Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring

Near-surface mercury and ozone depletion events occur in the lowest part of the atmosphere during Arctic spring. Mercury depletion is the first step in a process that transforms long-lived elemental mercury to more reactive forms within the Arctic that are deposited to the cryosphere, ocean, and oth...

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Published in:Elem Sci Anth
Main Authors: Ahmed, Shaddy, Thomas, Jennie L., Angot, Hélène, Dommergue, Aurélien, Archer, Stephen D., Bariteau, Ludovic, Beck, Ivo, Benavent, Nuria, Blechschmidt, Anne Marlene, Blomquist, Byron, Boyer, Matthew, Christensen, Jesper H., Dahlke, Sandro, Dastoor, Ashu, Helmig, Detlev, Howard, Dean, Jacobi, Hans Werner, Jokinen, Tuija, Lapere, Rémy, Laurila, Tiia, Quéléver, Lauriane L.J., Richter, Andreas, Ryjkov, Andrei, Mahajan, Anoop S., Marelle, Louis, Pfaffhuber, Katrine Aspmo, Posman, Kevin, Rinke, Annette, Saiz-Lopez, Alfonso, Schmale, Julia, Skov, Henrik, Steffen, Alexandra, Stupple, Geoff, Stutz, Jochen, Travnikov, Oleg, Zilker, Bianca
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Arctic
Atmosphere
Bromine
Cryosphere
Mercury
Ozone
Sea ice
Online Access:https://pure.au.dk/portal/en/publications/a6428903-cd17-452b-97ff-45277d0d0076
https://doi.org/10.1525/elementa.2022.00129
http://www.scopus.com/inward/record.url?scp=85160698461&partnerID=8YFLogxK
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spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/a6428903-cd17-452b-97ff-45277d0d0076 2024-04-14T08:05:36+00:00 Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring Ahmed, Shaddy Thomas, Jennie L. Angot, Hélène Dommergue, Aurélien Archer, Stephen D. Bariteau, Ludovic Beck, Ivo Benavent, Nuria Blechschmidt, Anne Marlene Blomquist, Byron Boyer, Matthew Christensen, Jesper H. Dahlke, Sandro Dastoor, Ashu Helmig, Detlev Howard, Dean Jacobi, Hans Werner Jokinen, Tuija Lapere, Rémy Laurila, Tiia Quéléver, Lauriane L.J. Richter, Andreas Ryjkov, Andrei Mahajan, Anoop S. Marelle, Louis Pfaffhuber, Katrine Aspmo Posman, Kevin Rinke, Annette Saiz-Lopez, Alfonso Schmale, Julia Skov, Henrik Steffen, Alexandra Stupple, Geoff Stutz, Jochen Travnikov, Oleg Zilker, Bianca 2023-05 https://pure.au.dk/portal/en/publications/a6428903-cd17-452b-97ff-45277d0d0076 https://doi.org/10.1525/elementa.2022.00129 http://www.scopus.com/inward/record.url?scp=85160698461&partnerID=8YFLogxK eng eng https://pure.au.dk/portal/en/publications/a6428903-cd17-452b-97ff-45277d0d0076 info:eu-repo/semantics/openAccess Ahmed , S , Thomas , J L , Angot , H , Dommergue , A , Archer , S D , Bariteau , L , Beck , I , Benavent , N , Blechschmidt , A M , Blomquist , B , Boyer , M , Christensen , J H , Dahlke , S , Dastoor , A , Helmig , D , Howard , D , Jacobi , H W , Jokinen , T , Lapere , R , Laurila , T , Quéléver , L L J , Richter , A , Ryjkov , A , Mahajan , A S , Marelle , L , Pfaffhuber , K A , Posman , K , Rinke , A , Saiz-Lopez , A , Schmale , J , Skov , H , Steffen , A , Stupple , G , Stutz , J , Travnikov , O & Zilker , B 2023 , ' Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring ' , Elementa , vol. 11 , no. 1 , 00129 . https://doi.org/10.1525/elementa.2022.00129 Arctic Atmosphere Bromine Cryosphere Mercury Ozone article 2023 ftuniaarhuspubl https://doi.org/10.1525/elementa.2022.00129 2024-03-21T15:31:53Z Near-surface mercury and ozone depletion events occur in the lowest part of the atmosphere during Arctic spring. Mercury depletion is the first step in a process that transforms long-lived elemental mercury to more reactive forms within the Arctic that are deposited to the cryosphere, ocean, and other surfaces, which can ultimately get integrated into the Arctic food web. Depletion of both mercury and ozone occur due to the presence of reactive halogen radicals that are released from snow, ice, and aerosols. In this work, we added a detailed description of the Arctic atmospheric mercury cycle to our recently published version of the Weather Research and Forecasting model coupled with Chemistry (WRF-Chem 4.3.3) that includes Arctic bromine and chlorine chemistry and activation/recycling on snow and aerosols. The major advantage of our modelling approach is the online calculation of bromine concentrations and emission/recycling that is required to simulate the hourly and daily variability of Arctic mercury depletion. We used this model to study coupling between reactive cycling of mercury, ozone, and bromine during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) spring season in 2020 and evaluated results compared to land-based, ship-based, and remote sensing observations. The model predicts that elemental mercury oxidation is driven largely by bromine chemistry and that particulate mercury is the major form of oxidized mercury. The model predicts that the majority (74%) of oxidized mercury deposited to land-based snow is re-emitted to the atmosphere as gaseous elemental mercury, while a minor fraction (4%) of oxidized mercury that is deposited to sea ice is re-emitted during spring. Our work demonstrates that hourly differences in bromine/ozone chemistry in the atmosphere must be considered to capture the springtime Arctic mercury cycle, including its integration into the cryosphere and ocean. Article in Journal/Newspaper Arctic Arctic Sea ice Aarhus University: Research Arctic Elem Sci Anth 11 1
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic Arctic
Atmosphere
Bromine
Cryosphere
Mercury
Ozone
spellingShingle Arctic
Atmosphere
Bromine
Cryosphere
Mercury
Ozone
Ahmed, Shaddy
Thomas, Jennie L.
Angot, Hélène
Dommergue, Aurélien
Archer, Stephen D.
Bariteau, Ludovic
Beck, Ivo
Benavent, Nuria
Blechschmidt, Anne Marlene
Blomquist, Byron
Boyer, Matthew
Christensen, Jesper H.
Dahlke, Sandro
Dastoor, Ashu
Helmig, Detlev
Howard, Dean
Jacobi, Hans Werner
Jokinen, Tuija
Lapere, Rémy
Laurila, Tiia
Quéléver, Lauriane L.J.
Richter, Andreas
Ryjkov, Andrei
Mahajan, Anoop S.
Marelle, Louis
Pfaffhuber, Katrine Aspmo
Posman, Kevin
Rinke, Annette
Saiz-Lopez, Alfonso
Schmale, Julia
Skov, Henrik
Steffen, Alexandra
Stupple, Geoff
Stutz, Jochen
Travnikov, Oleg
Zilker, Bianca
Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring
topic_facet Arctic
Atmosphere
Bromine
Cryosphere
Mercury
Ozone
description Near-surface mercury and ozone depletion events occur in the lowest part of the atmosphere during Arctic spring. Mercury depletion is the first step in a process that transforms long-lived elemental mercury to more reactive forms within the Arctic that are deposited to the cryosphere, ocean, and other surfaces, which can ultimately get integrated into the Arctic food web. Depletion of both mercury and ozone occur due to the presence of reactive halogen radicals that are released from snow, ice, and aerosols. In this work, we added a detailed description of the Arctic atmospheric mercury cycle to our recently published version of the Weather Research and Forecasting model coupled with Chemistry (WRF-Chem 4.3.3) that includes Arctic bromine and chlorine chemistry and activation/recycling on snow and aerosols. The major advantage of our modelling approach is the online calculation of bromine concentrations and emission/recycling that is required to simulate the hourly and daily variability of Arctic mercury depletion. We used this model to study coupling between reactive cycling of mercury, ozone, and bromine during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) spring season in 2020 and evaluated results compared to land-based, ship-based, and remote sensing observations. The model predicts that elemental mercury oxidation is driven largely by bromine chemistry and that particulate mercury is the major form of oxidized mercury. The model predicts that the majority (74%) of oxidized mercury deposited to land-based snow is re-emitted to the atmosphere as gaseous elemental mercury, while a minor fraction (4%) of oxidized mercury that is deposited to sea ice is re-emitted during spring. Our work demonstrates that hourly differences in bromine/ozone chemistry in the atmosphere must be considered to capture the springtime Arctic mercury cycle, including its integration into the cryosphere and ocean.
format Article in Journal/Newspaper
author Ahmed, Shaddy
Thomas, Jennie L.
Angot, Hélène
Dommergue, Aurélien
Archer, Stephen D.
Bariteau, Ludovic
Beck, Ivo
Benavent, Nuria
Blechschmidt, Anne Marlene
Blomquist, Byron
Boyer, Matthew
Christensen, Jesper H.
Dahlke, Sandro
Dastoor, Ashu
Helmig, Detlev
Howard, Dean
Jacobi, Hans Werner
Jokinen, Tuija
Lapere, Rémy
Laurila, Tiia
Quéléver, Lauriane L.J.
Richter, Andreas
Ryjkov, Andrei
Mahajan, Anoop S.
Marelle, Louis
Pfaffhuber, Katrine Aspmo
Posman, Kevin
Rinke, Annette
Saiz-Lopez, Alfonso
Schmale, Julia
Skov, Henrik
Steffen, Alexandra
Stupple, Geoff
Stutz, Jochen
Travnikov, Oleg
Zilker, Bianca
author_facet Ahmed, Shaddy
Thomas, Jennie L.
Angot, Hélène
Dommergue, Aurélien
Archer, Stephen D.
Bariteau, Ludovic
Beck, Ivo
Benavent, Nuria
Blechschmidt, Anne Marlene
Blomquist, Byron
Boyer, Matthew
Christensen, Jesper H.
Dahlke, Sandro
Dastoor, Ashu
Helmig, Detlev
Howard, Dean
Jacobi, Hans Werner
Jokinen, Tuija
Lapere, Rémy
Laurila, Tiia
Quéléver, Lauriane L.J.
Richter, Andreas
Ryjkov, Andrei
Mahajan, Anoop S.
Marelle, Louis
Pfaffhuber, Katrine Aspmo
Posman, Kevin
Rinke, Annette
Saiz-Lopez, Alfonso
Schmale, Julia
Skov, Henrik
Steffen, Alexandra
Stupple, Geoff
Stutz, Jochen
Travnikov, Oleg
Zilker, Bianca
author_sort Ahmed, Shaddy
title Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring
title_short Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring
title_full Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring
title_fullStr Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring
title_full_unstemmed Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring
title_sort modelling the coupled mercury-halogen-ozone cycle in the central arctic during spring
publishDate 2023
url https://pure.au.dk/portal/en/publications/a6428903-cd17-452b-97ff-45277d0d0076
https://doi.org/10.1525/elementa.2022.00129
http://www.scopus.com/inward/record.url?scp=85160698461&partnerID=8YFLogxK
geographic Arctic
geographic_facet Arctic
genre Arctic
Arctic
Sea ice
genre_facet Arctic
Arctic
Sea ice
op_source Ahmed , S , Thomas , J L , Angot , H , Dommergue , A , Archer , S D , Bariteau , L , Beck , I , Benavent , N , Blechschmidt , A M , Blomquist , B , Boyer , M , Christensen , J H , Dahlke , S , Dastoor , A , Helmig , D , Howard , D , Jacobi , H W , Jokinen , T , Lapere , R , Laurila , T , Quéléver , L L J , Richter , A , Ryjkov , A , Mahajan , A S , Marelle , L , Pfaffhuber , K A , Posman , K , Rinke , A , Saiz-Lopez , A , Schmale , J , Skov , H , Steffen , A , Stupple , G , Stutz , J , Travnikov , O & Zilker , B 2023 , ' Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring ' , Elementa , vol. 11 , no. 1 , 00129 . https://doi.org/10.1525/elementa.2022.00129
op_relation https://pure.au.dk/portal/en/publications/a6428903-cd17-452b-97ff-45277d0d0076
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1525/elementa.2022.00129
container_title Elem Sci Anth
container_volume 11
container_issue 1
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