Observational ozone datasets over the global oceans and polar regions (version 2024)

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dc.contributor.authorKanaya, Yugo
dc.contributor.authorSommariva, Roberto
dc.contributor.authorSaiz-Lopez, Alfonso
dc.contributor.authorMazzeo, Andrea
dc.contributor.authorKoenig, Theodore K.
dc.contributor.authorKawana, Kaori
dc.contributor.authorJohnson, James E.
dc.contributor.authorColomb, Aurélie
dc.contributor.authorTulet, Pierre
dc.contributor.authorMolloy, Suzie
dc.contributor.authorGalbally, Ian E.
dc.contributor.authorVolkamer, Rainer
dc.contributor.authorMahajan, Anoop
dc.contributor.authorHalfacre, John W.
dc.contributor.authorShepson, Paul B.
dc.contributor.authorSchmale, Julia
dc.contributor.authorAngot, Hélène
dc.contributor.authorBlomquist, Byron
dc.contributor.authorShupe, Matthew D.
dc.contributor.authorHelmig, Detlev
dc.contributor.authorGil, Junsu
dc.contributor.authorLee, Meehye
dc.contributor.authorCoburn, Sean C.
dc.contributor.authorOrtega, Ivan
dc.contributor.authorChen, Gao
dc.contributor.authorLee, James
dc.contributor.authorAikin, Kenneth C.
dc.contributor.authorParrish, David D.
dc.contributor.authorHolloway, John S.
dc.contributor.authorRyerson, Thomas B.
dc.contributor.authorPollack, Ilana B.
dc.contributor.authorWilliams, Eric J.
dc.contributor.authorLerner, Brian M.
dc.contributor.authorWeinheimer, Andrew J.
dc.contributor.authorCampos, Teresa
dc.contributor.authorFlocke, Frank M.
dc.contributor.authorSpackman, J. Ryan
dc.contributor.authorBourgeois, Ilann
dc.contributor.authorPeischl, Jeff
dc.contributor.authorThompson, Chelsea R.
dc.contributor.authorStaebler, Ralf M.
dc.contributor.authorAliabadi, Amir A.
dc.contributor.authorGong, Wanmin
dc.contributor.authorVan Malderen, Roeland
dc.contributor.authorThompson, Anne M.
dc.contributor.authorStauffer, Ryan M.
dc.contributor.authorKollonige, Debra E.
dc.contributor.authorGómez Martin, Juan Carlos
dc.contributor.authorFujiwara, Masatomo
dc.contributor.authorRead, Katie
dc.contributor.authorRowlinson, Matthew
dc.contributor.authorSato, Keiichi
dc.contributor.authorKurokawa, Junichi
dc.contributor.authorIwamoto, Yoko
dc.contributor.authorTaketani, Fumikazu
dc.contributor.authorTakashima, Hisahiro
dc.contributor.authorNavarro-Comas, Mónica
dc.contributor.authorPanagi, Marios
dc.contributor.authorSchultz, Martin G.
dc.date.accessioned2026-01-06T20:51:41Z
dc.date.issued2025-09-26
dc.description.abstractStudying tropospheric ozone over the remote areas of the planet, such as the open oceans and the polar regions, is crucial to understand the role of ozone as a global climate forcer and regulator of atmospheric oxidative capacity. A focus on the pristine oceanic and polar regions complements the available land-based datasets and provides insights into key photochemical and depositional loss processes that control the concentrations and spatiotemporal variability in ozone as well as the physicochemical mechanisms driving these patterns. However, an assessment of the role of ozone over the oceanic and polar regions has been hampered by a lack of comprehensive observational datasets. Here, we present the first comprehensive collection of ozone data over the oceans and the polar regions. The overall dataset consists of 77 ship cruises/buoy-based observations and 48 aircraft-based campaigns. The dataset, consisting of more than 630 000 independent ozone measurement data points covering the period from 1977 to 2022 and an altitude range from the surface to 5000 m (with a focus on the lowest 2000 m), allows systematic analyses of the spatiotemporal distribution and long-term trends over the 11 defined ocean/polar regions. The datasets from ships, buoys, and aircraft are complemented by ozonesonde data from 29 launch sites or field campaigns and by 21 non-polar and 17 polar ground-based station datasets. The datasets contain information on how long the observed air masses were isolated from land, as estimated by backward trajectories from the individual observation points. To extract observations representative of oceanic conditions, we recommend using a subset of the data with an isolation time of 72 h or longer, from the analysis with coincident radon observations. These filtered oceanic and polar data showed typically flat diurnal cycles at high latitudes, whereas daytime decreases in ozone (11 %–16 %) were observed at lower latitudes. The ship/buoy- and aircraft-based datasets presented here will supplement the land-based ones in the TOAR-II (Tropospheric Ozone Assessment Report Phase II) database to provide a fully global assessment of tropospheric ozone. The described dataset is available at https://doi.org/10.17596/0004044 (Kanaya et al., 2025).
dc.description.sponsorshipThis research has been supported by the Swiss Polar Institute (grant no. DIRCR-2018-004). Data collection was carried out as part of the international Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition with the tag MOSAiC20192020, with activities supported by the Polarstern expedition AWI_PS122_00. The observations during the MOSAiC expedition were funded by the US National Science Foundation (grant nos. OPP 1807496, 1914781, and 1807163), the Swiss National Science Foundation (grant no. 200021_188478), the Swiss Polar Institute (grant no. DIRCR2018-004), the Department of Energy Atmospheric System Research Program (grant no. DE-SC0019251), and the US National Oceanic and Atmospheric Administration (NOAA) Physical Sciences Laboratory. A subset of data were provided by the Atmospheric Radiation Measurement (ARM) user facility, a US Department of Energy Office of Science user facility managed by the Biological and Environmental Research program. Julia Schmale holds the Ingvar Kamprad chair for extreme environments research, sponsored by Ferring Pharmaceuticals. Matthew D. Shupe was supported by the DOE (grant no. DE-SC0021341) and NOAA cooperative agreement no. NA22OAR4320151. Ilana B. Pollack, Jeff Peischl, Chelsea R. Thompson, Ilann Bourgeois, and Brian M. Lerner were supported in part by NOAA cooperative agreement nos. NA17OAR4320101 and NA22OAR4320151. Detlev Helmig received funding from the US National Science Foundation, Interdisciplinary Biocomplexity in the Environment Program (project no. BE-IDEA 0410058), and from a grant from NOAA’s Climate and Global Change Program (grant no. NA07OAR4310168). The TORERO (Tropical Ocean tRoposphere Exchange of Reactive halogen species and Oxygenated VOC) and CONTRAST (CONvective TRansport of Active Species in the Tropics) projects were funded by the National Science Foundation (grant nos. AGS-1104104 and AGS-1261740). The involvement of the NSF-sponsored Lower Atmospheric Observing Facilities, managed and operated by the National Center for Atmospheric Research (NCAR) Earth Observing Laboratory (EOL) is acknowledged. This study was supported by the KAKENHI (grant no. 21H04933), the ArCS (Arctic Challenge for Sustainability; grant no. JPMXD1300000000) and ArCS II (grant no. JPMXD1420318865) of the Ministry of Education, Culture, Sports, Science, and Technology of Japan, the Specified Critical Technologies Research Promotion Grants from the Cabinet Office, Government of Japan, and by the Environmental Research and Technology Development Fund (ERTDF) from the Ministry of the Environment, Japan (grant nos. JPMEERF20252001 and JPMEERF24S12200). The O-buoy studies were supported by NSF award numbers 0612457, 1023118, 1023393, 1022834, and 1022773. Marios Panayi received support from the EMME-CARE project, funded by the European Union’s Horizon 2020 Research and Innovation program (grant agreement no. 856612, with cofunding from the Government of Cyprus), and to the EU project AVENGERS (grant agreement no. 101081322). Data from Belgrano station has been partially funded by INTA and the Spanish Science Agency within the framework of the project GARDENIA (“Gases and aerosols in Antarctica: distribution, context and variability”, PID2021-122737NB-I00) and other former projects.
dc.description.urihttps://essd.copernicus.org/articles/17/4901/2025/
dc.format.extent32 pages
dc.genrejournal articles
dc.identifierdoi:10.13016/m2l30n-47yy
dc.identifier.citationKanaya, Yugo, Roberto Sommariva, Alfonso Saiz-Lopez, et al. “Observational Ozone Datasets over the Global Oceans and Polar Regions (Version 2024).” Earth System Science Data 17, no. 9 (2025): 4901–32. https://doi.org/10.5194/essd-17-4901-2025.
dc.identifier.urihttps://doi.org/10.5194/essd-17-4901-2025
dc.identifier.urihttp://hdl.handle.net/11603/41350
dc.language.isoen
dc.publisherCopernicus
dc.relation.isAvailableAtThe University of Maryland, Baltimore County (UMBC)
dc.relation.ispartofUMBC GESTAR II
dc.relation.ispartofUMBC Faculty Collection
dc.rightsThis work was written as part of one of the author's official duties as an Employee of the United States Government and is therefore a work of the United States Government. In accordance with 17 U.S.C. 105, no copyright protection is available for such works under U.S. Law.
dc.rightsPublic Domain
dc.rights.urihttps://creativecommons.org/publicdomain/mark/1.0/
dc.titleObservational ozone datasets over the global oceans and polar regions (version 2024)
dc.typeText
dcterms.creatorhttps://orcid.org/0000-0002-7829-0920

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