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Enhanced monitoring of atmospheric methane from space over the Permian basin with hierarchical Bayesian inference

Published version
Peer-reviewed

Type

Article

Change log

Authors

Jones, Matthew 
Ijzermans, Rutger 

Abstract

Methane is a strong greenhouse gas, with a higher radiative forcing per unit mass and shorter atmospheric lifetime than carbon dioxide. The remote sensing of methane in regions of industrial activity is a key step toward the accurate monitoring of emissions that drive climate change. Whilst the TROPOspheric Monitoring Instrument (TROPOMI) on board the Sentinal-5P satellite is capable of providing daily global measurement of methane columns, data are often compromised by cloud cover. Here, we develop a statistical model which uses nitrogen dioxide concentration data from TROPOMI to efficiently predict values of methane columns, expanding the average daily spatial coverage of observations of the Permian basin from 16% to 88% in the year 2019. The addition of predicted methane abundances at locations where direct observations are not available will support inversion methods for estimating methane emission rates at shorter timescales than is currently possible.

Description

Keywords

physics.ao-ph, physics.ao-ph, physics.geo-ph, stat.AP

Journal Title

Environmental Research Letters

Conference Name

Journal ISSN

1748-9326
1748-9326

Volume Title

Publisher

IOP Publishing