<p>The smoke from recent wildfires is threatening to slow and even reverse the recovery of Earth's ozone layer, according to a study.</p>.<p>Ozone layer is the protective cover shielding the Earth from the Sun's damaging ultraviolet radiation.</p>.<p>Researchers from the Massachusetts Institute of Technology (MIT) in the US noted that a wildfire can pump smoke up into the stratosphere, where the particles drift for over a year.</p>.<p><strong>Also Read: <a href="https://www.deccanherald.com/science-and-environment/winter-rains-throttled-by-global-warming-study-1199055.html" target="_blank">Winter rains throttled by global warming: Study</a></strong></p>.<p>While suspended there, these particles can trigger chemical reactions that erode the ozone layer.</p>.<p>The study, published in the journal Nature, focused on the smoke from the “Black Summer” megafire in eastern Australia, which burned from December 2019 into January 2020.</p>.<p>The fires -- the country's most devastating on record -- scorched tens of millions of acres and pumped more than one million tonnes of smoke into the atmosphere.</p>.<p>The researchers identified a new chemical reaction by which smoke particles from the Australian wildfires made ozone depletion worse.</p>.<p>By triggering this reaction, the fires likely contributed to a 3-5 per cent depletion of total ozone at mid-latitudes in the Southern Hemisphere, in regions overlying Australia, New Zealand, and parts of Africa and South America.</p>.<p>The researchers' model also indicates the fires had an effect in the polar regions, eating away at the edges of the ozone hole over Antarctica.</p>.<p><strong>Also Read: <a href="https://www.deccanherald.com/science-and-environment/nearly-everyone-globally-exposed-to-unhealthy-levels-of-tiny-air-pollutants-lancet-study-1197989.html" target="_blank">Nearly everyone globally exposed to unhealthy levels of tiny air pollutants: Lancet study</a></strong></p>.<p>By late 2020, smoke particles from the Australian wildfires widened the Antarctic ozone hole by 2.5 million square kilometers -- 10 per cent of its area compared to the previous year, the researchers said.</p>.<p>It is unclear what long-term effect wildfires will have on ozone recovery, they said.</p>.<p>The United Nations recently reported that the ozone hole, and ozone depletion around the world, is on a recovery track, thanks to a sustained international effort to phase out ozone-depleting chemicals.</p>.<p>However, the latest study suggests that as long as these chemicals persist in the atmosphere, large fires could spark a reaction that temporarily depletes ozone.</p>.<p>"The Australian fires of 2020 were really a wake-up call for the science community,” said Susan Solomon, a professor at MIT.</p>.<p>"The effect of wildfires was not previously accounted for in [projections of] ozone recovery. And I think that effect may depend on whether fires become more frequent and intense as the planet warms," Solomon added.</p>
<p>The smoke from recent wildfires is threatening to slow and even reverse the recovery of Earth's ozone layer, according to a study.</p>.<p>Ozone layer is the protective cover shielding the Earth from the Sun's damaging ultraviolet radiation.</p>.<p>Researchers from the Massachusetts Institute of Technology (MIT) in the US noted that a wildfire can pump smoke up into the stratosphere, where the particles drift for over a year.</p>.<p><strong>Also Read: <a href="https://www.deccanherald.com/science-and-environment/winter-rains-throttled-by-global-warming-study-1199055.html" target="_blank">Winter rains throttled by global warming: Study</a></strong></p>.<p>While suspended there, these particles can trigger chemical reactions that erode the ozone layer.</p>.<p>The study, published in the journal Nature, focused on the smoke from the “Black Summer” megafire in eastern Australia, which burned from December 2019 into January 2020.</p>.<p>The fires -- the country's most devastating on record -- scorched tens of millions of acres and pumped more than one million tonnes of smoke into the atmosphere.</p>.<p>The researchers identified a new chemical reaction by which smoke particles from the Australian wildfires made ozone depletion worse.</p>.<p>By triggering this reaction, the fires likely contributed to a 3-5 per cent depletion of total ozone at mid-latitudes in the Southern Hemisphere, in regions overlying Australia, New Zealand, and parts of Africa and South America.</p>.<p>The researchers' model also indicates the fires had an effect in the polar regions, eating away at the edges of the ozone hole over Antarctica.</p>.<p><strong>Also Read: <a href="https://www.deccanherald.com/science-and-environment/nearly-everyone-globally-exposed-to-unhealthy-levels-of-tiny-air-pollutants-lancet-study-1197989.html" target="_blank">Nearly everyone globally exposed to unhealthy levels of tiny air pollutants: Lancet study</a></strong></p>.<p>By late 2020, smoke particles from the Australian wildfires widened the Antarctic ozone hole by 2.5 million square kilometers -- 10 per cent of its area compared to the previous year, the researchers said.</p>.<p>It is unclear what long-term effect wildfires will have on ozone recovery, they said.</p>.<p>The United Nations recently reported that the ozone hole, and ozone depletion around the world, is on a recovery track, thanks to a sustained international effort to phase out ozone-depleting chemicals.</p>.<p>However, the latest study suggests that as long as these chemicals persist in the atmosphere, large fires could spark a reaction that temporarily depletes ozone.</p>.<p>"The Australian fires of 2020 were really a wake-up call for the science community,” said Susan Solomon, a professor at MIT.</p>.<p>"The effect of wildfires was not previously accounted for in [projections of] ozone recovery. And I think that effect may depend on whether fires become more frequent and intense as the planet warms," Solomon added.</p>