Tags: arctic ocean, doomsday, frozen methane, global warming, methane, siberian sea, temperature rising
Doomsday scenario goes something like this: If global temperatures keep rising, some methane hydrates will melt, sending methane gas bubbling up through the ocean and into the atmosphere. Like any good greenhouse gas, the methane will trap heat close to Earth’s surface, causing temperatures to climb even higher. Hotter temperatures will melt more hydrates, and on and on. In other words, methane hydrates could trigger the mother of all feedback loops. The story, says David Archer, a geophysicist at the University of Chicago, “has a great apocalyptic side to it.”
A section of the Arctic Ocean seafloor that holds vast stores of frozen methane is showing signs of instability and widespread venting of the powerful greenhouse gas, according to the findings of an international research team led by University of Alaska Fairbanks scientists Natalia Shakhova and Igor Semiletov.
The research results, published in the March 5 edition of the journal Science, show that the permafrost under the East Siberian Arctic Shelf, long thought to be an impermeable barrier sealing in methane, is perforated and is leaking large amounts of methane into the atmosphere. Release of even a fraction of the methane stored in the shelf could trigger abrupt climate warming.
