How the Australian wildfires devastated the ozone layer

00:47 Wildfire smoke’s chemical composition enhances ozone depletionSmoke from the devastating Australian wildfires of 2019-2020 led to a reduction in ozone levels in the upper atmosphere, but it’s been unclear how. Now, a team proposes that smoke’s particulate matter can enhance the production of ozone depleting chemicals, matching satellite observations during the Australian fires. The results spark concerns that future wildfires, which are set to grow more frequent with ongoing climate change, will undo much of the progress towards restoration of the ozone layer.Research article: Solomon et al.News & Views: How wildfires deplete ozone in the stratosphere08:27 Research HighlightsA global analysis of bats reveals the species most likely to be hunted by humans, and the stem cells that allow deer antlers to regrow.Research Highlight: Big bats fly towards extinction with hunters in pursuitResearch Highlight: Mice grow ‘mini-antlers’ thanks to deers’ speedy stem cells10:53 Modelling food systems with ‘digital twins’Recent global crises have highlighted the fragility of the interconnected systems involved in getting food from farm to fork. However, siloed datasets have made it hard to predict what the exact impacts of these events will be. In a World View for Nature, researcher Zia Mehrabi argues that precise virtual models like those used in the aerospace industry should be developed for food systems. These so-called ‘digital twins’ could inform global fo...
Source: Nature Podcast - Category: Science Authors: Source Type: podcasts