Satellite quantification of oil and natural gas methane emissions in the US and Canada including contributions from individual basins
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Published:2022-09-02
Issue:17
Volume:22
Page:11203-11215
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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:
Shen Lu, Gautam Ritesh, Omara Mark, Zavala-Araiza DanielORCID, Maasakkers Joannes D.ORCID, Scarpelli Tia R.ORCID, Lorente Alba, Lyon DavidORCID, Sheng JianxiongORCID, Varon Daniel J.ORCID, Nesser HannahORCID, Qu ZhenORCID, Lu XiaoORCID, Sulprizio Melissa P., Hamburg Steven P., Jacob Daniel J.
Abstract
Abstract. We use satellite methane observations from the
Tropospheric Monitoring Instrument (TROPOMI), for May 2018 to February 2020,
to quantify methane emissions from individual oil and natural gas (O/G)
basins in the US and Canada using a high-resolution (∼25 km)
atmospheric inverse analysis. Our satellite-derived emission estimates show
good consistency with in situ field measurements (R=0.96) in 14 O/G basins distributed across the US and Canada. Aggregating our results to the
national scale, we obtain O/G-related methane emission estimates of
12.6±2.1 Tg a−1 for the US and 2.2±0.6 Tg a−1 for
Canada, 80 % and 40 %, respectively, higher than the national inventories reported to the United Nations. About 70 % of the discrepancy in the US Environmental
Protection Agency (EPA) inventory can be attributed to five O/G basins, the Permian, Haynesville, Anadarko, Eagle Ford, and Barnett basins, which in total account for 40 % of US emissions. We show more generally that our TROPOMI inversion framework can
quantify methane emissions exceeding 0.2–0.5 Tg a−1 from individual O/G
basins, thus providing an effective tool for monitoring methane emissions
from large O/G basins globally.
Publisher
Copernicus GmbH
Subject
Atmospheric Science
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