TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability

We present a comparison of chemistry-transport models (TransCom-N O) to examine the importance of atmospheric transport and surface fluxes on the variability of NO mixing ratios in the troposphere. Six different models and two model variants participated in the inter-comparison and simulations were...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Thompson, RL, Patra, PK, Ishijima, K, Saikawa, E, Corazza, M, Karstens, U, Wilson, C, Bergamaschi, P, Dlugokencky, E, Sweeney, C, Prinn, RG, Weiss, RF, O'Doherty, S, Fraser, PJ, Steele, LP, Krummel, PB, Saunois, M, Chipperfield, M, Bousquet, P
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2014
Subjects:
Southern Ocean
Online Access:https://eprints.whiterose.ac.uk/80028/
https://eprints.whiterose.ac.uk/80028/1/TransCom%20NO%20model%20inter-comparison-Part%201%20Assessing%20the%20influence%20of%20transport%20and%20surface%20fluxes%20on%20tropospheric%20NO%20variability.pdf
https://doi.org/10.5194/acp-14-4349-2014
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spelling ftleedsuniv:oai:eprints.whiterose.ac.uk:80028 2023-05-15T18:25:57+02:00 TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability Thompson, RL Patra, PK Ishijima, K Saikawa, E Corazza, M Karstens, U Wilson, C Bergamaschi, P Dlugokencky, E Sweeney, C Prinn, RG Weiss, RF O'Doherty, S Fraser, PJ Steele, LP Krummel, PB Saunois, M Chipperfield, M Bousquet, P 2014-04-30 text https://eprints.whiterose.ac.uk/80028/ https://eprints.whiterose.ac.uk/80028/1/TransCom%20NO%20model%20inter-comparison-Part%201%20Assessing%20the%20influence%20of%20transport%20and%20surface%20fluxes%20on%20tropospheric%20NO%20variability.pdf https://doi.org/10.5194/acp-14-4349-2014 en eng Copernicus Publications https://eprints.whiterose.ac.uk/80028/1/TransCom%20NO%20model%20inter-comparison-Part%201%20Assessing%20the%20influence%20of%20transport%20and%20surface%20fluxes%20on%20tropospheric%20NO%20variability.pdf Thompson, RL, Patra, PK, Ishijima, K et al. (16 more authors) (2014) TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability. Atmospheric Chemistry and Physics, 14 (8). 4349 - 4368. ISSN 1680-7316 Article NonPeerReviewed 2014 ftleedsuniv https://doi.org/10.5194/acp-14-4349-2014 2023-01-30T21:28:23Z We present a comparison of chemistry-transport models (TransCom-N O) to examine the importance of atmospheric transport and surface fluxes on the variability of NO mixing ratios in the troposphere. Six different models and two model variants participated in the inter-comparison and simulations were made for the period 2006 to 2009. In addition to N O, simulations of CFC-12 and SF6 were made by a subset of four of the models to provide information on the models' proficiency in stratosphere-troposphere exchange (STE) and meridional transport, respectively. The same prior emissions were used by all models to restrict differences among models to transport and chemistry alone. Four different NO flux scenarios totalling between 14 and 17 TgN yr (for 2005) globally were also compared. The modelled NO mixing ratios were assessed against observations from in situ stations, discrete air sampling networks and aircraft. All models adequately captured the large-scale patterns of N O and the vertical gradient from the troposphere to the stratosphere and most models also adequately captured the NO tropospheric growth rate. However, all models underestimated the inter-hemispheric NO gradient by at least 0.33 parts per billion (ppb), equivalent to 1.5 TgN, which, even after accounting for an overestimate of emissions in the Southern Ocean of circa 1.0 TgN, points to a likely underestimate of the Northern Hemisphere source by up to 0.5 TgN and/or an overestimate of STE in the Northern Hemisphere. Comparison with aircraft data reveal that the models overestimate the amplitude of the NO seasonal cycle at Hawaii (21° N, 158° W) below circa 6000 m, suggesting an overestimate of the importance of stratosphere to troposphere transport in the lower troposphere at this latitude. In the Northern Hemisphere, most of the models that provided CFC-12 simulations captured the phase of the CFC-12, seasonal cycle, indicating a reasonable representation of the timing of STE. However, for NO all models simulated a too early minimum by 2 to 3 ... Article in Journal/Newspaper Southern Ocean White Rose Research Online (Universities of Leeds, Sheffield & York) Southern Ocean Atmospheric Chemistry and Physics 14 8 4349 4368
institution Open Polar
collection White Rose Research Online (Universities of Leeds, Sheffield & York)
op_collection_id ftleedsuniv
language English
description We present a comparison of chemistry-transport models (TransCom-N O) to examine the importance of atmospheric transport and surface fluxes on the variability of NO mixing ratios in the troposphere. Six different models and two model variants participated in the inter-comparison and simulations were made for the period 2006 to 2009. In addition to N O, simulations of CFC-12 and SF6 were made by a subset of four of the models to provide information on the models' proficiency in stratosphere-troposphere exchange (STE) and meridional transport, respectively. The same prior emissions were used by all models to restrict differences among models to transport and chemistry alone. Four different NO flux scenarios totalling between 14 and 17 TgN yr (for 2005) globally were also compared. The modelled NO mixing ratios were assessed against observations from in situ stations, discrete air sampling networks and aircraft. All models adequately captured the large-scale patterns of N O and the vertical gradient from the troposphere to the stratosphere and most models also adequately captured the NO tropospheric growth rate. However, all models underestimated the inter-hemispheric NO gradient by at least 0.33 parts per billion (ppb), equivalent to 1.5 TgN, which, even after accounting for an overestimate of emissions in the Southern Ocean of circa 1.0 TgN, points to a likely underestimate of the Northern Hemisphere source by up to 0.5 TgN and/or an overestimate of STE in the Northern Hemisphere. Comparison with aircraft data reveal that the models overestimate the amplitude of the NO seasonal cycle at Hawaii (21° N, 158° W) below circa 6000 m, suggesting an overestimate of the importance of stratosphere to troposphere transport in the lower troposphere at this latitude. In the Northern Hemisphere, most of the models that provided CFC-12 simulations captured the phase of the CFC-12, seasonal cycle, indicating a reasonable representation of the timing of STE. However, for NO all models simulated a too early minimum by 2 to 3 ...
format Article in Journal/Newspaper
author Thompson, RL
Patra, PK
Ishijima, K
Saikawa, E
Corazza, M
Karstens, U
Wilson, C
Bergamaschi, P
Dlugokencky, E
Sweeney, C
Prinn, RG
Weiss, RF
O'Doherty, S
Fraser, PJ
Steele, LP
Krummel, PB
Saunois, M
Chipperfield, M
Bousquet, P
spellingShingle Thompson, RL
Patra, PK
Ishijima, K
Saikawa, E
Corazza, M
Karstens, U
Wilson, C
Bergamaschi, P
Dlugokencky, E
Sweeney, C
Prinn, RG
Weiss, RF
O'Doherty, S
Fraser, PJ
Steele, LP
Krummel, PB
Saunois, M
Chipperfield, M
Bousquet, P
TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability
author_facet Thompson, RL
Patra, PK
Ishijima, K
Saikawa, E
Corazza, M
Karstens, U
Wilson, C
Bergamaschi, P
Dlugokencky, E
Sweeney, C
Prinn, RG
Weiss, RF
O'Doherty, S
Fraser, PJ
Steele, LP
Krummel, PB
Saunois, M
Chipperfield, M
Bousquet, P
author_sort Thompson, RL
title TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability
title_short TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability
title_full TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability
title_fullStr TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability
title_full_unstemmed TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability
title_sort transcom n2o model inter-comparison – part 1: assessing the influence of transport and surface fluxes on tropospheric n2o variability
publisher Copernicus Publications
publishDate 2014
url https://eprints.whiterose.ac.uk/80028/
https://eprints.whiterose.ac.uk/80028/1/TransCom%20NO%20model%20inter-comparison-Part%201%20Assessing%20the%20influence%20of%20transport%20and%20surface%20fluxes%20on%20tropospheric%20NO%20variability.pdf
https://doi.org/10.5194/acp-14-4349-2014
geographic Southern Ocean
geographic_facet Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_relation https://eprints.whiterose.ac.uk/80028/1/TransCom%20NO%20model%20inter-comparison-Part%201%20Assessing%20the%20influence%20of%20transport%20and%20surface%20fluxes%20on%20tropospheric%20NO%20variability.pdf
Thompson, RL, Patra, PK, Ishijima, K et al. (16 more authors) (2014) TransCom N2O model inter-comparison – Part 1: Assessing the influence of transport and surface fluxes on tropospheric N2O variability. Atmospheric Chemistry and Physics, 14 (8). 4349 - 4368. ISSN 1680-7316
op_doi https://doi.org/10.5194/acp-14-4349-2014
container_title Atmospheric Chemistry and Physics
container_volume 14
container_issue 8
container_start_page 4349
op_container_end_page 4368
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