Deep squeeze: experiments point to methane in Earth's mantle.

Although today's fossil fuel reserves reside in Earth's crust, a new study suggests that hydrocarbon fuel might also nestle in the mantle, at depths of 100 kilometers or more. Determining whether fossil fuels can form in these extreme environments could not only point to new energy sources but also open a new avenue for origin-of-life researchers.

Commercial oil and gas rescues originate strictly from the breakdown of plants and animals Plants and Animals are a Canadian indie-rock band from Montreal, comprised of guitarist-vocalists Warren Spicer and Nic Basque, and drummer-vocalist Matthew Woodley.^[1] They are signed to Secret City Records. , according to most scientists. Recently, however, geologists have shown that hydrocarbons such as methane--the main component of natural gas--can form in Earth's crust abiogenically, or in the absence of once-living matter. These scientists have speculated that this same abiogenie process might give rise to methane in the mantle.

Henry Scott of Indiana University South Bend and his colleagues decided to test the theory by simulating the extreme heat and pressure of Earth's upper mantle. Using a small anvil with diamond jaws, the researchers squeezed a mixture of iron oxide, calcite calcite (kăl`sīt), very widely distributed mineral, commonly white or colorless, but appearing in a great variety of colors owing to impurities. , and water inside the tool's microscopic chamber. After increasing the pressure to 5 gigapascals--50,000 times the air pressure at sea level--the researchers heated the material to temperatures between 500[degrees] and 1,500[degrees]C.

"Sure enough, methane had formed," says Scott. Spectroscopic spec·tro·scope
n.
An instrument for producing and observing spectra.

spectro·scop and X-ray analyses confirmed the presence of methane in the chamber, the group reports in an upcoming Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. .

Although excited by the findings, Scott is quick to point out that scientists have no way yet to say how much methane, if any, is present in the mantle.

Still, he says, the idea that hydrocarbon fuels could form in the mantle and rise to Earth's surface is compelling. "If you think about what volume of the planet is represented by the crust, it's not that much," says Scott. However, when one considers the size of the mantle in terms of storing fossil fuels, "that's a significant fraction of the planet's volume," he says.

Barbara Sherwood Lollar, a geologist at the University of Toronto Research at the University of Toronto has been responsible for the world's first electronic heart pacemaker, artificial larynx, single-lung transplant, nerve transplant, artificial pancreas, chemical laser, G-suit, the first practical electron microscope, the first cloning of T-cells, , says the new study provides "excellent scientific evidence" of the formation of abiogenic a·bi·o·gen·ic
adj.
Not produced by living organisms.

abi·o·gen hydrocarbons in the mantle. However, she's skeptical that these hydrocarbons could accumulate in the mantle in volumes that would be economically important. She also points out that abiogenic hydrocarbons in Earth's crust aren't a significant component of the world's usable oil and gas reserves.

On the other hand, the new diamond-anvil study could have huge implications for understanding the origin of life on Earth and, possibly, other planets, says Sherwood Lollar. Given that some bacteria feed off of methane, its formation below Earth's surface could help explain how microorganisms subsist sub·sist
v. sub·sist·ed, sub·sist·ing, sub·sists

v.intr.
1.
a. To exist; be.

b. To remain or continue in existence.

2. in extreme environments. As scientists look for evidence of life on Mars Scientists have long speculated about the possibility of life on Mars owing to the planet's proximity and similarity to Earth. It remains an open question whether life exists on Mars now, or existed there in the past. , a search for methane below that planet's surface could offer some valuable clues.

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Title Annotation:	This Week
Author:	Goho, A.
Publication:	Science News
Geographic Code:	1USA
Date:	Sep 25, 2004
Words:	460
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Topics:	Earth Mantle Natural resources Research Hydrocarbon fuels Discovery and exploration Reports Mantle (Geology) Natural resources Research

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