Whether you're a John Carpenter fan or a biology enthusiast, you shouldn't need much convincing to know that the melting of subterranean permafrost at the poles is not a good thing.
Last year, scientists gave us one more thing to lose sleep over, reviving a 48,500-year-old 'zombie virus' unearthed from Arctic permafrost – and it was not the first time. It's one more sting in the tail of climate change – the threat of ancient diseases that have lain frozen and dormant for millennia.
Now, new research has detailed the rate at which Siberia's massive Batagaika crater is devouring the surface of the Earth, expanding at a rate of 35 million cubic feet each year. Currently, it measures around 1 km (0.6 mi) long and 800 m (0.5 mi) across at its widest point. And it's speeding up.
Batagaika crater, located in the Chersky Range in northeastern Siberia, is not actually a crater but a thermokarst depression – a kind of sinkhole or 'mega-slump' driven by the collapse and fracturing of land due to permafrost loss. It was only discovered in 1991, after this underground opening split further and took with it a large section of hillside.
Permafrost, despite its name, is not actually permanent; it's essentially ground that's remained at 32°F (0°C) or colder for more than two years. A quarter of the Northern Hemisphere's land surface is made up of this rock-hard frozen dirt that can vary between a a few feet deep to almost a mile.
So why is Batagaika – which is in a fairly remote area of Siberia – causing such alarm? Its rapid expansion is now fueled by warming air temperatures, which has set off a positive feedback loop that's unlikely to slow down as long as there's ice to thaw.
When the permafrost layer degrades, or melts, it goes from concrete consistency to a muddy mass, which is unable to support the vegetation on the surface. As the edges of the expanse collapse into it, the ground loses the canopies of trees shielding it from the sun (and heat). At this point, newly-exposed organic matter, no longer preserved in ice, breaks down and releases carbon into the atmosphere to further fuel atmospheric warming. This, of course, results in increasingly more permafrost loss. More of this article (New Atlas) - link - more like this (thawing permafrost) - link
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