Shipborne measurements of methane and carbon dioxide in the Middle East and Mediterranean areas and the contribution from oil and gas emissions
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Published:2021-08-19
Issue:16
Volume:21
Page:12443-12462
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ISSN:1680-7324
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Container-title:Atmospheric Chemistry and Physics
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language:en
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Short-container-title:Atmos. Chem. Phys.
Author:
Paris Jean-DanielORCID, Riandet Aurélie, Bourtsoukidis EfstratiosORCID, Delmotte Marc, Berchet AntoineORCID, Williams Jonathan, Ernle LisaORCID, Tadic IvanORCID, Harder HartwigORCID, Lelieveld JosORCID
Abstract
Abstract. The increase of atmospheric methane (CH4) and carbon
dioxide (CO2), two of the main anthropogenic greenhouse gases, is largely
driven by fossil sources. Sources and sinks remain insufficiently
characterized in the Mediterranean and Middle East areas, where very few in
situ measurements are available. We measured the atmospheric mixing ratios
of CH4 and CO2 by ship in the region in July and August 2017. High mixing ratios were observed over the Suez Canal, Red Sea and Arabian Gulf, while generally lower mixing ratios were observed over the Gulf of Aden and Gulf of
Oman. We probe the origin of the CO2 and CH4 excess mixing ratio by
using correlations with light alkanes and through the use of a Lagrangian
model coupled to two different emission inventories of anthropogenic
sources. We find that the CO2 and especially the CH4 enhancements
are mainly linked to nearby oil and gas (OG) activities over the Arabian Gulf and a mixture of other sources over the Red Sea. The isomeric ratio of
pentane is shown to be a useful indicator of the OG component of
atmospheric CH4 at the regional level. Upstream emissions linked to
oil in the northern Arabian Gulf seem to be underestimated, while gas-related
emissions in the southern Gulf are overestimated in our simulations. Our
results highlight the need for improvement of inventories in the area to
better characterize the changes in magnitude and the complex distribution of the OG sources in the Middle East.
Publisher
Copernicus GmbH
Subject
Atmospheric Science
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