First retrieval of 24-hourly 1-km-resolution gapless surface ozone (O3) from space in China using artificial intelligence: Diurnal variations and implications for air quality and phytotoxicity [* Cross-Reference *]

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Cheng, Fan; Li, Zhanqing; Yang, Zeyu; Li, Ruohan; Wang, Dongdong; Jia, Aolin; Li, Ke; Zhao, Bin; Wang, Shuxiao; Yin, Dejia; Li, Shengyue; Xue, Wenhao; Cribb, Maureen; Wei, Jing, 2025, "First retrieval of 24-hourly 1-km-resolution gapless surface ozone (O3) from space in China using artificial intelligence: Diurnal variations and implications for air quality and phytotoxicity [* Cross-Reference *]", https://lore.list.lu/citation?persistentId=perma:LIST.48FZPY, LIST Open Repository, V1

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Description	Surface ozone (O3) is a critical ambient pollutant that poses significant risks to both human health and ecosystems. However, there is a scarcity of high-spatial-resolution hourly surface O3 data, which is crucial for understanding its diurnal variations. In this study, we employed a best-performing spatiotemporal artificial intelligence (AI) model to estimate 24-hourly 1-km-resolution surface O3 concentrations across China, incorporating key photochemical processes responsible for O3 formation. Our model effectively captured diurnal O3 patterns, achieving average sample-based cross-validated coefficients of determination (root-mean-square errors) of 0.89 (16.35 μg/m3) for the full day (00:00–23:00 LT), 0.92 (15.72 μg/m3) during daytime (08:00–20:00 LT), and 0.82 (16.97 μg/m3) at nighttime (20:00–08:00 LT). Typically, surface O3 levels increase after sunrise, peak around 15:00 LT, and decrease overnight, with a diurnal variation magnitude of 62 % relative to the mean level. During the daytime, we found that solar radiation (in the ultraviolet and shortwave spectra) and surface temperature explained over 42 % of the diurnal variation, while nighttime O3 levels were mainly influenced by tropospheric nitrogen dioxide (16 %), temperature (13 %), and relative humidity (12 %). In 2019, approximately 61 %, 98 %, and 100 % of populated areas in China experienced O3 exposure risks for at least one day, with maximum daily 8-h average (MDA8) O3 levels exceeding 160, 120, and 100 μg/m3, respectively. Additionally, around 70 %, 82 %, and 100 % of vegetated areas exceeded the three minimum critical thresholds for cumulative hourly O₃ exposure, as indicated by the SUM06, W126, and AOT40 indices, respectively. Notably, gross primary productivity (GPP) was the most sensitive indicator of O3 pollution across various vegetation types, showing a strong negative correlation with AOT0 (R = −0.43 to −0.59, p < 0.001). (2025-01-01) *This publication has been automatically imported via Elsevier by LIST harvest scripts. Please refer to https://doi.org/10.1016/j.rse.2024.114482 * (2025-05-06)
Subject	Earth and Environmental Sciences
Keyword	(explainable) artificial intelligence, air quality, Diurnal O variations 3, SHAP, Vegetation phytotoxicity
License/Data Use Agreement	Custom Dataset Terms


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Persistent Identifier	perma:LIST.48FZPY
Publication Date	2025-09-26
Title	First retrieval of 24-hourly 1-km-resolution gapless surface ozone (O3) from space in China using artificial intelligence: Diurnal variations and implications for air quality and phytotoxicity [* Cross-Reference *]
Other Identifier	https://doi.org/10.1016/j.rse.2024.114482
Author	Cheng, Fan (Beijing Normal University) Li, Zhanqing (College of Computer, Mathematical, & Natural Sciences) Yang, Zeyu (Beijing Normal University) Li, Ruohan (University of Maryland, College Park) Wang, Dongdong (University of Maryland, College Park) Jia, Aolin (Luxembourg Institute of Science and Technology) Li, Ke (Nanjing University of Information Science & Technology) Zhao, Bin (State Key Joint Laboratory of Environmental Simulation and Pollution Control) Wang, Shuxiao (State Key Joint Laboratory of Environmental Simulation and Pollution Control) Yin, Dejia (State Key Joint Laboratory of Environmental Simulation and Pollution Control) Li, Shengyue (State Key Joint Laboratory of Environmental Simulation and Pollution Control) Xue, Wenhao (Qingdao University) Cribb, Maureen (College of Computer, Mathematical, & Natural Sciences) Wei, Jing (College of Computer, Mathematical, & Natural Sciences)
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Description	Surface ozone (O3) is a critical ambient pollutant that poses significant risks to both human health and ecosystems. However, there is a scarcity of high-spatial-resolution hourly surface O3 data, which is crucial for understanding its diurnal variations. In this study, we employed a best-performing spatiotemporal artificial intelligence (AI) model to estimate 24-hourly 1-km-resolution surface O3 concentrations across China, incorporating key photochemical processes responsible for O3 formation. Our model effectively captured diurnal O3 patterns, achieving average sample-based cross-validated coefficients of determination (root-mean-square errors) of 0.89 (16.35 μg/m3) for the full day (00:00–23:00 LT), 0.92 (15.72 μg/m3) during daytime (08:00–20:00 LT), and 0.82 (16.97 μg/m3) at nighttime (20:00–08:00 LT). Typically, surface O3 levels increase after sunrise, peak around 15:00 LT, and decrease overnight, with a diurnal variation magnitude of 62 % relative to the mean level. During the daytime, we found that solar radiation (in the ultraviolet and shortwave spectra) and surface temperature explained over 42 % of the diurnal variation, while nighttime O3 levels were mainly influenced by tropospheric nitrogen dioxide (16 %), temperature (13 %), and relative humidity (12 %). In 2019, approximately 61 %, 98 %, and 100 % of populated areas in China experienced O3 exposure risks for at least one day, with maximum daily 8-h average (MDA8) O3 levels exceeding 160, 120, and 100 μg/m3, respectively. Additionally, around 70 %, 82 %, and 100 % of vegetated areas exceeded the three minimum critical thresholds for cumulative hourly O₃ exposure, as indicated by the SUM06, W126, and AOT40 indices, respectively. Notably, gross primary productivity (GPP) was the most sensitive indicator of O3 pollution across various vegetation types, showing a strong negative correlation with AOT0 (R = −0.43 to −0.59, p < 0.001). (2025-01-01) *This publication has been automatically imported via Elsevier by LIST harvest scripts. Please refer to https://doi.org/10.1016/j.rse.2024.114482 * (2025-05-06)
Subject	Earth and Environmental Sciences
Keyword	(explainable) artificial intelligence air quality Diurnal O variations 3 SHAP Vegetation phytotoxicity
Funding Information	Samsung Advanced Institute of Technology: 42030606
Data Type	Article

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