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Large, deep Antarctic Ozone Hole persisting into November by Theo Stein for NOAA News Washington DC (SPX) Nov 02, 2020
Persistent cold temperatures and strong circumpolar winds, also known as the polar vortex, supported the formation of a large and deep Antarctic ozone hole that should persist into November, NOAA and NASA scientists reported Friday. The annual Antarctic ozone hole reached its peak size at about 9.6 million square miles (24.8 million square kilometers), roughly three times the area of the continental United States, on Sept. 20. Observations revealed the nearly complete elimination of ozone in a 4-mile-high column of the stratosphere over the South Pole.
Where 2020's Ozone Hole Ranks "From the year 2000 peak, Antarctic stratosphere chlorine and bromine levels have fallen about 16% towards the natural level," said Paul A. Newman, chief scientist for Earth Sciences at NASA's Goddard Space Flight Center in Greenbelt, Maryland. "We have a long way to go, but that improvement made a big difference this year. The hole would have been about a million square miles larger if there was still as much chlorine in the stratosphere as there was in 2000."
What is the Ozone Hole and Why Does it Matter? The Antarctic ozone hole forms during the Southern Hemisphere's late winter as the returning Sun's rays start ozone-depleting reactions. Cold winter temperatures persisting into the spring enable the ozone depletion process, which is why the "hole" forms over Antarctica. These reactions involve chemically active forms of chlorine and bromine derived from man-made compounds. The chemistry that leads to their formation involves chemical reactions that occur on the surfaces of cloud particles that form in cold stratospheric layers, leading ultimately to runaway reactions that destroy ozone molecules. In warmer temperatures fewer polar stratospheric clouds form and they don't persist as long, limiting the ozone-depletion process.
How NASA and NOAA Measure Ozone The Aura satellite's Microwave Limb Sounder also measures both ozone and certain chlorine-containing gases, providing estimates of total chlorine levels in the stratosphere. NOAA scientists monitor the thickness of the ozone layer and the amount of ozone depletion-how little is left-inside of the hole. They regularly release weather balloons carrying ozone-measuring "sondes" above the South Pole that ascend up to 21 miles in altitude, and, once sunshine returns to the Antarctic after the long polar night, with a ground-based instrument called a Dobson spectrophotometer. This year on Oct. 1, ozone measurements taken by instruments carried aloft by weather balloons from NOAA's South Pole atmospheric observatory recorded a low value of 104 Dobson units. NASA's Ozone Watch reported the lowest daily value for 2020 from satellite measurements was 94 Dobson Units on Oct. 6 over Antarctica. Bryan Johnson, a scientist with NOAA's Global Monitoring Lab, said scientists focus on the stratosphere between 8 and 13 miles in altitude, which is where major depletion occurs. In late October, ozone levels in the key altitude range remained close to record lows. "It's about as close to zero as we can measure," Johnson said. Still, he said, the rate at which ozone declined in September has slowed compared with 20 years ago, which is consistent with there being less chlorine in the atmosphere.
Ozone levels across Northern Hemisphere have been rising for 20 years Washington DC (UPI) Aug 21, 2020 While emission levels for ozone-forming chemicals have fallen in some North American cities, new research suggests tropospheric ozone levels have increased across the Northern Hemisphere over the last 20 years. In the upper layers of the atmosphere, the ozone layer helps protect Earth and its inhabitants from harmful ultraviolet radiation. But closer to Earth's surface, ozone causes problems. In addition to accelerating climate change, the greenhouse gas can harm people's lungs and damag ... read more
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