Volatile chemical product emissions enhance ozone and modulate urban chemistry

Matthew M. Coggona; Georgios I. Gkatzelis; Brian C. McDonald; Jessica B. Gilman; Rebecca H. Schwantes; Nader Abuhassan; Kenneth C. Aikin; Mark F. Arendd; Timothy A. Berkoff; Steven S. Brown; Teresa L. Campos; Russell R. Dickerson; Guillaume Gronoff; James F. Hurley; Gabriel Isaacman-Vanwertz; Abigail R. Koss; Meng Li; Stuart A. McKeen; Fred Moshary; Jeff Peischl; Veronika Pospisilova; Xinrong Ren; Anna Wilson; Yonghua Wu; Michael Trainer; Carsten Warneke

doi:10.1073/pnas.2026653118

Volatile chemical product emissions enhance ozone and modulate urban chemistry

Matthew M. Coggona, Georgios I. Gkatzelis, Brian C. McDonald, Jessica B. Gilman, Rebecca H. Schwantes, Nader Abuhassan, Kenneth C. Aikin, Mark F. Arendd, Timothy A. Berkoff, Steven S. Brown, Teresa L. Campos, Russell R. Dickerson, Guillaume Gronoff, James F. Hurley, Gabriel Isaacman-Vanwertz, Abigail R. Koss, Meng Li, Stuart A. McKeen, Fred Moshary, Jeff PeischlVeronika Pospisilova, Xinrong Ren, Anna Wilson, Yonghua Wu, Michael Trainer, Carsten Warneke

Research output: Contribution to journal › Article › peer-review

190 Scopus citations

Abstract

Decades of air quality improvements have substantially reduced the motor vehicle emissions of volatile organic compounds (VOCs). Today, volatile chemical products (VCPs) are responsible for half of the petrochemical VOCs emitted in major urban areas. We show that VCP emissions are ubiquitous in US and European cities and scale with population density. We report significant VCP emissions for New York City (NYC), including a monoterpene flux of 14.7 to 24.4 kg · d-1 · km-2 from fragranced VCPs and other anthropogenic sources, which is comparable to that of a summertime forest. Photochemical modeling of an extreme heat event, with ozone well in excess of US standards, illustrates the significant impact of VCPs on air quality. In the most populated regions of NYC, ozone was sensitive to anthropogenic VOCs (AVOCs), even in the presence of biogenic sources. Within this VOC-sensitive regime, AVOCs contributed upwards of ∼20 ppb to maximum 8-h average ozone. VCPs accounted for more than 50% of this total AVOC contribution. Emissions from fragranced VCPs, including personal care and cleaning products, account for at least 50% of the ozone attributed to VCPs. We show that model simulations of ozone depend foremost on the magnitude of VCP emissions and that the addition of oxygenated VCP chemistry impacts simulations of key atmospheric oxidation products. NYC is a case study for developed megacities, and the impacts of VCPs on local ozone are likely similar for other major urban regions across North America or Europe.

Original language	English
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	32
DOIs	https://doi.org/10.1073/pnas.2026653118
State	Published - Aug 10 2021
Externally published	Yes

Keywords

Air pollution
Ozone
Urban atmospheric chemistry
Volatile chemical products

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10.1073/pnas.2026653118

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Coggona, M. M., Gkatzelis, G. I., McDonald, B. C., Gilman, J. B., Schwantes, R. H., Abuhassan, N., Aikin, K. C., Arendd, M. F., Berkoff, T. A., Brown, S. S., Campos, T. L., Dickerson, R. R., Gronoff, G., Hurley, J. F., Isaacman-Vanwertz, G., Koss, A. R., Li, M., McKeen, S. A., Moshary, F., ... Warneke, C. (2021). Volatile chemical product emissions enhance ozone and modulate urban chemistry. Proceedings of the National Academy of Sciences of the United States of America, 118(32). https://doi.org/10.1073/pnas.2026653118

@article{4cb25de0be8149baa2fdb2221b464dca,

title = "Volatile chemical product emissions enhance ozone and modulate urban chemistry",

abstract = "Decades of air quality improvements have substantially reduced the motor vehicle emissions of volatile organic compounds (VOCs). Today, volatile chemical products (VCPs) are responsible for half of the petrochemical VOCs emitted in major urban areas. We show that VCP emissions are ubiquitous in US and European cities and scale with population density. We report significant VCP emissions for New York City (NYC), including a monoterpene flux of 14.7 to 24.4 kg · d-1 · km-2 from fragranced VCPs and other anthropogenic sources, which is comparable to that of a summertime forest. Photochemical modeling of an extreme heat event, with ozone well in excess of US standards, illustrates the significant impact of VCPs on air quality. In the most populated regions of NYC, ozone was sensitive to anthropogenic VOCs (AVOCs), even in the presence of biogenic sources. Within this VOC-sensitive regime, AVOCs contributed upwards of ∼20 ppb to maximum 8-h average ozone. VCPs accounted for more than 50\% of this total AVOC contribution. Emissions from fragranced VCPs, including personal care and cleaning products, account for at least 50\% of the ozone attributed to VCPs. We show that model simulations of ozone depend foremost on the magnitude of VCP emissions and that the addition of oxygenated VCP chemistry impacts simulations of key atmospheric oxidation products. NYC is a case study for developed megacities, and the impacts of VCPs on local ozone are likely similar for other major urban regions across North America or Europe.",

keywords = "Air pollution, Ozone, Urban atmospheric chemistry, Volatile chemical products",

author = "Coggona, \{Matthew M.\} and Gkatzelis, \{Georgios I.\} and McDonald, \{Brian C.\} and Gilman, \{Jessica B.\} and Schwantes, \{Rebecca H.\} and Nader Abuhassan and Aikin, \{Kenneth C.\} and Arendd, \{Mark F.\} and Berkoff, \{Timothy A.\} and Brown, \{Steven S.\} and Campos, \{Teresa L.\} and Dickerson, \{Russell R.\} and Guillaume Gronoff and Hurley, \{James F.\} and Gabriel Isaacman-Vanwertz and Koss, \{Abigail R.\} and Meng Li and McKeen, \{Stuart A.\} and Fred Moshary and Jeff Peischl and Veronika Pospisilova and Xinrong Ren and Anna Wilson and Yonghua Wu and Michael Trainer and Carsten Warneke",

year = "2021",

month = aug,

day = "10",

doi = "10.1073/pnas.2026653118",

language = "English",

volume = "118",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "32",

}

Coggona, MM, Gkatzelis, GI, McDonald, BC, Gilman, JB, Schwantes, RH, Abuhassan, N, Aikin, KC, Arendd, MF, Berkoff, TA, Brown, SS, Campos, TL, Dickerson, RR, Gronoff, G, Hurley, JF, Isaacman-Vanwertz, G, Koss, AR, Li, M, McKeen, SA, Moshary, F, Peischl, J, Pospisilova, V, Ren, X, Wilson, A, Wu, Y, Trainer, M & Warneke, C 2021, 'Volatile chemical product emissions enhance ozone and modulate urban chemistry', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 32. https://doi.org/10.1073/pnas.2026653118

TY - JOUR

T1 - Volatile chemical product emissions enhance ozone and modulate urban chemistry

AU - Coggona, Matthew M.

AU - Gkatzelis, Georgios I.

AU - McDonald, Brian C.

AU - Gilman, Jessica B.

AU - Schwantes, Rebecca H.

AU - Abuhassan, Nader

AU - Aikin, Kenneth C.

AU - Arendd, Mark F.

AU - Berkoff, Timothy A.

AU - Brown, Steven S.

AU - Campos, Teresa L.

AU - Dickerson, Russell R.

AU - Gronoff, Guillaume

AU - Hurley, James F.

AU - Isaacman-Vanwertz, Gabriel

AU - Koss, Abigail R.

AU - Li, Meng

AU - McKeen, Stuart A.

AU - Moshary, Fred

AU - Peischl, Jeff

AU - Pospisilova, Veronika

AU - Ren, Xinrong

AU - Wilson, Anna

AU - Wu, Yonghua

AU - Trainer, Michael

AU - Warneke, Carsten

PY - 2021/8/10

Y1 - 2021/8/10

N2 - Decades of air quality improvements have substantially reduced the motor vehicle emissions of volatile organic compounds (VOCs). Today, volatile chemical products (VCPs) are responsible for half of the petrochemical VOCs emitted in major urban areas. We show that VCP emissions are ubiquitous in US and European cities and scale with population density. We report significant VCP emissions for New York City (NYC), including a monoterpene flux of 14.7 to 24.4 kg · d-1 · km-2 from fragranced VCPs and other anthropogenic sources, which is comparable to that of a summertime forest. Photochemical modeling of an extreme heat event, with ozone well in excess of US standards, illustrates the significant impact of VCPs on air quality. In the most populated regions of NYC, ozone was sensitive to anthropogenic VOCs (AVOCs), even in the presence of biogenic sources. Within this VOC-sensitive regime, AVOCs contributed upwards of ∼20 ppb to maximum 8-h average ozone. VCPs accounted for more than 50% of this total AVOC contribution. Emissions from fragranced VCPs, including personal care and cleaning products, account for at least 50% of the ozone attributed to VCPs. We show that model simulations of ozone depend foremost on the magnitude of VCP emissions and that the addition of oxygenated VCP chemistry impacts simulations of key atmospheric oxidation products. NYC is a case study for developed megacities, and the impacts of VCPs on local ozone are likely similar for other major urban regions across North America or Europe.

AB - Decades of air quality improvements have substantially reduced the motor vehicle emissions of volatile organic compounds (VOCs). Today, volatile chemical products (VCPs) are responsible for half of the petrochemical VOCs emitted in major urban areas. We show that VCP emissions are ubiquitous in US and European cities and scale with population density. We report significant VCP emissions for New York City (NYC), including a monoterpene flux of 14.7 to 24.4 kg · d-1 · km-2 from fragranced VCPs and other anthropogenic sources, which is comparable to that of a summertime forest. Photochemical modeling of an extreme heat event, with ozone well in excess of US standards, illustrates the significant impact of VCPs on air quality. In the most populated regions of NYC, ozone was sensitive to anthropogenic VOCs (AVOCs), even in the presence of biogenic sources. Within this VOC-sensitive regime, AVOCs contributed upwards of ∼20 ppb to maximum 8-h average ozone. VCPs accounted for more than 50% of this total AVOC contribution. Emissions from fragranced VCPs, including personal care and cleaning products, account for at least 50% of the ozone attributed to VCPs. We show that model simulations of ozone depend foremost on the magnitude of VCP emissions and that the addition of oxygenated VCP chemistry impacts simulations of key atmospheric oxidation products. NYC is a case study for developed megacities, and the impacts of VCPs on local ozone are likely similar for other major urban regions across North America or Europe.

KW - Air pollution

KW - Ozone

KW - Urban atmospheric chemistry

KW - Volatile chemical products

UR - https://www.scopus.com/pages/publications/85111880437

U2 - 10.1073/pnas.2026653118

DO - 10.1073/pnas.2026653118

M3 - Article

C2 - 34341119

AN - SCOPUS:85111880437

SN - 0027-8424

VL - 118

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 32

ER -

Volatile chemical product emissions enhance ozone and modulate urban chemistry

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Keywords

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