch, Lauren J.
Laube, Johannes C.
Abu Samah, Azizan
Abdullah, Ahmad Amin
Sturges, William T.
author_facet Hanif, Norfazrin Mohd
Reeves, Claire E.
Oram, David E.
Ashfold, Matthew J.
Panagi, Marios
Fleming, Zoe L.
Gooch, Lauren J.
Laube, Johannes C.
Abu Samah, Azizan
Abdullah, Ahmad Amin
Sturges, William T.
author_sort Hanif, Norfazrin Mohd
title Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types
title_short Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types
title_full Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types
title_fullStr Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types
title_full_unstemmed Enhanced chlorinated very short-lived substances in South East Asia: Potential source regions and source types
title_sort enhanced chlorinated very short-lived substances in south east asia: potential source regions and source types
publisher IOP PUBLISHING LTD
publishDate 2020
url http://eprints.um.edu.my/37022/
https://iopscience.iop.org/article/10.1088/1755-1315/616/1/012011
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score 13.214268