Grotzinger ’79, S.D. ’13 on Methane on Mars – Hobart and William Smith Colleges \
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Grotzinger ’79, S.D. ’13 on Methane on Mars

John Grotzinger ’79, S.D.’13, the mission leader and project scientist in charge of the Mars Science Laboratory, was quoted in a recent New York Times article detailing the findings of methane and carbon-based organic molecules on Mars.

“Scientists have just two possible explanations for the methane. One is that it is the waste product of certain living microbes,” the article notes.

Grotzinger says, “It is one of the few hypotheses that we can propose that we must consider as we go forward.”

The carbon-based molecules, the article explains, “are not direct signs of life, past or present, but they lend weight to the possibility that Mars had the ingredients required for life, and may even still have them.”

“In part, Curiosity was built to explore for organics,” Grotzinger says, “and we found them.”

Grotzinger is the Fletcher Jones Professor of Geology at the California Institute of Technology. He is an eminent sedimentologist and stratigrapher with wide-ranging interests in sedimentary processes, geobiology, and Earth’s early history. He previously served as the Shrock Professor of Earth Sciences and director of the Earth Resources Laboratory at M.I.T. There, Grotzinger researched and investigated the spontaneous burst of life that spawned the early ancestors of all animals, otherwise known as the Cambrian Explosion, which remains one of the most debated and mysterious topics in evolutionary biology. He applied his theories of evolution to the study of Mars and developed digital mapping techniques that allow him and his colleagues to study Martian geology for signs of life.

He has been elected into the National Academy of Sciences, one of the highest honors that can be accorded a U.S. scientist. He has also been awarded the National Science Foundation Young Investigator Award, the Fred Donath Medal from the Geological Society of America, the Henno Martin Medal from the Geological Society of Namibia, and the Charles Doolittle Walcott Medal by the National Academy of Sciences. He was also awarded NASA’s Outstanding Public Leadership Medal in recognition of the Curiosity rover mission’s success, and his work on that project led Popular Mechanics to list him among its 10 Innovators Who Changed the World in 2013.

At Hobart, Grotzinger earned a B.S. in geoscience. He earned an M.S. from the University of Montana and a Ph.D. from Virginia Polytechnic Institute and State University. He returned to the Colleges as a Druid lecturer in 1996.

The Colleges recognized Grotzinger with an honorary degree at the 2013 Commencement Ceremony.

The full article is online and follows.

The New York Times
‘A Great Moment’: Rover Finds Methane, a Clue That Mars May Harbor Life

Kenneth Chang • December 16, 2014

SAN FRANCISCO – Life on Mars? Today? The notion may not be so far-fetched after all.

A year after reporting that NASA’s Curiosity rover had found no evidence of methane gas on Mars, all but dashing hopes that organisms might be living there now, scientists reversed themselves on Tuesday.

Curiosity has now recorded a burst of methane that lasted at least two months.

For now, scientists have just two possible explanations for the methane. One is that it is the waste product of certain living microbes.

“It is one of the few hypotheses that we can propose that we must consider as we go forward,” said John P. Grotzinger, the mission’s project scientist.

The scientists also reported that for the first time, they had confirmed the presence of carbon-based organic molecules in a rock sample. The so-called organics are not direct signs of life, past or present, but they lend weight to the possibility that Mars had the ingredients required for life, and may even still have them.

“This is really a great moment for the mission,” Dr. Grotzinger told a news conference here at the fall meeting of the American Geophysical Union.

The presence of methane is significant because the gas cannot exist for long. Calculations indicate that sunlight and chemical reactions in the Martian atmosphere would break up the molecules within a few hundred years, so any methane there now must have been created recently.

It could have been created by a geological process known as serpentinization, which requires both heat and liquid water. Or it could be a product of life in the form of microbes known as methanogens, which release methane as a waste product.

Even if the explanation for the methane turns out to be geological, the hydrothermal systems would still be prime locations to search for signs of life.

Scientists have always expected that some tiny amount of methane would be found on Mars. Cosmic dust falling on the planet contains organic compounds that are broken up by ultraviolet light from the sun, producing methane.

But the new findings, which are described in detail in a paper this week in the journal Science, are a 180-degree flip from a year ago, when mission scientists said that Curiosity had found no signs of methane, placing an upper limit of 1.3 parts per billion by volume.

Since then, the scientists refined their measurements, detecting a background level of 0.7 parts per billion. That is half of what was predicted, raising another mystery that somehow methane is also being destroyed.

But in November 2013, two months after the scientists reported the absence of methane on Mars, the rover measured methane levels 10 times as high. “It was an ‘oh my gosh’ moment,” said Christopher R. Webster of the NASA Jet Propulsion Laboratory, the lead author of the Science paper.

The methane levels stayed high through at least the end of January. They subsequently fell, to less than one part per billion.

An earlier measurement in July had also been high, although it dropped by half a week later, and the margin of error made it unclear what was going on. Curiosity made no methane measurements between July and November 2013.

Sushil K. Atreya of the University of Michigan, a member of the science team, said it was possible that elevated methane levels lasted from July through January. “It could have been over six months,” he said, “but we don’t know that.”

Given its quick appearance and quick disappearance, the newly discovered methane was a relatively small burst, mission scientists suspect.

A decade ago, three teams of scientists reported that they had detected methane in the Martian atmosphere – two using observations from Earth, one using the European Space Agency’s Mars Express orbiter.

All of the measurements were at the edge of the instruments’ capabilities, and the methane appeared to disappear two years later. If true, that meant not only that was something creating methane on Mars, but also that something else was quickly destroying it.

Many Mars scientists decided that a simpler solution to the methane mystery was that the measurements were mistaken, a conclusion bolstered by the absence reported by the Curiosity team last year.

Now, Dr. Grotzinger said, “It’s back on the table.”

Michael J. Mumma of NASA’s Goddard Space Flight Center in Greenbelt, Md., who led one of the teams that reported much larger methane plumes in the Mars atmosphere in 2003 based on measurements from Earth – and has found no methane since 2005 – said the new data was “pleasant” after years of doubts from critics.

The new Curiosity measurements “confirmed this startling reality that methane is being released, sporadically, and it is being destroyed quickly,” he said. “Both events are surprising.”

As for the organic molecules, they showed up in a mudstone nicknamed Cumberland that Curiosity drilled in May 2013.

Within Curiosity is a miniature chemistry laboratory that detected significant amounts of the organic molecule chlorobenzene, in much higher concentrations than had been seen in other rocks it had examined.

Scientists spent months analyzing whether the organic compounds came from Cumberland or contamination Curiosity had brought from Earth.

“You don’t want to be faked out,” Dr. Grotzinger said.

The scientists are still unsure whether Cumberland contained chlorobenzene, which is not a naturally occurring compound on Earth, or if that was the end product of chemical reactions involving other organic molecules in the rock as it was heated. But they convinced themselves that the organic carbon is Martian.

“In part, Curiosity was built to explore for organics,” Dr. Grotzinger said, “and we found them.”