Role of ammonium ion and transition metals in the formation of secondary organic aerosol and metallo-organic complex within fog processed ambient deliquescent submicron particles collected in central part of Indo-Gangetic Plain

In this study we observed the role of ammonium ion (NH4+) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and enhancing the yield of water soluble organic carbon (WSOC). A good correlation of WSOC with transition metals and NH4+ was found (R2 = 0.87 a...

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Published inChemosphere (Oxford) Vol. 181; pp. 725 - 737
Main Authors Singh, Dharmendra Kumar, Gupta, Tarun
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.08.2017
Subjects
Aerosols - analysis
Air Pollutants - analysis
Ammonium Compounds - analysis
Ammonium Compounds - chemistry
Ammonium ion
Carbonyls
India
Nitrates - chemistry
Organic acids
Organic Chemicals - analysis
Organic Chemicals - chemistry
Particulate Matter - analysis
Primary and secondary organic aerosol
Sulfates - chemistry
Transition Elements - analysis
Transition Elements - chemistry
Transition metals
Water - analysis
Water - chemistry
Water soluble organic carbon
Weather
Primary and secondary organic aerosol
Transition metals
Ammonium ion
Water soluble organic carbon
Organic acids
Carbonyls
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Abstract In this study we observed the role of ammonium ion (NH4+) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and enhancing the yield of water soluble organic carbon (WSOC). A good correlation of WSOC with transition metals and NH4+ was found (R2 = 0.87 and 0.71), respectively within foggy episode collected ambient PM1 (particles having aerodynamic diameter ≤1.0 μm) suggesting plausibleness of alternate oxidation (primarily various carbonyls into their respective organic acids, esters and other derivatives.) and aging mechanisms. Molar concentration of ammonium ion was observed to be exceeded over and above to require in neutralizing the sulphate and nitrate which further hints its role in the neutralization, stabilization and enhancement of subset of WSOC such as water soluble organic acids. Transition metals were further apportioned using enrichment factor analysis. The source of Fe, Mn, and Cr was found to be crustal and Cu was tagged to anthropogenic origin. This study also described the plausible role of significant predictors (Fe and Cu) in the secondary organic aerosol (SOA) formation through effect of Fenton chemistry. Mass-to-charge ratio of identified oxalic acid from our published recent field study (carried out from same sampling location) was used for understanding the possible metallo-organic complex with Fe supports the substantial role of Fe in SOA formation in the deliquescent submicron particles facilitated by aqueous-phase chemistry. [Display omitted] •Strong correlation of transition metals (Fe, Cu, Mn and Cr) with WSOC found upto (∼R2 = 0.87).•Fe and Cu key Fenton species show good correlation with WSOC.•A good correlation of WSOC with NH4+ was found (R2 = 0.71).•Role of NH4+ in neutralization, stabilization and production of WSOC.•Aqueous phase production and oxidation of organic aerosol.
AbstractList In this study we observed the role of ammonium ion (NH4+) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and enhancing the yield of water soluble organic carbon (WSOC). A good correlation of WSOC with transition metals and NH4+ was found (R2 = 0.87 and 0.71), respectively within foggy episode collected ambient PM1 (particles having aerodynamic diameter ≤1.0 μm) suggesting plausibleness of alternate oxidation (primarily various carbonyls into their respective organic acids, esters and other derivatives.) and aging mechanisms. Molar concentration of ammonium ion was observed to be exceeded over and above to require in neutralizing the sulphate and nitrate which further hints its role in the neutralization, stabilization and enhancement of subset of WSOC such as water soluble organic acids. Transition metals were further apportioned using enrichment factor analysis. The source of Fe, Mn, and Cr was found to be crustal and Cu was tagged to anthropogenic origin. This study also described the plausible role of significant predictors (Fe and Cu) in the secondary organic aerosol (SOA) formation through effect of Fenton chemistry. Mass-to-charge ratio of identified oxalic acid from our published recent field study (carried out from same sampling location) was used for understanding the possible metallo-organic complex with Fe supports the substantial role of Fe in SOA formation in the deliquescent submicron particles facilitated by aqueous-phase chemistry.
In this study we observed the role of ammonium ion (NH4+) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and enhancing the yield of water soluble organic carbon (WSOC). A good correlation of WSOC with transition metals and NH4+ was found (R2 = 0.87 and 0.71), respectively within foggy episode collected ambient PM1 (particles having aerodynamic diameter ≤1.0 μm) suggesting plausibleness of alternate oxidation (primarily various carbonyls into their respective organic acids, esters and other derivatives.) and aging mechanisms. Molar concentration of ammonium ion was observed to be exceeded over and above to require in neutralizing the sulphate and nitrate which further hints its role in the neutralization, stabilization and enhancement of subset of WSOC such as water soluble organic acids. Transition metals were further apportioned using enrichment factor analysis. The source of Fe, Mn, and Cr was found to be crustal and Cu was tagged to anthropogenic origin. This study also described the plausible role of significant predictors (Fe and Cu) in the secondary organic aerosol (SOA) formation through effect of Fenton chemistry. Mass-to-charge ratio of identified oxalic acid from our published recent field study (carried out from same sampling location) was used for understanding the possible metallo-organic complex with Fe supports the substantial role of Fe in SOA formation in the deliquescent submicron particles facilitated by aqueous-phase chemistry. [Display omitted] •Strong correlation of transition metals (Fe, Cu, Mn and Cr) with WSOC found upto (∼R2 = 0.87).•Fe and Cu key Fenton species show good correlation with WSOC.•A good correlation of WSOC with NH4+ was found (R2 = 0.71).•Role of NH4+ in neutralization, stabilization and production of WSOC.•Aqueous phase production and oxidation of organic aerosol.
In this study we observed the role of ammonium ion (NH ) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and enhancing the yield of water soluble organic carbon (WSOC). A good correlation of WSOC with transition metals and NH was found (R  = 0.87 and 0.71), respectively within foggy episode collected ambient PM (particles having aerodynamic diameter ≤1.0 μm) suggesting plausibleness of alternate oxidation (primarily various carbonyls into their respective organic acids, esters and other derivatives.) and aging mechanisms. Molar concentration of ammonium ion was observed to be exceeded over and above to require in neutralizing the sulphate and nitrate which further hints its role in the neutralization, stabilization and enhancement of subset of WSOC such as water soluble organic acids. Transition metals were further apportioned using enrichment factor analysis. The source of Fe, Mn, and Cr was found to be crustal and Cu was tagged to anthropogenic origin. This study also described the plausible role of significant predictors (Fe and Cu) in the secondary organic aerosol (SOA) formation through effect of Fenton chemistry. Mass-to-charge ratio of identified oxalic acid from our published recent field study (carried out from same sampling location) was used for understanding the possible metallo-organic complex with Fe supports the substantial role of Fe in SOA formation in the deliquescent submicron particles facilitated by aqueous-phase chemistry.
Author Gupta, Tarun
Singh, Dharmendra Kumar
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  organization: Department of Civil Engineering, Center for Environmental Science and Engineering, Indian Institute of Technology Kanpur, 208016, India
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28478233$$D View this record in MEDLINE/PubMed
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Keywords Primary and secondary organic aerosol
Transition metals
Ammonium ion
Water soluble organic carbon
Organic acids
Carbonyls
Language English
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SSID ssj0001659
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Snippet In this study we observed the role of ammonium ion (NH4+) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and...
In this study we observed the role of ammonium ion (NH ) and transition metals (Fe, Mn, Cr, and Cu) present in ambient submicron particles in stabilizing and...
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SubjectTerms Aerosols - analysis
Air Pollutants - analysis
Ammonium Compounds - analysis
Ammonium Compounds - chemistry
Ammonium ion
Carbonyls
India
Nitrates - chemistry
Organic acids
Organic Chemicals - analysis
Organic Chemicals - chemistry
Particulate Matter - analysis
Primary and secondary organic aerosol
Sulfates - chemistry
Transition Elements - analysis
Transition Elements - chemistry
Transition metals
Water - analysis
Water - chemistry
Water soluble organic carbon
Weather
Title Role of ammonium ion and transition metals in the formation of secondary organic aerosol and metallo-organic complex within fog processed ambient deliquescent submicron particles collected in central part of Indo-Gangetic Plain
URI https://dx.doi.org/10.1016/j.chemosphere.2017.04.080
https://www.ncbi.nlm.nih.gov/pubmed/28478233
https://search.proquest.com/docview/1896415976
Volume 181
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