Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements

Wyndom S. Chace; Caroline Womack; Katherine Ball; Kelvin H. Bates; Birger Bohn; Matthew Coggon; John D. Crounse; Hendrik Fuchs; Jessica Gilman; Georgios I. Gkatzelis; Christopher M. Jernigan; Gordon A. Novak; Anna Novelli; Jeff Peischl; Ilana Pollack; Michael A. Robinson; Andrew Rollins; Nell B. Schafer; Rebecca H. Schwantes; Morgan Selby; Aaron Stainsby; Chelsea Stockwell; Rose Taylor; Victoria Treadaway; Patrick R. Veres; Carsten Warneke; Eleanor Waxman; Paul O. Wennberg; Glenn M. Wolfe; Lu Xu; Kristen Zuraski; Steven S. Brown

doi:10.1021/acs.est.5c02073

Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements

Wyndom S. Chace, Caroline Womack, Katherine Ball, Kelvin H. Bates, Birger Bohn, Matthew Coggon, John D. Crounse, Hendrik Fuchs, Jessica Gilman, Georgios I. Gkatzelis, Christopher M. Jernigan, Gordon A. Novak, Anna Novelli, Jeff Peischl, Ilana Pollack, Michael A. Robinson, Andrew Rollins, Nell B. Schafer, Rebecca H. Schwantes, Morgan SelbyAaron Stainsby, Chelsea Stockwell, Rose Taylor, Victoria Treadaway, Patrick R. Veres, Carsten Warneke, Eleanor Waxman, Paul O. Wennberg, Glenn M. Wolfe, Lu Xu, Kristen Zuraski, Steven S. Brown

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

Abstract

Despite ongoing reductions in emissions of ozone (O₃) precursors, nitrogen oxides (NO_x = NO + NO₂) and volatile organic compounds (VOCs), the three largest urban areas in the United States ─ New York City (NYC), Chicago, and Los Angeles (LA) ─ continue to exceed national air quality standards for O₃. Airborne measurements during the 2023 Atmospheric Emissions and Reactions Observed from Megacities to Marine Areas (AEROMMA) campaign investigated nonlinear O₃ photochemistry in these cities. We report mean ozone production efficiency (OPE), the enhancement ratio of O_x (= O₃ + NO₂) to NO_x oxidation products, of 9 ± 4 (1σ), 6 ± 3, and 6 ± 3 ppbv ppbv^-1 in NYC, Chicago, and LA, respectively. Compared to historical values, OPE has increased in NYC but remains constant in LA. We find that OPE during AEROMMA has a nonlinear, inverse relationship with total reactive nitrogen (NO_y, a proxy for initial NO_x) and a positive correlation with the nonmethane VOC to NO_y enhancement ratio. A zero-dimensional photochemical model supports these observed OPE dependences on NO_x and VOCs and shows that OPE is a distinct metric from total O₃ production that is informative to the development of O₃ pollution control strategies. We find that OPE values have higher variability, and a larger increase with NO_x emissions reductions, in areas that experience NO_x-sensitive rather than NO_x-saturated O₃ photochemistry; nonetheless, NO_x reductions under NO_x-sensitive conditions still reduce total O₃ production despite the corresponding increase in OPE.

Original language	English
Pages (from-to)	13306-13318
Number of pages	13
Journal	Environmental Science and Technology
Volume	59
Issue number	26
DOIs	https://doi.org/10.1021/acs.est.5c02073
State	Published - Jul 8 2025
Externally published	Yes

Keywords

air pollution
megacities
ozone production efficiency
tropospheric ozone
urban air quality

Access to Document

10.1021/acs.est.5c02073

Cite this

Chace, W. S., Womack, C., Ball, K., Bates, K. H., Bohn, B., Coggon, M., Crounse, J. D., Fuchs, H., Gilman, J., Gkatzelis, G. I., Jernigan, C. M., Novak, G. A., Novelli, A., Peischl, J., Pollack, I., Robinson, M. A., Rollins, A., Schafer, N. B., Schwantes, R. H., ... Brown, S. S. (2025). Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements. Environmental Science and Technology, 59(26), 13306-13318. https://doi.org/10.1021/acs.est.5c02073

@article{e65baf06328642acb94f8c9b8e35c766,

title = "Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements",

abstract = "Despite ongoing reductions in emissions of ozone (O3) precursors, nitrogen oxides (NOx = NO + NO2) and volatile organic compounds (VOCs), the three largest urban areas in the United States ─ New York City (NYC), Chicago, and Los Angeles (LA) ─ continue to exceed national air quality standards for O3. Airborne measurements during the 2023 Atmospheric Emissions and Reactions Observed from Megacities to Marine Areas (AEROMMA) campaign investigated nonlinear O3 photochemistry in these cities. We report mean ozone production efficiency (OPE), the enhancement ratio of Ox (= O3 + NO2) to NOx oxidation products, of 9 ± 4 (1σ), 6 ± 3, and 6 ± 3 ppbv ppbv-1 in NYC, Chicago, and LA, respectively. Compared to historical values, OPE has increased in NYC but remains constant in LA. We find that OPE during AEROMMA has a nonlinear, inverse relationship with total reactive nitrogen (NOy, a proxy for initial NOx) and a positive correlation with the nonmethane VOC to NOy enhancement ratio. A zero-dimensional photochemical model supports these observed OPE dependences on NOx and VOCs and shows that OPE is a distinct metric from total O3 production that is informative to the development of O3 pollution control strategies. We find that OPE values have higher variability, and a larger increase with NOx emissions reductions, in areas that experience NOx-sensitive rather than NOx-saturated O3 photochemistry; nonetheless, NOx reductions under NOx-sensitive conditions still reduce total O3 production despite the corresponding increase in OPE.",

keywords = "air pollution, megacities, ozone production efficiency, tropospheric ozone, urban air quality",

author = "Chace, \{Wyndom S.\} and Caroline Womack and Katherine Ball and Bates, \{Kelvin H.\} and Birger Bohn and Matthew Coggon and Crounse, \{John D.\} and Hendrik Fuchs and Jessica Gilman and Gkatzelis, \{Georgios I.\} and Jernigan, \{Christopher M.\} and Novak, \{Gordon A.\} and Anna Novelli and Jeff Peischl and Ilana Pollack and Robinson, \{Michael A.\} and Andrew Rollins and Schafer, \{Nell B.\} and Schwantes, \{Rebecca H.\} and Morgan Selby and Aaron Stainsby and Chelsea Stockwell and Rose Taylor and Victoria Treadaway and Veres, \{Patrick R.\} and Carsten Warneke and Eleanor Waxman and Wennberg, \{Paul O.\} and Wolfe, \{Glenn M.\} and Lu Xu and Kristen Zuraski and Brown, \{Steven S.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

year = "2025",

month = jul,

day = "8",

doi = "10.1021/acs.est.5c02073",

language = "English",

volume = "59",

pages = "13306--13318",

journal = "Environmental Science and Technology",

issn = "0013-936X",

publisher = "American Chemical Society",

number = "26",

}

Chace, WS, Womack, C, Ball, K, Bates, KH, Bohn, B, Coggon, M, Crounse, JD, Fuchs, H, Gilman, J, Gkatzelis, GI, Jernigan, CM, Novak, GA, Novelli, A, Peischl, J, Pollack, I, Robinson, MA, Rollins, A, Schafer, NB, Schwantes, RH, Selby, M, Stainsby, A, Stockwell, C, Taylor, R, Treadaway, V, Veres, PR, Warneke, C, Waxman, E, Wennberg, PO, Wolfe, GM, Xu, L, Zuraski, K & Brown, SS 2025, 'Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements', Environmental Science and Technology, vol. 59, no. 26, pp. 13306-13318. https://doi.org/10.1021/acs.est.5c02073

TY - JOUR

T1 - Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements

AU - Chace, Wyndom S.

AU - Womack, Caroline

AU - Ball, Katherine

AU - Bates, Kelvin H.

AU - Bohn, Birger

AU - Coggon, Matthew

AU - Crounse, John D.

AU - Fuchs, Hendrik

AU - Gilman, Jessica

AU - Gkatzelis, Georgios I.

AU - Jernigan, Christopher M.

AU - Novak, Gordon A.

AU - Novelli, Anna

AU - Peischl, Jeff

AU - Pollack, Ilana

AU - Robinson, Michael A.

AU - Rollins, Andrew

AU - Schafer, Nell B.

AU - Schwantes, Rebecca H.

AU - Selby, Morgan

AU - Stainsby, Aaron

AU - Stockwell, Chelsea

AU - Taylor, Rose

AU - Treadaway, Victoria

AU - Veres, Patrick R.

AU - Warneke, Carsten

AU - Waxman, Eleanor

AU - Wennberg, Paul O.

AU - Wolfe, Glenn M.

AU - Xu, Lu

AU - Zuraski, Kristen

AU - Brown, Steven S.

PY - 2025/7/8

Y1 - 2025/7/8

N2 - Despite ongoing reductions in emissions of ozone (O3) precursors, nitrogen oxides (NOx = NO + NO2) and volatile organic compounds (VOCs), the three largest urban areas in the United States ─ New York City (NYC), Chicago, and Los Angeles (LA) ─ continue to exceed national air quality standards for O3. Airborne measurements during the 2023 Atmospheric Emissions and Reactions Observed from Megacities to Marine Areas (AEROMMA) campaign investigated nonlinear O3 photochemistry in these cities. We report mean ozone production efficiency (OPE), the enhancement ratio of Ox (= O3 + NO2) to NOx oxidation products, of 9 ± 4 (1σ), 6 ± 3, and 6 ± 3 ppbv ppbv-1 in NYC, Chicago, and LA, respectively. Compared to historical values, OPE has increased in NYC but remains constant in LA. We find that OPE during AEROMMA has a nonlinear, inverse relationship with total reactive nitrogen (NOy, a proxy for initial NOx) and a positive correlation with the nonmethane VOC to NOy enhancement ratio. A zero-dimensional photochemical model supports these observed OPE dependences on NOx and VOCs and shows that OPE is a distinct metric from total O3 production that is informative to the development of O3 pollution control strategies. We find that OPE values have higher variability, and a larger increase with NOx emissions reductions, in areas that experience NOx-sensitive rather than NOx-saturated O3 photochemistry; nonetheless, NOx reductions under NOx-sensitive conditions still reduce total O3 production despite the corresponding increase in OPE.

AB - Despite ongoing reductions in emissions of ozone (O3) precursors, nitrogen oxides (NOx = NO + NO2) and volatile organic compounds (VOCs), the three largest urban areas in the United States ─ New York City (NYC), Chicago, and Los Angeles (LA) ─ continue to exceed national air quality standards for O3. Airborne measurements during the 2023 Atmospheric Emissions and Reactions Observed from Megacities to Marine Areas (AEROMMA) campaign investigated nonlinear O3 photochemistry in these cities. We report mean ozone production efficiency (OPE), the enhancement ratio of Ox (= O3 + NO2) to NOx oxidation products, of 9 ± 4 (1σ), 6 ± 3, and 6 ± 3 ppbv ppbv-1 in NYC, Chicago, and LA, respectively. Compared to historical values, OPE has increased in NYC but remains constant in LA. We find that OPE during AEROMMA has a nonlinear, inverse relationship with total reactive nitrogen (NOy, a proxy for initial NOx) and a positive correlation with the nonmethane VOC to NOy enhancement ratio. A zero-dimensional photochemical model supports these observed OPE dependences on NOx and VOCs and shows that OPE is a distinct metric from total O3 production that is informative to the development of O3 pollution control strategies. We find that OPE values have higher variability, and a larger increase with NOx emissions reductions, in areas that experience NOx-sensitive rather than NOx-saturated O3 photochemistry; nonetheless, NOx reductions under NOx-sensitive conditions still reduce total O3 production despite the corresponding increase in OPE.

KW - air pollution

KW - megacities

KW - ozone production efficiency

KW - tropospheric ozone

KW - urban air quality

UR - https://www.scopus.com/pages/publications/105009146648

U2 - 10.1021/acs.est.5c02073

DO - 10.1021/acs.est.5c02073

M3 - Article

AN - SCOPUS:105009146648

SN - 0013-936X

VL - 59

SP - 13306

EP - 13318

JO - Environmental Science and Technology

JF - Environmental Science and Technology

IS - 26

ER -

Ozone Production Efficiencies in the Three Largest United States Cities from Airborne Measurements

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this