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Montreal Protocol found to delay first ice-free Arctic summer

The Montreal Protocol of 1987, a global deal to protect the ozone layer, has been found to delay the first ice-free Arctic summer by up to 15 years, according to new research. The deal, which was the first treaty to be ratified by every United Nations country, regulated nearly 100 man-made chemicals called ozone-depleting substances […]

The Montreal Protocol of 1987, a global deal to protect the ozone layer, has been found to delay the first ice-free Arctic summer by up to 15 years, according to new research.
The deal, which was the first treaty to be ratified by every United Nations country, regulated nearly 100 man-made chemicals called ozone-depleting substances (ODSs) to preserve the ozone layer, which protects humans and the environment from harmful levels of ultraviolet radiation. ODSs are compounds developed in the last century for industrial use as refrigerants and propellants.

The researchers from the University of California, Santa Cruz (US), Columbia University (US), and the University of Exeter (UK) estimated that each 1,000 metric tonnes of ODS emissions prevented saved about seven square kilometres of Arctic sea ice.
The research, published in the journal Proceedings of the National Academy of Sciences (PNAS), showed that a reduction in the ODSs, which are also potent greenhouse gases, has slowed down global warming, despite the treaty’s main aim being to preserve the ozone layer. “ODSs have particularly powerful effects in the Arctic, and they played a major role in driving Arctic climate change in the second half of the 20th century,” said England.

This study, using new climate model simulations, showed that the effects of this included delaying the first ice-free Arctic summer, currently projected to happen in the middle of this century, by up to 15 years, depending on future emissions. The study also showed that protection of the ozone layer itself played no part in slowing the loss of Arctic sea ice; all the benefits were related to the role of ODSs as greenhouse gases. The study said that this effort had succeeded, with atmospheric concentrations of ODSs declining since the mid-1990s and signs that the ozone layer had started to heal. However, with the research suggesting a slight rise in ODS concentrations from 2010–20, vigilance is still required, said England.

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