Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes

The abundance of chlorine in the Earth’s atmosphere increased considerably during the 1970s to 1990s, following large emissions of anthropogenic long-lived chlorine-containing source gases, notably the chlorofluorocarbons. The chemical inertness of chlorofluorocarbons allows their transport and mixi...

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Published in:Nature
Main Authors: Mahieu, E, Chipperfield, MP, Notholt, J, Reddmann, T, Anderson, J, Bernath, PF, Blumenstock, T, Coffey, MT, Dhomse, SS, Feng, W, Franco, B, Froidevaux, L, Griffith, DWT, Hannigan, JW, Hase, F, Hossaini, R, Jones, NB, Morino, I, Murata, I, Nakajima, H, Palm, M, Paton-Walsh, C, III, JMR, Schneider, M, Servais, C, Smale, D, Walker, KA
Format: Article in Journal/Newspaper
Language:unknown
Published: Nature Publishing Group 2014
Subjects:
Antarc*
Online Access:https://eprints.whiterose.ac.uk/82459/
https://doi.org/10.1038/nature13857
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spelling ftleedsuniv:oai:eprints.whiterose.ac.uk:82459 2023-05-15T13:41:04+02:00 Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes Mahieu, E Chipperfield, MP Notholt, J Reddmann, T Anderson, J Bernath, PF Blumenstock, T Coffey, MT Dhomse, SS Feng, W Franco, B Froidevaux, L Griffith, DWT Hannigan, JW Hase, F Hossaini, R Jones, NB Morino, I Murata, I Nakajima, H Palm, M Paton-Walsh, C III, JMR Schneider, M Servais, C Smale, D Walker, KA 2014-11-06 https://eprints.whiterose.ac.uk/82459/ https://doi.org/10.1038/nature13857 unknown Nature Publishing Group Mahieu, E, Chipperfield, MP orcid.org/0000-0002-6803-4149 , Notholt, J et al. (24 more authors) (2014) Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes. Nature, 515 (7525). pp. 104-107. ISSN 0028-0836 Article NonPeerReviewed 2014 ftleedsuniv https://doi.org/10.1038/nature13857 2023-01-30T21:29:55Z The abundance of chlorine in the Earth’s atmosphere increased considerably during the 1970s to 1990s, following large emissions of anthropogenic long-lived chlorine-containing source gases, notably the chlorofluorocarbons. The chemical inertness of chlorofluorocarbons allows their transport and mixing throughout the troposphere on a global scale1, before they reach the stratosphere where they release chlorine atoms that cause ozone depletion2. The large ozone loss over Antarctica3 was the key observation that stimulated the definition and signing in 1987 of the Montreal Protocol, an international treaty establishing a schedule to reduce the production of the major chlorine- and bromine-containing halocarbons. Owing to its implementation, the near-surface total chlorine concentration showed a maximum in 1993, followed by a decrease of half a per cent to one per cent per year4, in line with expectations. Remote-sensing data have revealed a peak in stratospheric chlorine after 19965, then a decrease of close to one per cent per year6, 7, in agreement with the surface observations of the chlorine source gases and model calculations7. Here we present ground-based and satellite data that show a recent and significant increase, at the 2σ level, in hydrogen chloride (HCl), the main stratospheric chlorine reservoir, starting around 2007 in the lower stratosphere of the Northern Hemisphere, in contrast with the ongoing monotonic decrease of near-surface source gases. Using model simulations, we attribute this trend anomaly to a slowdown in the Northern Hemisphere atmospheric circulation, occurring over several consecutive years, transporting more aged air to the lower stratosphere, and characterized by a larger relative conversion of source gases to HCl. This short-term dynamical variability will also affect other stratospheric tracers and needs to be accounted for when studying the evolution of the stratospheric ozone layer. Article in Journal/Newspaper Antarc* White Rose Research Online (Universities of Leeds, Sheffield & York) Nature 515 7525 104 107
institution Open Polar
collection White Rose Research Online (Universities of Leeds, Sheffield & York)
op_collection_id ftleedsuniv
language unknown
description The abundance of chlorine in the Earth’s atmosphere increased considerably during the 1970s to 1990s, following large emissions of anthropogenic long-lived chlorine-containing source gases, notably the chlorofluorocarbons. The chemical inertness of chlorofluorocarbons allows their transport and mixing throughout the troposphere on a global scale1, before they reach the stratosphere where they release chlorine atoms that cause ozone depletion2. The large ozone loss over Antarctica3 was the key observation that stimulated the definition and signing in 1987 of the Montreal Protocol, an international treaty establishing a schedule to reduce the production of the major chlorine- and bromine-containing halocarbons. Owing to its implementation, the near-surface total chlorine concentration showed a maximum in 1993, followed by a decrease of half a per cent to one per cent per year4, in line with expectations. Remote-sensing data have revealed a peak in stratospheric chlorine after 19965, then a decrease of close to one per cent per year6, 7, in agreement with the surface observations of the chlorine source gases and model calculations7. Here we present ground-based and satellite data that show a recent and significant increase, at the 2σ level, in hydrogen chloride (HCl), the main stratospheric chlorine reservoir, starting around 2007 in the lower stratosphere of the Northern Hemisphere, in contrast with the ongoing monotonic decrease of near-surface source gases. Using model simulations, we attribute this trend anomaly to a slowdown in the Northern Hemisphere atmospheric circulation, occurring over several consecutive years, transporting more aged air to the lower stratosphere, and characterized by a larger relative conversion of source gases to HCl. This short-term dynamical variability will also affect other stratospheric tracers and needs to be accounted for when studying the evolution of the stratospheric ozone layer.
format Article in Journal/Newspaper
author Mahieu, E
Chipperfield, MP
Notholt, J
Reddmann, T
Anderson, J
Bernath, PF
Blumenstock, T
Coffey, MT
Dhomse, SS
Feng, W
Franco, B
Froidevaux, L
Griffith, DWT
Hannigan, JW
Hase, F
Hossaini, R
Jones, NB
Morino, I
Murata, I
Nakajima, H
Palm, M
Paton-Walsh, C
III, JMR
Schneider, M
Servais, C
Smale, D
Walker, KA
spellingShingle Mahieu, E
Chipperfield, MP
Notholt, J
Reddmann, T
Anderson, J
Bernath, PF
Blumenstock, T
Coffey, MT
Dhomse, SS
Feng, W
Franco, B
Froidevaux, L
Griffith, DWT
Hannigan, JW
Hase, F
Hossaini, R
Jones, NB
Morino, I
Murata, I
Nakajima, H
Palm, M
Paton-Walsh, C
III, JMR
Schneider, M
Servais, C
Smale, D
Walker, KA
Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes
author_facet Mahieu, E
Chipperfield, MP
Notholt, J
Reddmann, T
Anderson, J
Bernath, PF
Blumenstock, T
Coffey, MT
Dhomse, SS
Feng, W
Franco, B
Froidevaux, L
Griffith, DWT
Hannigan, JW
Hase, F
Hossaini, R
Jones, NB
Morino, I
Murata, I
Nakajima, H
Palm, M
Paton-Walsh, C
III, JMR
Schneider, M
Servais, C
Smale, D
Walker, KA
author_sort Mahieu, E
title Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes
title_short Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes
title_full Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes
title_fullStr Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes
title_full_unstemmed Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes
title_sort recent northern hemisphere stratospheric hcl increase due to atmospheric circulation changes
publisher Nature Publishing Group
publishDate 2014
url https://eprints.whiterose.ac.uk/82459/
https://doi.org/10.1038/nature13857
genre Antarc*
genre_facet Antarc*
op_relation Mahieu, E, Chipperfield, MP orcid.org/0000-0002-6803-4149 , Notholt, J et al. (24 more authors) (2014) Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes. Nature, 515 (7525). pp. 104-107. ISSN 0028-0836
op_doi https://doi.org/10.1038/nature13857
container_title Nature
container_volume 515
container_issue 7525
container_start_page 104
op_container_end_page 107
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