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Mars
Posted:   05/04/05

Summary: Bernard Foing, Chief Scientist for the European Space Agency, provides an overview of the most notable discoveries made during the Mars Express mission, Europe's first trip to the Red Planet. In part two of this overview, Foing looks at how these discoveries could help pinpoint the prospects for life on Mars.
mars_clouds
Lower atmospheric clouds seen on Mars by Opportunity
Image Credit: NASA/JPL

The European Space Agency's Mars Express spacecraft has been orbiting Mars for over a year. While the high resolution images of the planet's many craters, volcanoes, and other features get the most notice, the spacecraft's seven instruments have also gathered large amounts of data about the planet's atmosphere, geology, and chemistry. Bernard Foing, ESA Chief Scientist, provides an overview of the most notable discoveries made during Europe's first trip to the Red Planet.

In part two of this overview, Foing looks at how these discoveries could help pinpoint the prospects for life on Mars.


There are a number of exoplanets which have been detected around other stars, and they are all giant planets like Jupiter. The question is, "Are there any habitable worlds similar to ours?" To answer this, it's crucial to see if there are other habitable planets in our solar system. And so we look at Mars.

The Mars Express SPICAM instrument, which is monitoring the martian atmosphere, is addressing the question of the habitability of Mars. If there is life on the surface of Mars now, could it survive? So this experiment is measuring, for instance, the solar ultraviolet (UV) light which is penetrating to the surface. It can also measure ozone and water. It can measure oxidants as well -- products that are scavengers for life. To do this, the SPICAM team monitors a star when it is rising or setting on the horizon, and looks at how light from the star is being absorbed by the atmosphere. That light absorption helps them derive properties of the atmosphere.

mars_beagle
Mars Express above the thin Martian upper atmosphere successfully achieved orbital insertion on Christmas 2003
Credit: ESA


They have found a very interesting correlation between ozone and water. It seems that wherever there is an increase in atmospheric water, there is a corresponding disappearance of ozone. So, on Mars, when water goes up, ozone goes down.

We are very much dependent on a layer of ozone on Earth; it protects Earth against UV radiation. Recent measurements on Earth indicate that the water content of the Earth's atmosphere has increased from the water evaporation of all the land surfaces and the oceans, maybe as an effect of global warming. So if it's true that an increase in atmospheric water vapor causes the amount of ozone to go down, then we have to be worried, because that could mean our ozone layer will be further reduced.

Earth obviously has much more water than Mars, and we still do have an ozone layer, so it's not a perfect correlation. But this planetary result from Mars could be giving us a warning. It's an interesting application where you explore another world, and suddenly you realize that there's something you may have overlooked while on Earth.

The detection of methane on Mars is also very intriguing, because it relates to the search for life. Methane is a gas that, on Earth, is produced mainly through biological activity. The amount we found with Mars Express is very tiny, only 10 parts per billion. But in martian conditions, methane could not last more than 600 years. So methane is being produced somehow, and the source must be producing at least 150 tons of methane per year for us to be detecting it at 10 parts per billion in the atmosphere.

Mars Global Surveyor
Kunowsky Crater MGS MOC Release No. MOC2-753, 10 June 2004
Image Credit: Mars Global Surveyor, Malin Space Systems


So what is the source? One explanation would be chemistry activities in the sub-surface. Methane could be produced where volcanic activity combines with water and basalt. But there is also the possibility that the methane is the result of methanogenic bacteria.

We have evidence for recent volcanic activity on Mars. There is some new evidence, in polar areas, of small volcanic cones a few hundred meters high. These are small volcanoes in the making, poking up through the ice.

There also seem to be recent volcanic activity in the calderas - large craters caused by the collapse of the magma chamber after a volcanic eruption. You can measure the age of the caldera in martian volcanoes by counting the impact craters inside. From that, we've found that there are some calderas that are very much younger than we thought. Some of them are maybe between 100 and 150 million years old, but we even found some that are a few million years old. On a geological time scale, that's just like yesterday.

So we are discovering a new Mars, a Mars which is very active, with recent volcanism. Mars was probably quite dry and cold during most of the last 3 billion years, but it could have experienced temporary episodes where water was present in a few places. So in terms of the search for life, the possibility of the habitability of Mars is much richer than we thought before. We see new possible niches where we should search for the signature of life.

There's still a lot of work to do to put all of our discoveries into context, instrument to instrument, but also with discoveries made by the Mars rovers.

The next step is to prepare new missions that will characterize some of the potential habitats for life on Mars. We'll still follow the water, but we also want to understand the carbon cycle, determine what energy sources are available, search for hydrothermal hot spots, and look for any prebiotic chemistry, or even biotic chemistry. Then we could pinpoint areas that could be further explored with landers, to be followed by sample return missions.


Related Web Pages

Giving Mars Back its Heartbeat
Looking for Martian Life
Should We Terraform?
Walking Naked on the Red Planet
United Nations of Mars
Living on Mars
The Martian Future
Mars Exploration Rover Mission: Home
Searching for water with MARSIS
MARSIS instrument design
You Are Here
Viking Biology Experiments
Life Beneath the Surface


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