Natural gas released by bacteria beneath ice sheets might have contributed to ancient global warming

January 27th, 2008 - 1:16 pm ICT by admin  

A file-photo of University of Massachusetts

Washington, Jan 27 (ANI): A new study by geoscientists has suggested that the release of natural gas by carbon-hungry bacteria trapped deep in the rock beneath ice sheets contributed to global warming observed during the ice age.

The study also helps explain high levels of methane in the atmosphere that occurred between ice ages, a trend recorded in ice cores taken from Greenland and Antarctica.

According to Steven Petsch, a geoscientist at the University of Massachusetts Amherst and the author of the study, natural gas, which is mostly methane, was released from the shale into the atmosphere.

“Bacteria digested the carbon in the rocks and made large amounts of natural gas in a relatively short time, tens of thousands of years instead of millions,” said Petsch.

“This suggests that it may be possible to seed carbon-rich environments with bacteria to create natural gas reservoirs,” he added.

Petsch used the chemistry of water and rock samples from the Antrim shale, which sits like a bowl beneath northern Michigan in the US, to recreate the past.

For most of its history, the Antrim Shale contained water that was too salty to allow bacteria to grow.

But areas rich in natural gas showed an influx of fresh water that was chemically different from modern rainfall. “This water, which is similar to meltwater from glaciers formed during the ice age, was injected into the rock by the pressure of the overlying ice sheets,” said Petsch.

Glacial meltwater diluted the salt water already present in the shale, allowing the bacteria to thrive and quickly digest available carbon. The natural gas they produced was chemically similar to the surrounding water and had a unique carbon chemistry that proved its bacterial origin.

According to the study, at least 75 percent of the gas was released into the atmosphere as the ice sheets retreated, adding to methane from other sources such as tropical wetlands.

While methane from the Antrim Shale accounts for a small fraction of the rise in methane observed between ice ages, there are many natural gas deposits that were formed in the same geologic setting. The cumulative effect may have caused large emissions of methane to the atmosphere.

Klaus Nusslein of the UMass Amherst microbiology department analyzed DNA from water samples and identified bacteria capable of breaking down hydrocarbons in the rock. Other microbes were present that produced methane from the break-down products.

Both of these groups can live without oxygen.

Identifying and studying the needs of these microbes, which are capable of living deep in the Earth, is an important step in creating new natural gas reserves. (ANI)

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