Researchers may have identified the missing component in the chemistry of the Venusian clouds that would explain their colour and 'splotchiness' in the UV range, solving a longstanding mystery.
Researchers may have identified the missing component in the chemistry of the Venusian clouds that would explain their colour and 'splotchiness' in the UV range, solving a longstanding mystery.
What are the clouds of Venus made of? Scientists know they are mainly made of sulfuric acid droplets, with some water, chlorine, and iron. Their concentrations vary with height in the thick and hostile Venusian atmosphere. But until now they have been unable to identify the missing component that would explain the clouds鈥 patches and streaks, only visible in the UV range.
In a published in Science Advances, researchers from the 探花直播 of Cambridge synthesised iron-bearing sulfate minerals that are stable under the harsh chemical conditions in the Venusian clouds. Spectroscopic analysis revealed that a combination of two minerals, rhomboclase and acid ferric sulfate, can explain the mysterious UV absorption feature on our neighbouring planet.
鈥 探花直播only available data for the composition of the clouds were collected by probes and revealed strange properties of the clouds that so far we have been unable to fully explain,鈥 said Paul Rimmer from the Cavendish Laboratory and co-author of the study. 鈥淚n particular, when examined under UV light, the Venusian clouds featured a specific UV absorption pattern. What elements, compounds, or minerals are responsible for such observation?鈥
Formulated on the basis of Venusian atmospheric chemistry, the team synthesised several iron-bearing sulfate minerals in an in the Department of Earth Sciences. By suspending the synthesised materials in varying concentrations of sulfuric acid and monitor the chemical and mineralogical changes, the team narrowed down the candidate minerals to rhomboclase and acid ferric sulfate, of which the spectroscopic features were examined under light sources specifically designed to mimic the spectrum of solar flares (Rimmer鈥檚 FlareLab; Cavendish Laboratory).
Researchers from Harvard 探花直播 provided measurements of the UV absorbance patterns of ferric iron under extreme acidic conditions, in an attempt to mimic the even more extreme Venusian clouds. 探花直播scientists are part of the newly-established , which promotes such collaborative projects.
鈥 探花直播patterns and level of absorption shown by the combination of these two mineral phases are consistent with the dark UV-patches observed in Venusian clouds,鈥 said co-author Clancy Zhijian Jiang, from the Department of Earth Sciences, Cambridge. 鈥淭hese targeted experiments revealed the intricate chemical network within the atmosphere, and shed light on the elemental cycling on the Venusian surface.鈥
鈥淰enus is our nearest neighbour, but it remains a mystery,鈥 said Rimmer. 鈥淲e will have a chance to learn much more about this planet in the coming years with future NASA and ESA missions set to explore its atmosphere, clouds and surface. This study prepares the grounds for these future explorations.鈥
探花直播research was supported by the Simons Foundation, and the Origins Federation.
Reference:
Clancy Zhijian Jiang et al., 鈥業ron-sulfur chemistry can explain the ultraviolet absorber in the clouds of Venus.鈥 Science Advances (2024). DOI:10.1126/sciadv.adg8826
探花直播text in this work is licensed under a . Images, including our videos, are Copyright 漏 探花直播 of Cambridge and licensors/contributors as identified. All rights reserved. We make our image and video content available in a number of ways 鈥 on our main website under its Terms and conditions, and on a range of channels including social media that permit your use and sharing of our content under their respective Terms.
