Methane from the deep could be a significant feedback mechanism in climate change. As oil and gas companies well know, many hydrocarbon deposits lie beneath the sea floor. Over geologic time scales, some oil and gas (primarily methane, CH4) deposits can slowly seep through cracks in the sedimentary rock and reach the ocean floor, where buoyancy takes over. The ensuing natural oil slick on the ocean’s surface then degrades through both bacterial action and evaporation of the volatile chemicals. What’s left is a tar residue that sinks back to the ocean floor. This chain of events inspired a team of Earth scientists to examine sea-floor cores, drilled off the coast of California, for deposits of tarry sand as a proxy for CH4 release. They found several episodes of enhanced CH4 emission in Earth’s history, notably from 16 000 to 14 000 years ago and from 11...

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