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Increase in ozone destroying substances - but Montreal Protocol on track

University Of Leeds : 08 November, 2014  (Technical Article)
Research from an international team of scientists has shown a recent increase in atmospheric hydrogen chloride (HCI), a substance linked to destruction of the ozone layer. It was anticipated that there would be a decline in HCI under the Montreal Protocol, the international treaty designed to protect the ozone layer by phasing out the production of ozone-depleting substances. The research was led by the University of Liège, Belgium, and involved scientists from Australia, Canada, Germany, Japan, New Zealand, the UK, and the USA.
The recent increase in HCl concentrations was only observed in the Northern Hemisphere, whilst in the Southern Hemisphere, HCI continues to decrease, as expected, in line with the Montreal Protocol.
Dr Emmanuel Mahieu from the University of Liège in Belgium, who led the research, explained: “It’s important to say that the Montreal Protocol is still on track, and that this is a transient reversal in the decline of HCl, which can be explained through a change in atmospheric circulation, rather than rogue emissions of ozone-depleting substances.”
The study explains that the unexpected increase is caused by a temporary but prolonged anomaly in atmospheric circulation, changing the balance between chlorofluorocarbons (CFCs) and their breakdown product HCI.
Professor Martyn Chipperfield from the University of Leeds, who led the modelling work for the study, said: “The expected deterioration of ozone-destroying chemicals in the atmosphere is certainly more complex than we had imagined. Rather than a steady decline, these findings have presented a rather more complicated picture. Through comparison with detailed computer models, we have identified this decline as temporary due to changes in upper atmospheric wind patterns, so we remain optimistic that the ozone layer will recover during the second half of the century.”
Chipperfield added: “There are natural differences in the atmosphere between the Northern and Southern Hemispheres, due to the influence of the Earth’s surface topography and slight variations in the Earth’s orbit around the Sun during the year. While atmospheric chlorine levels remain high we may see cases of large ozone depletion, especially over the polar regions”.
The findings are based on measurements by a network with stations in Spitsbergen, Greenland, Sweden, Switzerland, Japan, Tenerife, Australia and New Zealand. These are backed up by satellite observations and model simulations.
Professor Peter Bernath, from the University of York, who was also part of the international team of scientists, added: “Atmospheric variability and perhaps climate change can significantly modify the path towards full recovery and, ultimately, it will be a bumpy ride rather than a smooth evolution. The recovery of ozone-depleting chemicals in the atmosphere is a slow process and will take many decades. During this time the ozone layer remains vulnerable.”
  • Recent Northern Hemisphere stratospheric HCl increase due to atmospheric circulation changes, Nature 6 November 2014.
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