Siberia’s ‘doorway to the Underworld’ Is Getting So Big It’s Uncovering Ancient Forests

It’s no secret that Siberia’s permafrost has been on thin ice lately. Conditions are varying so much that huge holes are appearing out of nowhere, and, in some places, tundra is quite literally bubbling underneath people’s feet.

But new research has revealed that one of the biggest craters in the region, known by the local Yakutian people as the ‘doorway to the underworld’, is growing so rapidly that it’s uncovering long-buried forests, carcasses, and up to 200,000 years of historical climate records.

Known as the Batagaika crater, it’s what’s officially called a ‘megaslump’ or ‘thermokarst’.

Many of these megaslumps have been appearing across Siberia in recent years, but researchers think Batagaika could be something of an anomaly in the region, located around 660 km (410 miles) north-east of the region’s capital city of Yakutsk.

Not only is the crater already the largest of its kind, almost 1 km (0.6 miles) long and 86 metres (282 feet) deep, but it’s getting bigger all the time.

Doorway

Research presented last year by Frank Günther from the Alfred Wegener Institute in Germany revealed that the head wall of the crater has grown by an average of 10 meters (33 feet) per year over the past decade of observations. And in warmer years, the growth has been up to 30 meters (98 feet) per year.

The team also suspects that the side wall of the crater will reach a neighbouring valley in the coming months as temperatures heat up in the Northern Hemisphere, which could lead to even more land collapse.

“On average over many years, we have seen that there’s not so much acceleration or deceleration of these rates, it’s continuously growing,” Günther told Melissa Hogenboom from the BBC. “And continuous growth means that the crater gets deeper and deeper every year.”

That’s not great news for climate change. The crater formation first started after a large chunk of forest was cleared nearby in the 1960s.

Because the ground was no longer shaded in the warm, summer months, it heated up more rapidly than it had in the past, eventually causing the permafrost to melt and the ground to collapse. Major flooding in 2008 made the melting even worse, and contributed to the size of the crater.

Doorway

The research was led by Julian Murton from the University of Sussex, who says the exposed sediment could be useful for understanding how the climate of Siberia changed in the past, and predicting how it will change in the future.

While most of the planet went through periods of cooling and warming over the past 200,000 years, the climate history of Siberia is vastly unknown.

But according to Murton, the last time Siberia saw this kind of slumping occur was around 10,000 years ago, as Earth transitioned out of its last Ice Age.

And today greenhouse gas levels in our atmosphere are much higher than they were back then – we’re now at 400 parts per million CO2, compared to 280 parts per million when the last Ice Age ended.

“The Batagaika site contains a remarkably thick sequence of permafrost deposits, which include two wood-rich layers interpreted as forest beds that indicate past climates about as warm or warmer than today’s climate,” Murton told Sarah Emerson over at Motherboard last year.

“The upper forest bed overlies an old land surface that was eroded, probably when permafrost thawed in a past episode of climate warming.”

If the researchers can use this information to understand exactly what happened to Siberia last time the permafrost melted, we might be able to better prepare for when it happens again.

But there’s more research that needs to be done – the exact dates of the sediment that have been exposed in the crater still aren’t known, Murton told Hogenboom.

He’s now planning to drill bore holes in the region to analyse more sediment and get a more accurate understanding of what happened in the past.

“Ultimately, we’re trying to see if climate change during the last Ice Age [in Siberia] was characterised by a lot of variability: warming and cooling, warming and cooling as occurred in the North Atlantic region,” says Murton.

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