Author
Listed:
- Zhao-Cheng Zeng
(California Institute of Technology)
- Thomas Pongetti
(California Institute of Technology)
- Sally Newman
(California Institute of Technology
Bay Area Air Quality Management District)
- Tomohiro Oda
(Universities Space Research Association (USRA)
University of Maryland
Osaka University)
- Kevin Gurney
(Northern Arizona University)
- Paul I. Palmer
(University of Edinburgh)
- Yuk L. Yung
(California Institute of Technology
California Institute of Technology)
- Stanley P. Sander
(California Institute of Technology
California Institute of Technology)
Abstract
Methane, a powerful greenhouse gas, has a short atmospheric lifetime ( ~ 12 years), so that emissions reductions will have a rapid impact on climate forcing. In megacities such as Los Angeles (LA), natural gas (NG) leakage is the primary atmospheric methane source. The magnitudes and trends of fugitive NG emissions are largely unknown and need to be quantified to verify compliance with emission reduction targets. Here we use atmospheric remote sensing data to show that, in contrast to the observed global increase in methane emissions, LA area emissions decreased during 2011-2020 at a mean rate of (–1.57 ± 0.41) %/yr. However, the NG utility calculations indicate a much larger negative emissions trend of −5.8 %/yr. The large difference between top-down and bottom-up trends reflects the uncertainties in estimating the achieved emissions reductions. Actions taken in LA can be a blueprint for COP28 and future efforts to reduce methane emissions.
Suggested Citation
Zhao-Cheng Zeng & Thomas Pongetti & Sally Newman & Tomohiro Oda & Kevin Gurney & Paul I. Palmer & Yuk L. Yung & Stanley P. Sander, 2023.
"Decadal decrease in Los Angeles methane emissions is much smaller than bottom-up estimates,"
Nature Communications, Nature, vol. 14(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40964-w
DOI: 10.1038/s41467-023-40964-w
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