Data from: Geographic sources of ozone air pollution and mortality burden in Europe

This dataset contains all the maximum daily 8-hour mean O3 concentrations (MDA8 O3) presented in the paper entitled " Geographic sources of ozone air pollution and mortality burden in Europe". In this paper, the CMAQv5.0.2-ISAM was run to calculate the MDA8 O3 concentrations by country for...

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Bibliographic Details
Main Authors: Achebak, Hicham, Garatachea, Roger, Pay, María Teresa, Jorba, Oriol, Guevara, Marc, García-Pando, Carlos Pérez, Ballester, Joan
Other Authors: Garatachea, ROGER
Format: Other/Unknown Material
Language:English
Published: Zenodo 2024
Subjects:
Iceland
Online Access:https://doi.org/10.5281/zenodo.10606147
Description
Summary:This dataset contains all the maximum daily 8-hour mean O3 concentrations (MDA8 O3) presented in the paper entitled " Geographic sources of ozone air pollution and mortality burden in Europe". In this paper, the CMAQv5.0.2-ISAM was run to calculate the MDA8 O3 concentrations by country for the weeks 18-39 from 2015 to 2017 (approximately corresponding months from May to September). Within each tar file, you'll find the daily MDA8 O3 concentrations, presenting the contributions from 35 individual countries, contributions from seas and oceans (SEA), contributions from neighboring countries within the simulation domain (NOEU35), and contributions from the boundaries of the simulation domain (BCON) for each respective year. Each netcdf file follows the nomenclature "sconco3_Countrycode_Day.nc" , where day "1" corresponds to the first day of the week 18 of each year and the country codes are: Albania (AL), Austria (AT), Belgium (BE), Bulgaria (BG), Switzerland (CH), Cyprus (CY), Czechia (CZ), Germany (DE), Denmark (DK), Estonia (EE), Greece (EL), Spain (ES), Finland (FI), France (FR), Croatia (HR), Hungary (HU), Ireland (IE), Iceland (IS), Italy (IT), Liechtenstein (LI), Lithuania (LT), Luxembourg (LU), Latvia (LV), Montenegro (ME), Malta (MT), Netherlands (NL), Norway (NO), Poland (PL), Portugal (PT), Romania (RO), Serbia (RS), Sweden (SE), Slovenia (SI), Slovakia (SK), United Kingdom (UK). Acknowledgments BSC co-authors acknowledge support Ministerio para la Transición Ecológica y el Reto Demográfico (MITECO) as part of the Plan Nacional del Ozono project (BOE-A-2021-20183), as well as through the VITALISE project (PID2019-108086RA-I00, MCIN/AEI/10.13039/501100011033) funded by the Agencia Estatal de Investigacion (AEI). We also acknowledge the AXA Research Fund and Red Temática ACTRIS España (CGL2017-90884-REDT), and H2020 ACTRIS IMP (No 871115), the Department of Research and Universities of the Government of Catalonia through the Atmospheric Composition Research Group (code 2021 SGR 01550).

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