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ASU team searching for signs of life in the stars
by Staff Writers
Tempe AZ (SPX) Apr 27, 2015

Professor Steve Desch is principal investigator of an ASU-centered team that is one of 16 teams funded by a new NASA research coordination network, the Nexus for Exoplanet System Science. The team will focus on understanding the geochemical cycles on exoplanets with different chemical compositions. Image courtesy Andy DeLisle. For a larger version of this image please go here.

For centuries, humans have sought to learn whether life exists beyond Earth. That answer is closer than ever to fulfillment, and an ASU team is working on a key part of that quest with NASA's backing.

Thousands of exoplanets (planets around other stars) have been discovered in the past decade, and the next decade likely will bring advances in detecting possible signs of life. One way of doing that is looking at the atmospheric makeup of these planets: Do oxygen or methane - gases that on Earth arise from the action of life - exist there, and are they in fact indicative of life?

"In the field of exoplanets, finding exoplanets that could host life is no longer the goal. The quest is to find the signatures of life," said Steve Desch, an associate professor in the School of Earth and Space Exploration. "To do that we need to know for which types of exoplanets are oxygen and methane biosignatures, as opposed to natural geochemical outcomes.

"ASU's strengths lie in bringing together experts across astronomy and geology to answer just these sorts of interdisciplinary questions."

Desch is principal investigator of an ASU-centered team that is one of 16 teams funded by a new NASA research coordination network, the Nexus for Exoplanet System Science (NExSS). It will receive $6.1 million over five years to investigate the connections between exoplanets and the compositions of their host stars, and especially to focus on understanding the geochemical cycles on exoplanets with different chemical compositions.

NASA's new network is part of its Astrobiology program. NExSS includes planetary scientists, astrophysicists and heliophysicists who will carry out research to help NASA define future space missions, determine target selection and craft observing strategies, to aid in the characterization of exoplanets and the search for life on them. It is distinct from the NASA Astrobiology Institute, the program that has previously funded astrobiology research at ASU as far back as 1998.

Under the direction of Desch, the present research team brings geophysicists, petrologists and geochemists into the fold of exoplanet research, which has so far been dominated by the astrophysicists and astronomers who discover and characterize exoplanets.

Broad collaborations across disciplines, like the one to be carried out at ASU, are relatively new in the rapidly changing field of exoplanets.

"When I started graduate school a little over 20 years ago," Desch said, "no exoplanets were known. Today, we know of thousands, with about a dozen orbiting within their star's habitable zones. ... Twenty years from now, we could be talking about known planets with evidence of life. The pace of discovery leaves me in awe."

Just as the Kepler mission found thousands of exoplanets that transit their host stars (pass between us and the star), NASA's Transiting Exoplanet Survey Satellite will be launched in 2017 with the hopes of discovering thousands more among the closest stars. The James Webb Space Telescope, to be launched in 2018, will measure the infrared spectrum of starlight that passes through the atmospheres of some of these transiting exoplanets, discerning what gases are present.

"Absorption of starlight by oxygen and methane could be detected by space telescopes, and will be looked for, because on Earth they are produced overwhelmingly by life," Desch said. "But exoplanets won't be like Earth. Stars have different chemical abundances, and their planets should, too.

"On a planet with different chemistry, it may be methane is produced naturally by water-rock interactions, or oxygen is produced abiotically. To judge whether these are valid biosignature gases, we have to understand the geochemical cycles on exoplanets with compositions different from Earth's."

To understand those cycles, the team will pursue a multifaceted approach combining astronomical observations, astrophysical and geochemical modeling, and geophysical and geochemical laboratory experiments. They will also conduct biological field studies to better understand how the methane cycle works on Earth, and possibly elsewhere.

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Mountain View CA (SPX) Apr 27, 2015
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