Satellite remote-sensing capability to assess tropospheric-column ratios of formaldehyde and nitrogen dioxide: case study during  the Long Island Sound Tropospheric Ozone Study 2018  (LISTOS 2018) field campaign

Johnson, Matthew S.; Souri, Amir H.; Philip, Sajeev; Kumar, Rajesh; Naeger, Aaron; Geddes, Jeffrey; Judd, Laura; Janz, Scott; Chong, Heesung; Sullivan, John

doi:https://doi.org/10.5194/amt-16-2431-2023

Articles | Volume 16, issue 9

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Articles | Volume 16, issue 9

https://doi.org/10.5194/amt-16-2431-2023

Articles | Volume 16, issue 9

Article
Assets
Peer review
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Related articles

Research article

16 May 2023

Research article |

| 16 May 2023

Satellite remote-sensing capability to assess tropospheric-column ratios of formaldehyde and nitrogen dioxide: case study during the Long Island Sound Tropospheric Ozone Study 2018 (LISTOS 2018) field campaign

Matthew S. Johnson, Amir H. Souri, Sajeev Philip, Rajesh Kumar, Aaron Naeger, Jeffrey Geddes, Laura Judd, Scott Janz, Heesung Chong, and John Sullivan

Matthew S. Johnson

CORRESPONDING AUTHOR

matthew.s.johnson@nasa.gov

Earth Science Division, NASA Ames Research Center, Moffett Field, CA 94035, USA

Amir H. Souri

Atomic & Molecular Physics (AMP), Center for Astrophysics | Harvard & Smithsonian, Cambridge, MA 02140, USA

Sajeev Philip

Centre for Atmospheric Sciences, Indian Institute of Technology Delhi, Jia Sarai, Hauz Khas, New Delhi, Delhi 110016, India

Rajesh Kumar

https://orcid.org/0000-0002-3135-9556

Research Applications Laboratory, National Center for Atmospheric Research, Boulder, CO 80305, USA

Aaron Naeger

Short-term Prediction Research and Transition Center, University of Alabama in Huntsville, Huntsville, AL 35805, USA

Jeffrey Geddes

Earth & Environment Department, Boston University, Boston, MA 02215, USA

Laura Judd

NASA Langley Research Center, Hampton, VA 23681, USA

Scott Janz

NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA

Heesung Chong

https://orcid.org/0000-0001-8052-5488

Atomic & Molecular Physics (AMP), Center for Astrophysics | Harvard & Smithsonian, Cambridge, MA 02140, USA

John Sullivan

https://orcid.org/0000-0002-4987-082X

NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA

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May 2023	198	63	8	269
Jun 2023	61	18	1	80
Jul 2023	45	16	1	62
Aug 2023	45	15	3	63
Sep 2023	37	15	1	53
Oct 2023	34	8	2	44
Nov 2023	14	5	0	19
Dec 2023	31	13	2	46
Jan 2024	42	13	0	55
Feb 2024	25	6	0	31
Mar 2024	25	6	2	33
Apr 2024	21	8	6	35
May 2024	29	10	4	43
Jun 2024	69	11	2	82
Jul 2024	49	10	7	66
Aug 2024	40	6	3	49
Sep 2024	33	4	1	38
Oct 2024	45	2	0	47
Nov 2024	38	4	1	43
Dec 2024	25	4	0	29
Jan 2025	29	8	0	37
Feb 2025	34	3	0	37
Mar 2025	34	7	0	41

Cumulative views and downloads (calculated since 16 May 2023)

Month	HTML	PDF	XML	Total
May 2023	198	63	8	269
Jun 2023	61	18	1	80
Jul 2023	45	16	1	62
Aug 2023	45	15	3	63
Sep 2023	37	15	1	53
Oct 2023	34	8	2	44
Nov 2023	14	5	0	19
Dec 2023	31	13	2	46
Jan 2024	42	13	0	55
Feb 2024	25	6	0	31
Mar 2024	25	6	2	33
Apr 2024	21	8	6	35
May 2024	29	10	4	43
Jun 2024	69	11	2	82
Jul 2024	49	10	7	66
Aug 2024	40	6	3	49
Sep 2024	33	4	1	38
Oct 2024	45	2	0	47
Nov 2024	38	4	1	43
Dec 2024	25	4	0	29
Jan 2025	29	8	0	37
Feb 2025	34	3	0	37
Mar 2025	34	7	0	41

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Month	HTML	PDF	XML	Total
May 2023	198	63	8	269
Jun 2023	61	18	1	80
Jul 2023	45	16	1	62
Aug 2023	45	15	3	63
Sep 2023	37	15	1	53
Oct 2023	34	8	2	44
Nov 2023	14	5	0	19
Dec 2023	31	13	2	46
Jan 2024	42	13	0	55
Feb 2024	25	6	0	31
Mar 2024	25	6	2	33
Apr 2024	21	8	6	35
May 2024	29	10	4	43
Jun 2024	69	11	2	82
Jul 2024	49	10	7	66
Aug 2024	40	6	3	49
Sep 2024	33	4	1	38
Oct 2024	45	2	0	47
Nov 2024	38	4	1	43
Dec 2024	25	4	0	29
Jan 2025	29	8	0	37
Feb 2025	34	3	0	37
Mar 2025	34	7	0	41

Cumulative views and downloads (calculated since 07 Sep 2022)

Month	HTML	PDF	XML	Total
May 2023	198	63	8	269
Jun 2023	61	18	1	80
Jul 2023	45	16	1	62
Aug 2023	45	15	3	63
Sep 2023	37	15	1	53
Oct 2023	34	8	2	44
Nov 2023	14	5	0	19
Dec 2023	31	13	2	46
Jan 2024	42	13	0	55
Feb 2024	25	6	0	31
Mar 2024	25	6	2	33
Apr 2024	21	8	6	35
May 2024	29	10	4	43
Jun 2024	69	11	2	82
Jul 2024	49	10	7	66
Aug 2024	40	6	3	49
Sep 2024	33	4	1	38
Oct 2024	45	2	0	47
Nov 2024	38	4	1	43
Dec 2024	25	4	0	29
Jan 2025	29	8	0	37
Feb 2025	34	3	0	37
Mar 2025	34	7	0	41

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China	2	275	11
Germany	3	153	6
India	4	125	5
South Korea	5	77	3

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China	2	207	15
India	3	86	6
Germany	4	78	5
South Korea	5	45	3

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Germany	2	75	7
China	3	68	6
India	4	39	3
France	5	32	3


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Cited

Show all Final revised paper only Preprint only

7 citations as recorded by crossref.

Insights into the long-term (2005–2021) spatiotemporal evolution of summer ozone production sensitivity in the Northern Hemisphere derived with the Ozone Monitoring Instrument (OMI) M. Johnson et al. 10.5194/acp-24-10363-2024
Feasibility of robust estimates of ozone production rates using a synergy of satellite observations, ground-based remote sensing, and models A. Souri et al. 10.5194/acp-25-2061-2025
Ozone sensitivity to high energy demand day electricity and onroad emissions during LISTOS A. Karambelas et al. 10.1080/10962247.2024.2396400
Monitoring and Comparative Analysis of NO2 and HCHO in Shanghai Using Dual-Azimuth Scanning MAX-DOAS and TROPOMI H. Ren et al. 10.3390/rs17030355
Remote Sensing Measurements at a Rural Site in China: Implications for Satellite NO2 and HCHO Measurement Uncertainty and Emissions From Fires K. Chong et al. 10.1029/2023JD039310
Decoupling in the vertical shape of HCHO during a sea breeze event: The effect on trace gas satellite retrievals and column-to-surface translation A. Souri et al. 10.1016/j.atmosenv.2023.119929
Evolution of global O3-NOx-VOCs sensitivity before and after the COVID-19 from the ratio of formaldehyde to NO2 from satellite observations D. Wang et al. 10.1016/j.jes.2024.07.029

7 citations as recorded by crossref.

Insights into the long-term (2005–2021) spatiotemporal evolution of summer ozone production sensitivity in the Northern Hemisphere derived with the Ozone Monitoring Instrument (OMI) M. Johnson et al. 10.5194/acp-24-10363-2024
Feasibility of robust estimates of ozone production rates using a synergy of satellite observations, ground-based remote sensing, and models A. Souri et al. 10.5194/acp-25-2061-2025
Ozone sensitivity to high energy demand day electricity and onroad emissions during LISTOS A. Karambelas et al. 10.1080/10962247.2024.2396400
Monitoring and Comparative Analysis of NO2 and HCHO in Shanghai Using Dual-Azimuth Scanning MAX-DOAS and TROPOMI H. Ren et al. 10.3390/rs17030355
Remote Sensing Measurements at a Rural Site in China: Implications for Satellite NO2 and HCHO Measurement Uncertainty and Emissions From Fires K. Chong et al. 10.1029/2023JD039310
Decoupling in the vertical shape of HCHO during a sea breeze event: The effect on trace gas satellite retrievals and column-to-surface translation A. Souri et al. 10.1016/j.atmosenv.2023.119929
Evolution of global O3-NOx-VOCs sensitivity before and after the COVID-19 from the ratio of formaldehyde to NO2 from satellite observations D. Wang et al. 10.1016/j.jes.2024.07.029

Latest update: 30 Mar 2025

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Short summary

Satellites provide vital information for studying the processes controlling ozone formation. Based on the abundance of particular gases in the atmosphere, ozone formation is sensitive to specific human-induced and natural emission sources. However, errors and biases in satellite retrievals hinder this data source’s application for studying ozone formation sensitivity. We conducted a thorough statistical evaluation of two commonly applied satellites for investigating ozone formation sensitivity.

Satellites provide vital information for studying the processes controlling ozone formation....