Global atmospheric methanol emissions inferred  from IASI satellite measurements and aircraft data

Müller, Jean-François; Stavrakou, Trissevgeni; Franco, Bruno; Clarisse, Lieven; Amelynck, Crist; Schoon, Niels; Verreyken, Bert W. D.; Opacka, Beata; Vigouroux, Corinne; Guenther, Alex B.; Mahieu, Emmanuel; Makarova, Maria; Strong, Kimberly

doi:10.5194/acp-26-5375-2026

Articles | Volume 26, issue 8

https://doi.org/10.5194/acp-26-5375-2026

© Author(s) 2026. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-26-5375-2026

© Author(s) 2026. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 26, issue 8

Research article

|

22 Apr 2026

Research article |

| 22 Apr 2026

Global atmospheric methanol emissions inferred from IASI satellite measurements and aircraft data

Jean-François Müller, Trissevgeni Stavrakou, Bruno Franco, Lieven Clarisse, Crist Amelynck, Niels Schoon, Bert W. D. Verreyken, Beata Opacka, Corinne Vigouroux, Alex B. Guenther, Emmanuel Mahieu, Maria Makarova, and Kimberly Strong

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Final revised paper (published on 22 Apr 2026)
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Preprint (discussion started on 03 Feb 2026)
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Interactive discussion

Status: closed

RC1:
'Comment on egusphere-2026-253', Anonymous Referee #1, 03 Mar 2026

The comment was uploaded in the form of a supplement: https://egusphere.copernicus.org/preprints/2026/egusphere-2026-253/egusphere-2026-253-RC1-supplement.pdf

Citation: https://doi.org/10.5194/egusphere-2026-253-RC1
- AC1: 'Reply on RC1', Jean-François Muller, 10 Apr 2026
  
  The comment was uploaded in the form of a supplement: https://egusphere.copernicus.org/preprints/2026/egusphere-2026-253/egusphere-2026-253-AC1-supplement.pdf
  
  Citation: https://doi.org/10.5194/egusphere-2026-253-AC1
RC2:
'Comment on egusphere-2026-253', Anonymous Referee #2, 07 Apr 2026

The manuscript egusphere-2026-253 by Müller and colleagues presents a very nice work on the global methanol budget.

They have used IASI satellite data to invert the a-priori emissions with the support of the MAGRITTE model.

Importantly, they have bias-corrected the IASI data, which appear to be largely underestimated. Using the corrected data for inverse modelling gives an updated methanol budget, which is however mostly in line with recent literature (e.g. Bates et al., 2021), but with some significant changes (e.g. larger biogenic emissions).
I very much appreciate the completeness of the work, as well as the writing style, which helps the reader through this nice study. I have only a few comments on the manuscript, and I hope these may help the authors to improve an already excellent manuscript.
Section 2.5.2: While secondary production accounts for ~15--30% of the total emissions, I wonder how accurate this estimate may be. Nicely, a brief discussion is presented in lines 554--556, showing that changing the overall yield of CH3O2+OH (from 11.4% to 13%) does not change the results. However, it is stated (line 240) that many other uncertainties are present in the chemical production.

Would the consideration of these uncertainties considerably change any of the results obtained in the inversion? Additionally, I wonder how well RO2 is represented in the MAGRITTE model. I assume that most of it is coming from the oxidation of CH4, and therefore I would appreciate some additional discussion on the simulation of the OH fields in the model.
Section 3: It is very interesting to note that the MAGRITTE model inversion is able to reproduce the observations in an exceptional way. Furthermore, I appreciate the investigation of the possible bias present in the IASIv4 data, which I consider the real main strength of this manuscript. However, I wonder if the authors could elaborate on the risk of using only an observational dataset over North America. Is this region really representative of the IASI bias? Based on the work of Bates et al. (2021), North America is mostly influenced by biogenic emissions, while biomass burning as well as chemical formation are comparatively much lower. Could the IASI bias be different in other areas of the globe, for example in regions strongly influenced by biomass burning or over the tropics, due to the much stronger influence of methanol chemical production?
Figure 9: Based on what is presented (see, for example, line 385), the focus of the inversion is on terrestrial emissions, and therefore the IASI data over oceans were excluded. I would very much appreciate it if all figures including IASI data could be masked over the ocean, to avoid confusion during reading.
Line 600: It would be great if the Spearman correlation could also be listed, to provide a more complete overview of the comparison.

Citation: https://doi.org/10.5194/egusphere-2026-253-RC2
- AC2: 'Reply on RC2', Jean-François Muller, 10 Apr 2026
  
  The comment was uploaded in the form of a supplement: https://egusphere.copernicus.org/preprints/2026/egusphere-2026-253/egusphere-2026-253-AC2-supplement.pdf
  
  Citation: https://doi.org/10.5194/egusphere-2026-253-AC2

Peer review completion

AR – Author's response | RR – Referee report | ED – Editor decision | EF – Editorial file upload

AR by Jean-François Muller on behalf of the Authors (13 Apr 2026) Author's response Author's tracked changes Manuscript

ED: Publish as is (14 Apr 2026) by Kelvin Bates

AR by Jean-François Muller on behalf of the Authors (14 Apr 2026) Manuscript

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Short summary

We use an atmospheric model and aircraft measurements to evaluate methanol measurements from satellite sensors. The spaceborne data are found to be too low over source regions. Next, we use the model and the bias-corrected satellite data to derive improved terrestrial emissions of methanol between 2008 and 2019, and we evaluate the results against aircraft and ground-based measurements. This work shows that biogenic emissions of methanol might be ~ 60 % larger than previously estimated.