Ancient ‘Snowball Earth’ thawed out in a flash
Mais de meio bilhão de anos atrás, nosso planeta era uma gigantesca bola de neve no espaço. As geleiras cobriram o globo todo até o equador em um dos misteriosos eventos "Snowball Earth" que os geólogos pensam que ocorreram pelo menos duas vezes no passado antigo da Terra. Agora, os cientistas descobriram que o episódio final da bola de neve provavelmente terminou em um piscar de olhos há cerca de 635 milhões de anos - um evento geologicamente rápido que pode ter implicações para o aquecimento global impulsionado pelo ser humano de hoje.
The ice, which built up over several thousand years,
“melted in no more than 1 million years,” says Shuhai Xiao, a
paleobiologist at Virginia Polytechnic Institute and State University in
Blacksburg who was part of the team that made the discovery. That’s the
blink of an eye in our planet’s 4.56-billion-year history, suggesting
the globe reached a sudden tipping point, Xiao says. Although the team
doesn’t know for certain what caused it, carbon dioxide emitted by
ancient volcanoes may have triggered a greenhouse event, causing the ice
sheets to thaw rapidly.
To shine light on the pace of deglaciation, Xiao and colleagues dated
volcanic rocks from southern China’s Yunnan province. These were
embedded below another kind of rock called a cap carbonate—unique
deposits of limestone and dolostone that formed during Snowball Earth’s
shutdown in response to high levels of carbon dioxide in the atmosphere.
Using radiometric dating techniques, the team found the volcanic rocks
were 634.6 million years old, give or take about 880,000 years. Alone,
this single new date couldn’t reveal the speed at which the melting
happened. But in 2005, a different team of scientists dated volcanic
rocks from above a similar cap at a different location—in
China’s Guizhou province. They were dated to 635.2 million years, give
or take 570,000 years.
Together, the two samples suggest the melting event was a quick thaw of about 1 million years, Xiao and his colleagues wrote last month in Geology.
The key, Xiao explains, is that these two dates are far more precise
than those of past samples, with error bars of less than 1 million
years. Those error bars essentially bracket the period in which the cap
carbonates formed—and, thus, bound the period of the final Snowball
Earth thawing event. Because previously discovered samples have error
bars of several million years or more, Xiao says these new dates are the
first that can be used to calculate the pace of melting with any
certainty.
However, because the two new samples come from southern China, they
don’t paint a global picture of the ancient thaw, says Carol Dehler, a
geologist at Utah State University in Logan. To do that, scientists
would need to find datable volcanic rocks from other parts of the world,
which are about “as common as unicorns,” she jokes. But, she adds, they
might be out there “waiting to be discovered.”
Meanwhile, understanding the nature of these ancient glaciations
could help scientists dealing with climate change today: “I think one of
the biggest messages that Snowball Earth can send humanity,” Dehler
says, “is that it shows the Earth’s capabilities to change in extreme
ways on short and longer time scales.”
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