-
2 months ago | 
journals.ametsoc.org | Hunter Douglas |Laura Revell |Manoj Joshi |Andrew King
Share Link Copy this link, or click below to email it to a friend Email this content or copy the link directly: The link was not copied. Your current browser may not support copying via this button.
-
2 months ago | 
journals.ametsoc.org | Hunter Douglas |Laura Revell |Manoj Joshi |Andrew King
Share Link Copy this link, or click below to email it to a friend or copy the link directly: The link was not copied. Your current browser may not support copying via this button.
-
Oct 23, 2024 | 
agupubs.onlinelibrary.wiley.com | Michele Bannister |Laura Revell |Timofei Sukhodolov |Physikalisch-Meteorologisches Observatorium Davos
1 Introduction Rocket launches lofting payloads to orbit inject gases and particulates into the atmosphere, including the stratosphere (approximately 15–50 km), where the ozone layer resides. Stratospheric ozone absorbs harmful solar UV-B radiation and is thus essential for protection of the biosphere. In the troposphere, emission products are quickly removed by mixing, precipitation, and/or chemical oxidation.
-
Sep 7, 2024 | 
rnz.co.nz | Laura Revell |Dan A. Smale
By Laura Revell, Dan Smale and Richard McKenzie* of At this time of year, as the sun rises over Antarctica, a "hole" opens up in Earth's ozone layer. The ozone layer is a vital planetary boundary that protects all life on Earth from the sun's damaging ultraviolet radiation. But as our research shows, a series of unusual events in recent years caused ozone holes that lasted longer.
-
Sep 6, 2024 | 
phys.org | Laura Revell |Dan A. Smale |Richard McKenzie
At this time of year, as the sun rises over Antarctica, a "hole" opens up in Earth's ozone layer. The ozone layer is a vital planetary boundary that protects all life on Earth from the sun's damaging ultraviolet radiation.
-
Sep 5, 2024 | 
theconversation.com | Laura Revell |Dan A. Smale |Richard McKenzie
At this time of year, as the sun rises over Antarctica, a “hole” opens up in Earth’s ozone layer. The ozone layer is a vital planetary boundary that protects all life on Earth from the sun’s damaging ultraviolet radiation. But as our research shows, a series of unusual events in recent years caused ozone holes that lasted longer.
-
Apr 28, 2024 | 
phys.org | Sharon Robinson |Laura Revell |Rachele Ossola
Over the last 25 years, the ozone hole which forming over Antarctica each spring has started to shrink. But over the last four years, even as the hole has shrunk it has persisted for an unusually long time. Our new research found that instead of closing up during November it has stayed open well into December.
-
Apr 28, 2024 | 
rnz.co.nz | Sharon Robinson |Laura Revell
By Sharon Robinson, Laura Revell, Rachele Ossola* of Over the last 25 years, the ozone hole which forming over Antarctica each spring has started to shrink. But over the last four years, even as the hole has shrunk it has persisted for an unusually long time. Our new research found that instead of closing up during November it has stayed open well into December. This is early summer - the crucial period of new plant growth in coastal Antarctica and the peak breeding season for penguins and seals.
-
Apr 26, 2024 | 
thehindu.com | Rachele Ossola |Laura Revell |Sharon Robinson
Over the last 25 years, the ozone hole which forming over Antarctica each spring has started to shrink. But over the last four years, even as the hole has shrunk it has persisted for an unusually long time. Our new research found that instead of closing up during November it has stayed open well into December. This is early summer – the crucial period of new plant growth in coastal Antarctica and the peak breeding season for penguins and seals. That’s a worry.
-
Apr 25, 2024 | 
onlinelibrary.wiley.com | Sharon Robinson |Environmental Futures |Laura Revell |Roy MacKenzie
1 INTRODUCTION The stratospheric ozone layer is a vital planetary boundary that protects all life on Earth from the sun's damaging ultraviolet-B (UV-B, 280–315 nm) radiation (Richardson et al., 2023). Due to the use of chlorine- and bromine-containing halocarbons as refrigerants and solvents, severe ozone loss has occurred over Antarctica since the 1970s (Farman et al., 1985; Langematz et al., 2016).
