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Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley

The chemical content of water-soluble organic carbon (WSOC) as a function of particle size was characterized in Little Rock, Arkansas in winter and spring 2013. The objectives of this study were to (i) compare the functional characteristics of coarse, fine and ultrafine WSOC and (ii) reconcile the s...

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Autores principales: Chalbot, M.-C. G., Brown, J., Chitranshi, P., da Costa, G. Gamboa, Pollock, E. D., Kavouras, I. G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4961092/
https://www.ncbi.nlm.nih.gov/pubmed/27471518
http://dx.doi.org/10.5194/acp-14-6075-2014
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author Chalbot, M.-C. G.
Brown, J.
Chitranshi, P.
da Costa, G. Gamboa
Pollock, E. D.
Kavouras, I. G.
author_facet Chalbot, M.-C. G.
Brown, J.
Chitranshi, P.
da Costa, G. Gamboa
Pollock, E. D.
Kavouras, I. G.
author_sort Chalbot, M.-C. G.
collection PubMed
description The chemical content of water-soluble organic carbon (WSOC) as a function of particle size was characterized in Little Rock, Arkansas in winter and spring 2013. The objectives of this study were to (i) compare the functional characteristics of coarse, fine and ultrafine WSOC and (ii) reconcile the sources of WSOC for periods when carbonaceous aerosol was the most abundant particulate component. The WSOC accounted for 5 % of particle mass for particles with δ(p) > 0.96 μm and 10 % of particle mass for particles with δ(p) < 0.96 μm. Non-exchangeable aliphatic (H–C), unsaturated aliphatic (H–C–C=), oxygenated saturated aliphatic (H–C–O), acetalic (O–CH–O) and aromatic (Ar–H) protons were determined by proton nuclear magnetic resonance ((1)H-NMR). The total non-exchangeable organic hydrogen concentrations varied from 4.1 ± 0.1 nmol m(−3) for particles with 1.5 < δ(p) < 3.0 μm to 73.9 ± 12.3 nmol m(−3) for particles with δ(p) < 0.49 μm. The molar H/C ratios varied from 0.48 ± 0.05 to 0.92 ± 0.09, which were comparable to those observed for combustion-related organic aerosol. The R–H was the most abundant group, representing about 45 % of measured total non-exchangeable organic hydrogen concentrations, followed by H–C–O (27 %) and H–C–C= (26 %). Levoglucosan, amines, ammonium and methanesulfonate were identified in NMR fingerprints of fine particles. Sucrose, fructose, glucose, formate and acetate were associated with coarse particles. These qualitative differences of (1)H-NMR profiles for different particle sizes indicated the possible contribution of biological aerosols and a mixture of aliphatic and oxygenated compounds from biomass burning and traffic exhausts. The concurrent presence of ammonium and amines also suggested the presence of ammonium/aminium nitrate and sulfate secondary aerosol. The size-dependent origin of WSOC was further corroborated by the increasing δ(13)C abundance from −26.81 ± 0.18 ‰ for the smallest particles to −25.93 ± 0.31 ‰ for the largest particles and the relative distribution of the functional groups as compared to those previously observed for marine, biomass burning and secondary organic aerosol. The latter also allowed for the differentiation of urban combustion-related aerosol and biological particles. The five types of organic hydrogen accounted for the majority of WSOC for particles with δ(p) > 3.0 μm and δ(p) < 0.96 μm.
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spelling pubmed-49610922016-07-26 Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley Chalbot, M.-C. G. Brown, J. Chitranshi, P. da Costa, G. Gamboa Pollock, E. D. Kavouras, I. G. Atmos Chem Phys Article The chemical content of water-soluble organic carbon (WSOC) as a function of particle size was characterized in Little Rock, Arkansas in winter and spring 2013. The objectives of this study were to (i) compare the functional characteristics of coarse, fine and ultrafine WSOC and (ii) reconcile the sources of WSOC for periods when carbonaceous aerosol was the most abundant particulate component. The WSOC accounted for 5 % of particle mass for particles with δ(p) > 0.96 μm and 10 % of particle mass for particles with δ(p) < 0.96 μm. Non-exchangeable aliphatic (H–C), unsaturated aliphatic (H–C–C=), oxygenated saturated aliphatic (H–C–O), acetalic (O–CH–O) and aromatic (Ar–H) protons were determined by proton nuclear magnetic resonance ((1)H-NMR). The total non-exchangeable organic hydrogen concentrations varied from 4.1 ± 0.1 nmol m(−3) for particles with 1.5 < δ(p) < 3.0 μm to 73.9 ± 12.3 nmol m(−3) for particles with δ(p) < 0.49 μm. The molar H/C ratios varied from 0.48 ± 0.05 to 0.92 ± 0.09, which were comparable to those observed for combustion-related organic aerosol. The R–H was the most abundant group, representing about 45 % of measured total non-exchangeable organic hydrogen concentrations, followed by H–C–O (27 %) and H–C–C= (26 %). Levoglucosan, amines, ammonium and methanesulfonate were identified in NMR fingerprints of fine particles. Sucrose, fructose, glucose, formate and acetate were associated with coarse particles. These qualitative differences of (1)H-NMR profiles for different particle sizes indicated the possible contribution of biological aerosols and a mixture of aliphatic and oxygenated compounds from biomass burning and traffic exhausts. The concurrent presence of ammonium and amines also suggested the presence of ammonium/aminium nitrate and sulfate secondary aerosol. The size-dependent origin of WSOC was further corroborated by the increasing δ(13)C abundance from −26.81 ± 0.18 ‰ for the smallest particles to −25.93 ± 0.31 ‰ for the largest particles and the relative distribution of the functional groups as compared to those previously observed for marine, biomass burning and secondary organic aerosol. The latter also allowed for the differentiation of urban combustion-related aerosol and biological particles. The five types of organic hydrogen accounted for the majority of WSOC for particles with δ(p) > 3.0 μm and δ(p) < 0.96 μm. 2014-06-20 2014 /pmc/articles/PMC4961092/ /pubmed/27471518 http://dx.doi.org/10.5194/acp-14-6075-2014 Text en http://creativecommons.org/licenses/by/3.0/ CC Attribution 3.0 License.
spellingShingle Article
Chalbot, M.-C. G.
Brown, J.
Chitranshi, P.
da Costa, G. Gamboa
Pollock, E. D.
Kavouras, I. G.
Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley
title Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley
title_full Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley
title_fullStr Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley
title_full_unstemmed Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley
title_short Functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern Mississippi Valley
title_sort functional characterization of the water-soluble organic carbon of size-fractionated aerosol in the southern mississippi valley
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4961092/
https://www.ncbi.nlm.nih.gov/pubmed/27471518
http://dx.doi.org/10.5194/acp-14-6075-2014
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