Tropospheric Ozone Assessment Report: Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation

A. Gaudel; O. R. Cooper; G. Ancellet; B. Barret; A. Boynard; J. P. Burrows; C. Clerbaux; P. F. Coheur; J. Cuesta; E. Cuevas; S. Doniki; G. Dufour; F. Ebojie; G. Foret; O. Garcia; M. J. Granados-Muñoz; J. W. Hannigan; F. Hase; B. Hassler; G. Huang; D. Hurtmans; D. Jaffe; N. Jones; P. Kalabokas; B. Kerridge; S. Kulawik; B. Latter; T. Leblanc; E. Le Flochmoën; W. Lin; J. Liu; X. Liu; E. Mahieu; A. McClure-Begley; J. L. Neu; M. Osman; M. Palm; H. Petetin; I. Petropavlovskikh; R. Querel; N. Rahpoe; A. Rozanov; M. G. Schultz; J. Schwab; R. Siddans; D. Smale; M. Steinbacher; H. Tanimoto; D. W. Tarasick; V. Thouret; A. M. Thompson; T. Trickl; E. Weatherhead; C. Wespes; H. M. Worden; C. Vigouroux; X. Xu; G. Zeng; J. Ziemke

doi:10.1525/elementa.291

Tropospheric Ozone Assessment Report: Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation

A. Gaudel
, O. R. Cooper
, G. Ancellet
, B. Barret
, A. Boynard
, J. P. Burrows
, C. Clerbaux
, P. F. Coheur
, J. Cuesta
, E. Cuevas
, S. Doniki
, G. Dufour
, F. Ebojie
, G. Foret
, O. Garcia
, M. J. Granados-Muñoz
, J. W. Hannigan
, F. Hase
, B. Hassler
, G. Huang

D. Hurtmans, D. Jaffe, N. Jones, P. Kalabokas, B. Kerridge, S. Kulawik, B. Latter, T. Leblanc, E. Le Flochmoën, W. Lin, J. Liu, X. Liu, E. Mahieu, A. McClure-Begley, J. L. Neu, M. Osman, M. Palm, H. Petetin, I. Petropavlovskikh, R. Querel, N. Rahpoe, A. Rozanov, M. G. Schultz, J. Schwab, R. Siddans, D. Smale, M. Steinbacher, H. Tanimoto, D. W. Tarasick, V. Thouret, A. M. Thompson, T. Trickl, E. Weatherhead, C. Wespes, H. M. Worden, C. Vigouroux, X. Xu, G. Zeng, J. Ziemke

University of Colorado Boulder
National Oceanic and Atmospheric Administration
CNRS
Université de Toulouse
SPASCIA
University of Bremen
Université libre de Bruxelles
Laboratoire Interuniversitaire des Systèmes Atmosphériques (LISA) - UMR 7583
AEMET
Université du Littoral Côte-d'Opale
Izaña Atmospheric Research Centre (IARC)
Jet Propulsion Laboratory, California Institute of Technology
Polytechnic University of Catalonia
National Center for Atmospheric Research
Karlsruhe Institute of Technology
German Aerospace Center
University of Washington
University of Wollongong
Academy of Athens
STFC Rutherford Appleton Laboratory
BAER Institute
China Meteorological Administration
University of Toronto
Nanjing University
Harvard-Smithsonian Ctr. Astrophys.
University of Liege
University of Oklahoma
National Institute of Water & Atmospheric Research
Jülich Research Centre
SUNY Albany
Swiss Federal Laboratories for Materials Science and Technology (Empa)
National Institute for Environmental Studies of Japan
Environment and Climate Change Canada
NASA Goddard Space Flight Center
Royal Belgian Institute for Space Aeronomy
Morgan State University

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

398 Scopus citations

Abstract

The Tropospheric Ozone Assessment Report (TOAR) is an activity of the International Global Atmospheric Chemistry Project. This paper is a component of the report, focusing on the present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation. Utilizing the TOAR surface ozone database, several figures present the global distribution and trends of daytime average ozone at 2702 non-urban monitoring sites, highlighting the regions and seasons of the world with the greatest ozone levels. Similarly, ozonesonde and commercial aircraft observations reveal ozone's distribution throughout the depth of the free troposphere. Long-term surface observations are limited in their global spatial coverage, but data from remote locations indicate that ozone in the 21^st century is greater than during the 1970s and 1980s. While some remote sites and many sites in the heavily polluted regions of East Asia show ozone increases since 2000, many others show decreases and there is no clear global pattern for surface ozone changes since 2000. Two new satellite products provide detailed views of ozone in the lower troposphere across East Asia and Europe, revealing the full spatial extent of the spring and summer ozone enhancements across eastern China that cannot be assessed from limited surface observations. Sufficient data are now available (ozonesondes, satellite, aircraft) across the tropics from South America eastwards to the western Pacific Ocean, to indicate a likely tropospheric column ozone increase since the 1990s. The 2014-2016 mean tropospheric ozone burden (TOB) between 60°N-60°S from five satellite products is 300 Tg ± 4%. While this agreement is excellent, the products differ in their quantification of TOB trends and further work is required to reconcile the differences. Satellites can now estimate ozone's global long-wave radiative effect, but evaluation is difficult due to limited in situ observations where the radiative effect is greatest.

Original language	English
Article number	39
Journal	Elementa
Volume	6
DOIs	https://doi.org/10.1525/elementa.291
State	Published - 2018

Keywords

Global tropospheric ozone burden
Ground-level ozone
Ozone trends
Tropospheric composition and chemistry
Tropospheric ozone

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10.1525/elementa.291

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Gaudel, A., Cooper, O. R., Ancellet, G., Barret, B., Boynard, A., Burrows, J. P., Clerbaux, C., Coheur, P. F., Cuesta, J., Cuevas, E., Doniki, S., Dufour, G., Ebojie, F., Foret, G., Garcia, O., Granados-Muñoz, M. J., Hannigan, J. W., Hase, F., Hassler, B., ... Ziemke, J. (2018). Tropospheric Ozone Assessment Report: Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation. Elementa, 6, Article 39. https://doi.org/10.1525/elementa.291

@article{a94b949a9d97474fa6f5cac85edf156d,

title = "Tropospheric Ozone Assessment Report: Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation",

abstract = "The Tropospheric Ozone Assessment Report (TOAR) is an activity of the International Global Atmospheric Chemistry Project. This paper is a component of the report, focusing on the present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation. Utilizing the TOAR surface ozone database, several figures present the global distribution and trends of daytime average ozone at 2702 non-urban monitoring sites, highlighting the regions and seasons of the world with the greatest ozone levels. Similarly, ozonesonde and commercial aircraft observations reveal ozone's distribution throughout the depth of the free troposphere. Long-term surface observations are limited in their global spatial coverage, but data from remote locations indicate that ozone in the 21st century is greater than during the 1970s and 1980s. While some remote sites and many sites in the heavily polluted regions of East Asia show ozone increases since 2000, many others show decreases and there is no clear global pattern for surface ozone changes since 2000. Two new satellite products provide detailed views of ozone in the lower troposphere across East Asia and Europe, revealing the full spatial extent of the spring and summer ozone enhancements across eastern China that cannot be assessed from limited surface observations. Sufficient data are now available (ozonesondes, satellite, aircraft) across the tropics from South America eastwards to the western Pacific Ocean, to indicate a likely tropospheric column ozone increase since the 1990s. The 2014-2016 mean tropospheric ozone burden (TOB) between 60°N-60°S from five satellite products is 300 Tg ± 4\%. While this agreement is excellent, the products differ in their quantification of TOB trends and further work is required to reconcile the differences. Satellites can now estimate ozone's global long-wave radiative effect, but evaluation is difficult due to limited in situ observations where the radiative effect is greatest.",

keywords = "Global tropospheric ozone burden, Ground-level ozone, Ozone trends, Tropospheric composition and chemistry, Tropospheric ozone",

author = "A. Gaudel and Cooper, \{O. R.\} and G. Ancellet and B. Barret and A. Boynard and Burrows, \{J. P.\} and C. Clerbaux and Coheur, \{P. F.\} and J. Cuesta and E. Cuevas and S. Doniki and G. Dufour and F. Ebojie and G. Foret and O. Garcia and Granados-Mu{\~n}oz, \{M. J.\} and Hannigan, \{J. W.\} and F. Hase and B. Hassler and G. Huang and D. Hurtmans and D. Jaffe and N. Jones and P. Kalabokas and B. Kerridge and S. Kulawik and B. Latter and T. Leblanc and \{Le Flochmo{\"e}n\}, E. and W. Lin and J. Liu and X. Liu and E. Mahieu and A. McClure-Begley and Neu, \{J. L.\} and M. Osman and M. Palm and H. Petetin and I. Petropavlovskikh and R. Querel and N. Rahpoe and A. Rozanov and Schultz, \{M. G.\} and J. Schwab and R. Siddans and D. Smale and M. Steinbacher and H. Tanimoto and Tarasick, \{D. W.\} and V. Thouret and Thompson, \{A. M.\} and T. Trickl and E. Weatherhead and C. Wespes and Worden, \{H. M.\} and C. Vigouroux and X. Xu and G. Zeng and J. Ziemke",

note = "Publisher Copyright: {\textcopyright} 2018 The Author(s).",

year = "2018",

doi = "10.1525/elementa.291",

language = "English",

volume = "6",

journal = "Elementa",

issn = "2325-1026",

}

Gaudel, A, Cooper, OR, Ancellet, G, Barret, B, Boynard, A, Burrows, JP, Clerbaux, C, Coheur, PF, Cuesta, J, Cuevas, E, Doniki, S, Dufour, G, Ebojie, F, Foret, G, Garcia, O, Granados-Muñoz, MJ, Hannigan, JW, Hase, F, Hassler, B, Huang, G, Hurtmans, D, Jaffe, D, Jones, N, Kalabokas, P, Kerridge, B, Kulawik, S, Latter, B, Leblanc, T, Le Flochmoën, E, Lin, W, Liu, J, Liu, X, Mahieu, E, McClure-Begley, A, Neu, JL, Osman, M, Palm, M, Petetin, H, Petropavlovskikh, I, Querel, R, Rahpoe, N, Rozanov, A, Schultz, MG, Schwab, J, Siddans, R, Smale, D, Steinbacher, M, Tanimoto, H, Tarasick, DW, Thouret, V, Thompson, AM, Trickl, T, Weatherhead, E, Wespes, C, Worden, HM, Vigouroux, C, Xu, X, Zeng, G & Ziemke, J 2018, 'Tropospheric Ozone Assessment Report: Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation', Elementa, vol. 6, 39. https://doi.org/10.1525/elementa.291

TY - JOUR

T1 - Tropospheric Ozone Assessment Report

T2 - Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation

AU - Gaudel, A.

AU - Cooper, O. R.

AU - Ancellet, G.

AU - Barret, B.

AU - Boynard, A.

AU - Burrows, J. P.

AU - Clerbaux, C.

AU - Coheur, P. F.

AU - Cuesta, J.

AU - Cuevas, E.

AU - Doniki, S.

AU - Dufour, G.

AU - Ebojie, F.

AU - Foret, G.

AU - Garcia, O.

AU - Granados-Muñoz, M. J.

AU - Hannigan, J. W.

AU - Hase, F.

AU - Hassler, B.

AU - Huang, G.

AU - Hurtmans, D.

AU - Jaffe, D.

AU - Jones, N.

AU - Kalabokas, P.

AU - Kerridge, B.

AU - Kulawik, S.

AU - Latter, B.

AU - Leblanc, T.

AU - Le Flochmoën, E.

AU - Lin, W.

AU - Liu, J.

AU - Liu, X.

AU - Mahieu, E.

AU - McClure-Begley, A.

AU - Neu, J. L.

AU - Osman, M.

AU - Palm, M.

AU - Petetin, H.

AU - Petropavlovskikh, I.

AU - Querel, R.

AU - Rahpoe, N.

AU - Rozanov, A.

AU - Schultz, M. G.

AU - Schwab, J.

AU - Siddans, R.

AU - Smale, D.

AU - Steinbacher, M.

AU - Tanimoto, H.

AU - Tarasick, D. W.

AU - Thouret, V.

AU - Thompson, A. M.

AU - Trickl, T.

AU - Weatherhead, E.

AU - Wespes, C.

AU - Worden, H. M.

AU - Vigouroux, C.

AU - Xu, X.

AU - Zeng, G.

AU - Ziemke, J.

PY - 2018

Y1 - 2018

N2 - The Tropospheric Ozone Assessment Report (TOAR) is an activity of the International Global Atmospheric Chemistry Project. This paper is a component of the report, focusing on the present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation. Utilizing the TOAR surface ozone database, several figures present the global distribution and trends of daytime average ozone at 2702 non-urban monitoring sites, highlighting the regions and seasons of the world with the greatest ozone levels. Similarly, ozonesonde and commercial aircraft observations reveal ozone's distribution throughout the depth of the free troposphere. Long-term surface observations are limited in their global spatial coverage, but data from remote locations indicate that ozone in the 21st century is greater than during the 1970s and 1980s. While some remote sites and many sites in the heavily polluted regions of East Asia show ozone increases since 2000, many others show decreases and there is no clear global pattern for surface ozone changes since 2000. Two new satellite products provide detailed views of ozone in the lower troposphere across East Asia and Europe, revealing the full spatial extent of the spring and summer ozone enhancements across eastern China that cannot be assessed from limited surface observations. Sufficient data are now available (ozonesondes, satellite, aircraft) across the tropics from South America eastwards to the western Pacific Ocean, to indicate a likely tropospheric column ozone increase since the 1990s. The 2014-2016 mean tropospheric ozone burden (TOB) between 60°N-60°S from five satellite products is 300 Tg ± 4%. While this agreement is excellent, the products differ in their quantification of TOB trends and further work is required to reconcile the differences. Satellites can now estimate ozone's global long-wave radiative effect, but evaluation is difficult due to limited in situ observations where the radiative effect is greatest.

AB - The Tropospheric Ozone Assessment Report (TOAR) is an activity of the International Global Atmospheric Chemistry Project. This paper is a component of the report, focusing on the present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation. Utilizing the TOAR surface ozone database, several figures present the global distribution and trends of daytime average ozone at 2702 non-urban monitoring sites, highlighting the regions and seasons of the world with the greatest ozone levels. Similarly, ozonesonde and commercial aircraft observations reveal ozone's distribution throughout the depth of the free troposphere. Long-term surface observations are limited in their global spatial coverage, but data from remote locations indicate that ozone in the 21st century is greater than during the 1970s and 1980s. While some remote sites and many sites in the heavily polluted regions of East Asia show ozone increases since 2000, many others show decreases and there is no clear global pattern for surface ozone changes since 2000. Two new satellite products provide detailed views of ozone in the lower troposphere across East Asia and Europe, revealing the full spatial extent of the spring and summer ozone enhancements across eastern China that cannot be assessed from limited surface observations. Sufficient data are now available (ozonesondes, satellite, aircraft) across the tropics from South America eastwards to the western Pacific Ocean, to indicate a likely tropospheric column ozone increase since the 1990s. The 2014-2016 mean tropospheric ozone burden (TOB) between 60°N-60°S from five satellite products is 300 Tg ± 4%. While this agreement is excellent, the products differ in their quantification of TOB trends and further work is required to reconcile the differences. Satellites can now estimate ozone's global long-wave radiative effect, but evaluation is difficult due to limited in situ observations where the radiative effect is greatest.

KW - Global tropospheric ozone burden

KW - Ground-level ozone

KW - Ozone trends

KW - Tropospheric composition and chemistry

KW - Tropospheric ozone

UR - https://www.scopus.com/pages/publications/85053711818

U2 - 10.1525/elementa.291

DO - 10.1525/elementa.291

M3 - Article

AN - SCOPUS:85053711818

SN - 2325-1026

VL - 6

JO - Elementa

JF - Elementa

M1 - 39

ER -

Tropospheric Ozone Assessment Report: Present-day distribution and trends of tropospheric ozone relevant to climate and global atmospheric chemistry model evaluation

Abstract

Keywords

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