Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire
Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Fujii, Yusuke [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2017transfer abstract |
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| Schlagwörter: |
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| Umfang: |
7 |
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| Übergeordnetes Werk: |
Enthalten in: The internal pudendal artery turnover (IPAT) flap: A new, simple and reliable technique for perineal reconstruction - Nassar, M.K. ELSEVIER, 2021, Amsterdam [u.a.] |
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| Übergeordnetes Werk: |
volume:171 ; year:2017 ; pages:111-117 ; extent:7 |
| Links: |
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| DOI / URN: |
10.1016/j.atmosenv.2017.10.009 |
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| Katalog-ID: |
ELV040920887 |
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| 245 | 1 | 0 | |a Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire |
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| 520 | |a Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. | ||
| 520 | |a Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. | ||
| 650 | 7 | |a Biomass burning |2 Elsevier | |
| 650 | 7 | |a PMF |2 Elsevier | |
| 650 | 7 | |a Malaysia |2 Elsevier | |
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| 650 | 7 | |a Source apportionment |2 Elsevier | |
| 650 | 7 | |a Peatland fire |2 Elsevier | |
| 700 | 1 | |a Tohno, Susumu |4 oth | |
| 700 | 1 | |a Amil, Norhaniza |4 oth | |
| 700 | 1 | |a Latif, Mohd Talib |4 oth | |
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10.1016/j.atmosenv.2017.10.009 doi GBV00000000000367.pica (DE-627)ELV040920887 (ELSEVIER)S1352-2310(17)30670-2 DE-627 ger DE-627 rakwb eng 610 VZ 44.65 bkl Fujii, Yusuke verfasserin aut Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire 2017transfer abstract 7 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Biomass burning Elsevier PMF Elsevier Malaysia Elsevier PM<ce:inf loc="post">2.5</ce:inf> Elsevier Source apportionment Elsevier Peatland fire Elsevier Tohno, Susumu oth Amil, Norhaniza oth Latif, Mohd Talib oth Enthalten in Elsevier Science Nassar, M.K. ELSEVIER The internal pudendal artery turnover (IPAT) flap: A new, simple and reliable technique for perineal reconstruction 2021 Amsterdam [u.a.] (DE-627)ELV00656139X volume:171 year:2017 pages:111-117 extent:7 https://doi.org/10.1016/j.atmosenv.2017.10.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.65 Chirurgie VZ AR 171 2017 111-117 7 |
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10.1016/j.atmosenv.2017.10.009 doi GBV00000000000367.pica (DE-627)ELV040920887 (ELSEVIER)S1352-2310(17)30670-2 DE-627 ger DE-627 rakwb eng 610 VZ 44.65 bkl Fujii, Yusuke verfasserin aut Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire 2017transfer abstract 7 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Biomass burning Elsevier PMF Elsevier Malaysia Elsevier PM<ce:inf loc="post">2.5</ce:inf> Elsevier Source apportionment Elsevier Peatland fire Elsevier Tohno, Susumu oth Amil, Norhaniza oth Latif, Mohd Talib oth Enthalten in Elsevier Science Nassar, M.K. ELSEVIER The internal pudendal artery turnover (IPAT) flap: A new, simple and reliable technique for perineal reconstruction 2021 Amsterdam [u.a.] (DE-627)ELV00656139X volume:171 year:2017 pages:111-117 extent:7 https://doi.org/10.1016/j.atmosenv.2017.10.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.65 Chirurgie VZ AR 171 2017 111-117 7 |
| allfields_unstemmed |
10.1016/j.atmosenv.2017.10.009 doi GBV00000000000367.pica (DE-627)ELV040920887 (ELSEVIER)S1352-2310(17)30670-2 DE-627 ger DE-627 rakwb eng 610 VZ 44.65 bkl Fujii, Yusuke verfasserin aut Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire 2017transfer abstract 7 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Biomass burning Elsevier PMF Elsevier Malaysia Elsevier PM<ce:inf loc="post">2.5</ce:inf> Elsevier Source apportionment Elsevier Peatland fire Elsevier Tohno, Susumu oth Amil, Norhaniza oth Latif, Mohd Talib oth Enthalten in Elsevier Science Nassar, M.K. ELSEVIER The internal pudendal artery turnover (IPAT) flap: A new, simple and reliable technique for perineal reconstruction 2021 Amsterdam [u.a.] (DE-627)ELV00656139X volume:171 year:2017 pages:111-117 extent:7 https://doi.org/10.1016/j.atmosenv.2017.10.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.65 Chirurgie VZ AR 171 2017 111-117 7 |
| allfieldsGer |
10.1016/j.atmosenv.2017.10.009 doi GBV00000000000367.pica (DE-627)ELV040920887 (ELSEVIER)S1352-2310(17)30670-2 DE-627 ger DE-627 rakwb eng 610 VZ 44.65 bkl Fujii, Yusuke verfasserin aut Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire 2017transfer abstract 7 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Biomass burning Elsevier PMF Elsevier Malaysia Elsevier PM<ce:inf loc="post">2.5</ce:inf> Elsevier Source apportionment Elsevier Peatland fire Elsevier Tohno, Susumu oth Amil, Norhaniza oth Latif, Mohd Talib oth Enthalten in Elsevier Science Nassar, M.K. ELSEVIER The internal pudendal artery turnover (IPAT) flap: A new, simple and reliable technique for perineal reconstruction 2021 Amsterdam [u.a.] (DE-627)ELV00656139X volume:171 year:2017 pages:111-117 extent:7 https://doi.org/10.1016/j.atmosenv.2017.10.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.65 Chirurgie VZ AR 171 2017 111-117 7 |
| allfieldsSound |
10.1016/j.atmosenv.2017.10.009 doi GBV00000000000367.pica (DE-627)ELV040920887 (ELSEVIER)S1352-2310(17)30670-2 DE-627 ger DE-627 rakwb eng 610 VZ 44.65 bkl Fujii, Yusuke verfasserin aut Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire 2017transfer abstract 7 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. Biomass burning Elsevier PMF Elsevier Malaysia Elsevier PM<ce:inf loc="post">2.5</ce:inf> Elsevier Source apportionment Elsevier Peatland fire Elsevier Tohno, Susumu oth Amil, Norhaniza oth Latif, Mohd Talib oth Enthalten in Elsevier Science Nassar, M.K. ELSEVIER The internal pudendal artery turnover (IPAT) flap: A new, simple and reliable technique for perineal reconstruction 2021 Amsterdam [u.a.] (DE-627)ELV00656139X volume:171 year:2017 pages:111-117 extent:7 https://doi.org/10.1016/j.atmosenv.2017.10.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.65 Chirurgie VZ AR 171 2017 111-117 7 |
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quantitative assessment of source contributions to pm<ce:inf loc="post">2.5</ce:inf> on the west coast of peninsular malaysia to determine the burden of indonesian peatland fire |
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Quantitative assessment of source contributions to PM<ce:inf loc="post">2.5</ce:inf> on the west coast of Peninsular Malaysia to determine the burden of Indonesian peatland fire |
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Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. |
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Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. |
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Almost every dry season, peatland fires occur in Sumatra and Kalimantan Inlands. Dense smoke haze from Indonesian peatland fires (IPFs) causes impacts on health, visibility, transport and regional climate in Southeast Asian countries such as Indonesia, Malaysia, and Singapore. Quantitative knowledge of IPF source contribution to ambient aerosols in Southeast Asia (SEA) is so useful to make appropriate suggestions to policy makers to mitigate IPF-induced haze pollution. However, its quantitative contribution to ambient aerosols in SEA remains unclarified. In this study, the source contributions to PM2.5 were determined by the Positive Matrix Factorization (PMF) model with annual comprehensive observation data at Petaling Jaya on the west coast of Peninsular Malaysia, which is downwind of the IPF areas in Sumatra Island, during the dry (southwest monsoon: June–September) season. The average PM2.5 mass concentration during the whole sampling periods (Aug 2011–Jul 2012) based on the PMF and chemical mass closure models was determined as 20–21 μg m−3. Throughout the sampling periods, IPF contributed (on average) 6.1–7.0 μg m−3 to the PM2.5, or ∼30% of the retrieved PM2.5 concentration. In particular, the PM2.5 was dominantly sourced from IPF during the southwest monsoon season (51–55% of the total PM2.5 concentration on average). Thus, reducing the IPF burden in the PM2.5 levels would drastically improve the air quality (especially during the southwest monsoon season) around the west coast of Peninsular Malaysia. |
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