SO2 Emission Estimates Using OMI SO2 Retrievals for 2005–2017

Autor:	Changsub Shim, Zhen Qu, Wei Wang, Nicolas Theys, Russell R. Dickerson, Xinrong Ren, Daven K. Henze, Jun Wang, Yi Wang, Can Li, Jihyun Han
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	Atmospheric Science Pollution: Urban Regional and Global Megacities and Urban Environment Atmospheric Composition and Structure inverse modeling Atmospheric sciences Biogeosciences satellite observation Latitude top‐down SO2 emission Data assimilation Earth and Planetary Sciences (miscellaneous) medicine Air quality index data assimilation Zenith Research Articles Ozone Monitoring Instrument Marine Pollution Inversion (meteorology) Composition and Chemistry Seasonality Aerosols and Particles medicine.disease Oceanography: General Geophysics Pollution: Urban and Regional Space and Planetary Science 4D‐Var Environmental science Spatial variability Troposphere: Composition and Chemistry Troposphere: Constituent Transport and Chemistry Natural Hazards mass balance Research Article
Zdroj:	Journal of Geophysical Research. Atmospheres
ISSN:	2169-8996 2169-897X
Popis:	SO2 column densities from Ozone Monitoring Instrument provide important information on emission trends and missing sources, but there are discrepancies between different retrieval products. We employ three Ozone Monitoring Instrument SO2 retrieval products (National Aeronautics and Space Administration (NASA) standard (SP), NASA prototype, and BIRA) to study the magnitude and trend of SO2 emissions. SO2 column densities from these retrievals are most consistent when viewing angles and solar zenith angles are small, suggesting more robust emission estimates in summer and at low latitudes. We then apply a hybrid 4D‐Var/mass balance emission inversion to derive monthly SO2 emissions from the NASA SP and BIRA products. Compared to HTAPv2 emissions in 2010, both posterior emission estimates are lower in United States, India, and Southeast China, but show different changes of emissions in North China Plain. The discrepancies between monthly NASA and BIRA posterior emissions in 2010 are less than or equal to 17% in China and 34% in India. SO2 emissions increase from 2005 to 2016 by 35% (NASA)–48% (BIRA) in India, but decrease in China by 23% (NASA)–33% (BIRA) since 2008. Compared to in situ measurements, the posterior GEOS‐Chem surface SO2 concentrations have reduced NMB in China, the United States, and India but not in South Korea in 2010. BIRA posteriors have better consistency with the annual growth rate of surface SO2 measurement in China and spatial variability of SO2 concentration in China, South Korea, and India, whereas NASA SP posteriors have better seasonality. These evaluations demonstrate the capability to recover SO2 emissions using Ozone Monitoring Instrument observations. Key Points SO2 retrievals are most consistent when VZA and SZA are small; treatment of cloud and radiative transfer can cause differences up to 4 DUTop‐down SO2 emissions are more robust between NASA and BIRA retrievals in China and India where SO2 concentrations are highSO2 emissions continuously increase in India from 2005 to 2017 but start to decrease in China from 2008
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::168a7b556369abe7be3fba7d07fd3afd http://europepmc.org/articles/PMC6853235 Zobrazit plný text záznamu Plný text