Ozone production and precursor emission from wildfires in Africa

Tropospheric ozone (O3) negatively impacts human health and is also a greenhouse gas. It is formed photochemically by reactions of nitrogen oxides (NOx) and volatile organic compounds (VOCs), of which wildfires are an important source. This study presents data from research flights sampling wildfire...

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Published in:Environmental Science: Atmospheres
Main Authors: Lee, James, Squires, Freya, Sherwen, Tomas, Wilde, Shona E., Cliff, Samuel, Carpenter, Lucy J., Hopkins, James, Bauguitte, Stephane, Reed, Chris, Barker, Patrick, Allen, Grant, Bannan, Thomas, Matthews, Emily, Mehra, Archit, Percival, Carl, Heard, Dwayne E., K Whalley, Lisa, Ronnie, Grace, Seldon, Samuel, Ingham, Trevor, Keller, Christopher, Knowland, Emma, Nisbet, Euan, Andrews, Stephen
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
ResearchInstitutes_Networks_Beacons/MERI
Manchester Environmental Research Institute
North Atlantic
Online Access:https://research.manchester.ac.uk/en/publications/7c233ae3-1279-4e85-8e90-73de8bb4a7ef
https://doi.org/10.1039/d1ea00041a
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spelling ftumanchesterpub:oai:pure.atira.dk:publications/7c233ae3-1279-4e85-8e90-73de8bb4a7ef 2023-11-12T04:22:51+01:00 Ozone production and precursor emission from wildfires in Africa Lee, James Squires, Freya Sherwen, Tomas Wilde, Shona E. Cliff, Samuel Carpenter, Lucy J. Hopkins, James Bauguitte, Stephane Reed, Chris Barker, Patrick Allen, Grant Bannan, Thomas Matthews, Emily Mehra, Archit Percival, Carl Heard, Dwayne E. K Whalley, Lisa Ronnie, Grace Seldon, Samuel Ingham, Trevor Keller, Christopher Knowland, Emma Nisbet, Euan Andrews, Stephen 2021-09-23 https://research.manchester.ac.uk/en/publications/7c233ae3-1279-4e85-8e90-73de8bb4a7ef https://doi.org/10.1039/d1ea00041a eng eng info:eu-repo/semantics/openAccess Lee , J , Squires , F , Sherwen , T , Wilde , S E , Cliff , S , Carpenter , L J , Hopkins , J , Bauguitte , S , Reed , C , Barker , P , Allen , G , Bannan , T , Matthews , E , Mehra , A , Percival , C , Heard , D E , K Whalley , L , Ronnie , G , Seldon , S , Ingham , T , Keller , C , Knowland , E , Nisbet , E & Andrews , S 2021 , ' Ozone production and precursor emission from wildfires in Africa ' , Environmental Science: Atmospheres , no. 7 , pp. 524 . https://doi.org/10.1039/d1ea00041a ResearchInstitutes_Networks_Beacons/MERI Manchester Environmental Research Institute article 2021 ftumanchesterpub https://doi.org/10.1039/d1ea00041a 2023-10-30T09:12:47Z Tropospheric ozone (O3) negatively impacts human health and is also a greenhouse gas. It is formed photochemically by reactions of nitrogen oxides (NOx) and volatile organic compounds (VOCs), of which wildfires are an important source. This study presents data from research flights sampling wildfires in West and Central African savannah regions, both close to the fires and after the emissions had been transported several days over the tropical North Atlantic Ocean. Emission factors (EFs) in g kg−1 for NOx (as NO), six VOCs and formaldehyde were calculated from enhancement to mole fractions in data taken close to the fires. For NOx, the emission factor was calculated as 2.05 ± 0.43 g kg−1 for Senegal and 1.20 ± 0.28 g kg−1 for Uganda, both higher than the average value of 1.13 ± 0.6 g kg−1 for previous studies of African savannah regions. For most VOCs (except acetylene), EFs in Uganda were lower by factors of 20–50% compared to Senegal, with almost all the values below those in the literature. O3 enhancement in the fire plumes was investigated by examining the ΔO3/ΔCO enhancement ratio, with values ranging from 0.07–0.14 close to the fires up to 0.25 for measurements taken over the Atlantic Ocean up to 200 hours downwind. In addition, measurements of O3 and its precursors were compared to the output of a global chemistry transport model (GEOS-CF) for the flights over the Atlantic Ocean. Normalised mean bias (NMB) comparison between the measured and modelled data was good outside of the fire plumes, with CO showing a model under-prediction of 4.6% and O3 a slight over-prediction of 0.7% (both within the standard deviation of the data). For NOx the agreement was poorer, with an under-prediction of 9.9% across all flights. Inside the fire plumes the agreement between modelled and measured values is worse, with the model being biased significantly lower for all three species. In total across all flights, there was an under-prediction of 29.4%, 16.5% and 37.5% for CO, O3 and NOx respectively. Finally, the measured ... Article in Journal/Newspaper North Atlantic The University of Manchester: Research Explorer Environmental Science: Atmospheres 1 7 524 542
institution Open Polar
collection The University of Manchester: Research Explorer
op_collection_id ftumanchesterpub
language English
topic ResearchInstitutes_Networks_Beacons/MERI
Manchester Environmental Research Institute
spellingShingle ResearchInstitutes_Networks_Beacons/MERI
Manchester Environmental Research Institute
Lee, James
Squires, Freya
Sherwen, Tomas
Wilde, Shona E.
Cliff, Samuel
Carpenter, Lucy J.
Hopkins, James
Bauguitte, Stephane
Reed, Chris
Barker, Patrick
Allen, Grant
Bannan, Thomas
Matthews, Emily
Mehra, Archit
Percival, Carl
Heard, Dwayne E.
K Whalley, Lisa
Ronnie, Grace
Seldon, Samuel
Ingham, Trevor
Keller, Christopher
Knowland, Emma
Nisbet, Euan
Andrews, Stephen
Ozone production and precursor emission from wildfires in Africa
topic_facet ResearchInstitutes_Networks_Beacons/MERI
Manchester Environmental Research Institute
description Tropospheric ozone (O3) negatively impacts human health and is also a greenhouse gas. It is formed photochemically by reactions of nitrogen oxides (NOx) and volatile organic compounds (VOCs), of which wildfires are an important source. This study presents data from research flights sampling wildfires in West and Central African savannah regions, both close to the fires and after the emissions had been transported several days over the tropical North Atlantic Ocean. Emission factors (EFs) in g kg−1 for NOx (as NO), six VOCs and formaldehyde were calculated from enhancement to mole fractions in data taken close to the fires. For NOx, the emission factor was calculated as 2.05 ± 0.43 g kg−1 for Senegal and 1.20 ± 0.28 g kg−1 for Uganda, both higher than the average value of 1.13 ± 0.6 g kg−1 for previous studies of African savannah regions. For most VOCs (except acetylene), EFs in Uganda were lower by factors of 20–50% compared to Senegal, with almost all the values below those in the literature. O3 enhancement in the fire plumes was investigated by examining the ΔO3/ΔCO enhancement ratio, with values ranging from 0.07–0.14 close to the fires up to 0.25 for measurements taken over the Atlantic Ocean up to 200 hours downwind. In addition, measurements of O3 and its precursors were compared to the output of a global chemistry transport model (GEOS-CF) for the flights over the Atlantic Ocean. Normalised mean bias (NMB) comparison between the measured and modelled data was good outside of the fire plumes, with CO showing a model under-prediction of 4.6% and O3 a slight over-prediction of 0.7% (both within the standard deviation of the data). For NOx the agreement was poorer, with an under-prediction of 9.9% across all flights. Inside the fire plumes the agreement between modelled and measured values is worse, with the model being biased significantly lower for all three species. In total across all flights, there was an under-prediction of 29.4%, 16.5% and 37.5% for CO, O3 and NOx respectively. Finally, the measured ...
format Article in Journal/Newspaper
author Lee, James
Squires, Freya
Sherwen, Tomas
Wilde, Shona E.
Cliff, Samuel
Carpenter, Lucy J.
Hopkins, James
Bauguitte, Stephane
Reed, Chris
Barker, Patrick
Allen, Grant
Bannan, Thomas
Matthews, Emily
Mehra, Archit
Percival, Carl
Heard, Dwayne E.
K Whalley, Lisa
Ronnie, Grace
Seldon, Samuel
Ingham, Trevor
Keller, Christopher
Knowland, Emma
Nisbet, Euan
Andrews, Stephen
author_facet Lee, James
Squires, Freya
Sherwen, Tomas
Wilde, Shona E.
Cliff, Samuel
Carpenter, Lucy J.
Hopkins, James
Bauguitte, Stephane
Reed, Chris
Barker, Patrick
Allen, Grant
Bannan, Thomas
Matthews, Emily
Mehra, Archit
Percival, Carl
Heard, Dwayne E.
K Whalley, Lisa
Ronnie, Grace
Seldon, Samuel
Ingham, Trevor
Keller, Christopher
Knowland, Emma
Nisbet, Euan
Andrews, Stephen
author_sort Lee, James
title Ozone production and precursor emission from wildfires in Africa
title_short Ozone production and precursor emission from wildfires in Africa
title_full Ozone production and precursor emission from wildfires in Africa
title_fullStr Ozone production and precursor emission from wildfires in Africa
title_full_unstemmed Ozone production and precursor emission from wildfires in Africa
title_sort ozone production and precursor emission from wildfires in africa
publishDate 2021
url https://research.manchester.ac.uk/en/publications/7c233ae3-1279-4e85-8e90-73de8bb4a7ef
https://doi.org/10.1039/d1ea00041a
genre North Atlantic
genre_facet North Atlantic
op_source Lee , J , Squires , F , Sherwen , T , Wilde , S E , Cliff , S , Carpenter , L J , Hopkins , J , Bauguitte , S , Reed , C , Barker , P , Allen , G , Bannan , T , Matthews , E , Mehra , A , Percival , C , Heard , D E , K Whalley , L , Ronnie , G , Seldon , S , Ingham , T , Keller , C , Knowland , E , Nisbet , E & Andrews , S 2021 , ' Ozone production and precursor emission from wildfires in Africa ' , Environmental Science: Atmospheres , no. 7 , pp. 524 . https://doi.org/10.1039/d1ea00041a
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1039/d1ea00041a
container_title Environmental Science: Atmospheres
container_volume 1
container_issue 7
container_start_page 524
op_container_end_page 542
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