Usually, the smoke of a volcano – and in particular the sulphur dioxide contained inside the smoke cloud – ultimately leads to a cooling of Earth's surface for a short period.
This is because the sulphur dioxide transforms into sulphate aerosols, which send sunlight back into space before it reaches the surface. This shading effect means the surface cools down for a while, until the sulphate falls back down to the surface or gets rained out.
This is not what happened for Hunga Tonga.
Because it was an underwater volcano, Hunga Tonga produced little smoke, but a lot of water vapor: 100–150 million tonnes, or the equivalent of 60,000 Olympic swimming pools. The enormous heat of the eruption transformed huge amounts of sea water into steam, which then shot high into the atmosphere with the force of the eruption.
All that water ended up in the stratosphere: a layer of the atmosphere between about 15 and 40 kilometers above the surface, which produces neither clouds nor rain because it is too dry.
Water vapour in the stratosphere has two main effects. One, it helps in the chemical reactions which destroy the ozone layer, and two, it is a very potent greenhouse gas.
There is no precedent in our observations of volcanic eruptions to know what all that water would do to our climate, and for how long. This is because the only way to measure water vapour in the entire stratosphere is via satellites. These only exist since 1979, and there hasn't been an eruption similar to Hunga Tonga in that time.
What happens to the salt that was in the seawater when it got vaporised?
When you evaporate water, the salt stays behind because it can't evaporate at those temperatures, so the oceans get a tiny little bit saltier (until the water vapor settles back in the lower atmosphere and eventually ends up back in the ocean).
Shit.
Very interesting article but the advertisements in that page are an abomination!
Fascinating. I wish I could read the paper (RIP sci hub) but the article and the abstract are quite thought provoking.
Thanks! You're the real MVP.
Earth, Environment, and Geosciences
Welcome to c/EarthScience @ Mander.xyz!
Notice Board
This is a work in progress, please don't mind the mess.
- 2023-06-13: We are looking for mods. Send a dm to @fossilesque@mander.xyz if interested!
What is geoscience?
Geoscience (also called Earth Science) is the study of Earth. Geoscience includes so much more than rocks and volcanoes, it studies the processes that form and shape Earth's surface, the natural resources we use, and how water and ecosystems are interconnected. Geoscience uses tools and techniques from other science fields as well, such as chemistry, physics, biology, and math! Read more...
Quick Facts
Rules
- Don't throw mud. Be kind and remember the human.
- Keep it rooted (on topic).
- No spam.
Jobs
Teaching Resources
Tools
- GitHub - RichardScottOZ/mineral-exploration-machine-learning: List of resources for mineral exploration and machine learning, generally with useful code and examples.
Climate
Similar Communities
- !openscience@lemmy.ml
- !reclamation@slrpnk.net
- !geology@lemmy.ca
- !geophysics@lemmy.ca
- !geologycareers@lemmy.ca
- !mining@lemmy.ca
Sister Communities
Science and Research
Biology and Life Sciences
- !anthropology@mander.xyz
- !microbiology@mander.xyz
- !biodiversity@mander.xyz
- !palaeoecology@mander.xyz
- !palaeontology@mander.xyz
Plants & Gardening
Physical Sciences
Humanities and Social Sciences
- !archaeology@mander.xyz
- !cooking@mander.xyz
- !folklore@mander.xyz
- !history@mander.xyz
- !old_maps@mander.xyz