Did Greenhouse Gases Cause the Earth's Greatest Mass Extinction?

By Moises Velasquez-Manoff , Christian Science Monitor. Posted November 20, 2008.

In 1980, scientists Luis Alvarez and his son, Walter, proposed a new explanation for the dinosaurs’ disappearance 65 million years ago: a meteor strike. Initially, the idea was met with resistance. But the evidence was convincing: a sediment layer high in iridium, an element common in asteroids, was found the world over, along with a 110-mile-wide impact crater in the Yucatán of the same age. What started as a fringe idea has gone mainstream.

Now scientists are rethinking another of earth’s great die-offs. The end-Permian extinction 251 million years ago was the worst of earth’s five mass extinctions. Ninety percent of all marine life and 70 percent of terrestrial life disappeared. It took five million years, perhaps more, for the biosphere to recover.

But while the die-off was uniquely devastating, evidence of a single cataclysmic event, like an asteroid strike, hasn’t been found in the geological record. Scientists now suspect that "the mother of all mass extinctions" was of Earth’s own making. And the more they learn about it, the more parallels they see to today’s world: A bout of greenhouse-gas-induced global warming, much like today’s, set off a chain of events that culminated in oxygen-depleted oceans exhaling poison gas.

And as in today’s human-dominated earthscape, life was already stressed.

"Something came along and kicked it over the edge," says Linda Elkins-Tanton, an assistant professor of geology at the Massachusetts Institute of Technology in Cambridge, Mass. She heads a recently launched multidisci­plin­ary effort to study the extinction. "Should there be a great kick [now], we are in a position for a great die-off,"
she says.

Two hundred and fifty million years ago, Earth was emerging from a period of glaciation. The transition from icehouse to greenhouse was already stressing life, scientists think. Then magma began bursting through the crust of what is now Siberia. The eruption was tremendous, says Professor Elkins-Tanton. Over the course of maybe 1 million years, enough lava flowed to cover the continental United States half a mile deep.

The crust through which it bubbled contained vast coal and limestone deposits from an earlier time. As it burned through this fossilized organic material, it released huge amounts of carbon.

Today, by burning fossil fuels, humans are again releasing carbon sequestered long ago, and at a similarly rapid rate.

"There may be some pretty direct parallels between the end-Permian extinction and today," says Jonathan Payne, professor of geological and environmental sciences at Stanford University in Palo Alto, Calif.

The eruption and release of greenhouse gas was just the beginning. The warmer atmosphere heated the ocean surface, effectively capping the seas with a warmer layer. The result: The overturning of the ocean’s water, which keeps deep waters oxygenated, likely stopped. Deeper waters became oxygen-depleted.

See more stories tagged with: global warming, climate change, extinction

Moises Velasquez-Manoff is a staff writer of the Christian Science Monitor.

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