UC Santa Barbara researcher tapped by Europeans for design of instrument to test soil on Mars

December 13, 2005

(Santa Barbara, Calif.) -- The European Space Agency (ESA) announced today support of a new program that will include development of an instrument for testing deep soil samples on Mars in a European mission called ExoMars. A researcher at the University of California, Santa Barbara will direct the development of the instrument.

"We are very excited about this," said Luann Becker, research scientist with the Institute of Crustal Studies at UC Santa Barbara. "It's a once-in-a-lifetime opportunity." Testing by the two NASA rovers that are currently operating on Mars has spurred interest in developing different, new, and highly-sensitive instruments to search for present or past life on Mars. The ExoMars rover will contain a drill that can reach soil samples up to two meters under the Martian surface in search of extinct or extant life.

Becker, trained as an oceanographer and geochemist, is deeply involved in the study of the origin, evolution and distribution of life in the universe, a field known as exobiology. She is known for her development of a theory about a mass extinction (much earlier than that of the dinosaurs) and her team's finding of evidence of the impact of a meteor 250 million years ago in an area off the coast of present-day Australia. The impact apparently ushered in a period called the "Great Dying," the largest extinction event in the history of life on Earth, when 90 percent of marine life and 80 percent of life on land became extinct.

She anticipates that the American contribution to the Molecular Organic Molecule Analyzer (MOMA) development by the European Space Agency (ESA) will be funded by NASA. MOMA will be included as part of the ExoMars mission to Mars in 2011.

The discovery in 1996 of organic molecules enclosed in a meteorite -- that may be of Martian origin -- revived interest in the study of Martian soil. One entire category of meteorites on Earth has been identified to be of possible Martian origin because gases trapped in them match the composition of the Martian atmosphere.

The opportunity to work with the Europeans makes the project especially appealing to Becker. "The Europeans are coming together to support this mission," said Becker. "U.S. support is also required. It's a very, very unique opportunity. We all have a unified goal."

Her team includes many European scientists as well as two co-principal investigators from Johns Hopkins University. The Americans are: William B. Brinckerhoff from the Applied Physics Laboratory, and Robert J. Cotter of the Johns Hopkins School of Medicine's Department of Pharmacology and Molecular Sciences. The instrument will be developed in the Applied Physics and School of Medicine laboratories in affiliation with Johns Hopkins University.

The decision about the mission came last week when ministers from the 17 ESA member states gathered in Berlin for an ESA council meeting. There they decided to pursue the overall core program of "Aurora," with its first Martian robotic exploration mission, ExoMars. Scheduled to be launched from Kourou, French Guiana, the ExoMars mission will deploy a highly mobile rover with a suite of exobiology instruments.

The ExoMars mission was conceived as part of the Aurora preparatory program activities that were started in 2002 with the support of twelve participating nations: Austria, Belgium, France, Germany, Italy, the Netherlands, Portugal, Spain, Sweden, Switzerland, the United Kingdom, and Canada.

In Berlin, 14 countries agreed to subscribe to the ExoMars mission. The 12 countries from the preparatory phase were joined by Denmark and Norway. Further contributions are still expected in the coming months. As far as the financial shares in the program are concerned, Italy has confirmed its leading role, followed by the United Kingdom, France, and Germany. These proportions will also be reflected in the selection of the industrial consortium that ESA will task to build the first European rover for the exploration of Mars, along with a carrier and a descent module.

Decisions about the ExoMars spacecraft will be finalized in the next few months, with the aim of maximizing the mission's scientific return. Subject to the availability of national funding for their research, scientists from all states participating in the Aurora program are represented in the initial selection of instruments. The U.S. is included through the MOMA and one other organic detection instrument. The lead American scientist on the other organic detection instrument is Jeffrey L.Bada, professor at the Scripps Institute of Oceanography, University of California, San Diego.

Together with the ExoMars mission, the other element of the Aurora Program, the so-called "Core Activities," were also approved in Berlin. The approval will allow for preparation for further exploration missions beyond ExoMars, such as the Mars Sample Return Mission in which samples will be brought back from Mars. ESA will continue the development of exploration-related technologies and capabilities, and develop a roadmap to raise awareness of the European involvement in space science activities.
-end-


University of California - Santa Barbara

Related Mars Articles from Brightsurf:

Water on ancient Mars
A meteorite that originated on Mars billions of years ago reveals details of ancient impact events on the red planet.

Surprise on Mars
NASA's InSight mission provides data from the surface of Mars.

Going nuclear on the moon and Mars
It might sound like science fiction, but scientists are preparing to build colonies on the moon and, eventually, Mars.

Mars: Where mud flows like lava
An international research team including recreated martian conditions in a low-pressure chamber to observe the flow of mud.

What's Mars made of?
Earth-based experiments on iron-sulfur alloys thought to comprise the core of Mars reveal details about the planet's seismic properties for the first time.

The seismicity of Mars
Fifteen months after the successful landing of the NASA InSight mission on Mars, first scientific analyses of ETH Zurich researchers and their partners reveal that the planet is seismically active.

Journey to the center of Mars
While InSight's seismometer has been patiently waiting for the next big marsquake to illuminate its interior and define its crust-mantle-core structure, two scientists, have built a new compositional model for Mars.

Getting mac and cheese to Mars
Washington State University scientists have developed a way to triple the shelf life of ready-to-eat macaroni and cheese, a development that could have benefits for everything from space travel to military use.

Life on Mars?
Researchers from Hungary have discovered embedded organic material in a Martian meteorite found in the late 1970s.

New evidence of deep groundwater on Mars
Researchers at the USC Arid Climate and Water Research Center (AWARE) have published a study that suggests deep groundwater could still be active on Mars and could originate surface streams in some near-equatorial areas on Mars.

Read More: Mars News and Mars Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.