杏吧原创

Mars rover reaches rim of vast, ancient crater

NASA's Opportunity rover has reached the Endeavour crater, which was once soaked with water and could hold clues as to whether there was ever life on Mars

On the edge
On the edge
(Image: NASA/JPL-Caltech/Cornell/ASU)
Mars rover reaches rim of vast, ancient crater
Blueberry bonanza
Blueberry bonanza
(Image: NASA)
Salty flows on Mars
Salty flows on Mars
(Image: NASA)

THREE years of trundling across treacherous dunes has brought NASA鈥檚 rover to its most significant target yet 鈥 a huge crater called Endeavour that was once soaked with water and could hold clues as to whether there was ever life on Mars.

Orbital observations suggest the rocks on Endeavour鈥檚 rim are more than 3.5 billion years old and so date from the earliest, wettest phase of Martian history, when water carved out vast drainage channels across the planet. Until now, neither Opportunity nor its now-defunct sister Spirit (see 鈥淭he rovers at a glance鈥) had examined rocks that clearly date from this period.

鈥淭his is potentially the most exciting scientific opportunity for the rover mission yet,鈥 says John Callas, mission manager at NASA鈥檚 Jet Propulsion Laboratory in Pasadena, California. That鈥檚 because mineralogical studies from orbit suggest these ancient rocks formed in a cosy environment for life.

The rovers have previously studied rocks that were once immersed in acidic, salty water (see 鈥淏lueberry bonanza鈥). The 20-kilometre Endeavour, by contrast, seems to have harboured water friendlier to life, since the crater contains clay minerals that require a relatively neutral pH to form. What鈥檚 more, orbital measurements do not indicate that the ancient water was salty 鈥 though salty water may be flowing on Mars today (see 鈥淒ark streaks point to salty flows鈥).

Opportunity鈥檚 arrival at Endeavour marks a huge milestone for the mission. The goal seemed 鈥渁lmost unbelievably audacious鈥 when it started heading there, says James Wray of the Georgia Institute of Technology in Atlanta.

The rover was only designed to last three months and in 2008, when it set out from a smaller crater called Victoria, it had already been on Mars for more than four years (see its route here). 鈥淚 have gained a wife, lost a grandfather and moved twice [since then],鈥 Wray says. 鈥淔rom that perspective, it does feel like a lot of time has passed.鈥

The rover might reveal what form the water at Endeavour took. If it finds rocks bearing the imprint of ripples, that would suggest that water pooled on the surface, while if it spots rocks threaded with veins of clay minerals, that would point to water percolating underground, Wray says.

聯Rocks bearing the imprint of ripples would suggest that water pooled on the crater鈥檚 surface聰

Opportunity entered Victoria crater but is likely to spend all its time at Endeavour on the rim. Endeavour鈥檚 interior is less enticing because sediment from a later, drier period of Martian history has buried the old rocks there.

If it is still functioning a few years from now, the rover could set off for another, smaller crater called Iazu, with rocks that are just as old. 鈥淏ut holy smoly, that鈥檚 like 15 kilometres away,鈥 nearly as far as the three-year trek to Endeavour, says Ray Arvidson of Washington University in St Louis, Missouri. He is content to see Opportunity live out the rest of its days scrutinising rocks and capturing eye-popping vistas on Endeavour鈥檚 rim. 鈥淭hat鈥檚 a spectacular way to end the mission,鈥 he says.

Mars rover reaches rim of vast, ancient crater

Blueberry bonanza

Almost immediately after it landed in 2004 in a region of Mars called Meridiani Planum, Opportunity made a watershed discovery: rocks at its landing site had formed in ancient lakes.

The evidence came in part from tiny 鈥渂lueberries鈥 (see image) made of haematite, which almost always forms in water. Curved lines of sediment pointed to the sweeping motion of a water current, while sulphate salts and the mineral jarosite, which forms in dilute sulphuric acid on Earth, suggested that the water was briny and acidic.

Dark streaks point to salty flows

Mars鈥檚 image as a dust bowl may need a makeover. Dark streaks seen forming in summer and fading in winter might be signs of water flowing just beneath the surface (see image).

The appearance of streaks on sloping ground, including light streaks seen by NASA鈥檚 Mars Global Surveyor spacecraft, has been attributed to present-day liquid water. But the link is not watertight 鈥 avalanches of dust could also be to blame.

Now, NASA鈥檚 Mars Reconnaissance Orbiter (MRO) has revealed a previously unknown group of seasonal dark streaks in Mars鈥檚 southern hemisphere that may be caused by flowing water. Alfred McEwen of the University of Arizona, Tucson, and colleagues found slopes where dark streaks appear every spring and disappear each winter ().

The seasonal streaks, which the team call recurring slope lineae, show no preference for dusty areas, where dust avalanches would be more likely. They are, however, found where radar observations show evidence for underground glaciers.

One possibility is that they result from meltwater that drains down slopes when ice thaws in the spring. But the researchers believe any flowing water lies below the surface 鈥 if it were above, MRO probably would have spotted its spectral signature, they say.

Some of the streaks form at -23 掳C, well below the freezing point of pure water. Salty water, however, can remain liquid at such temperatures, and if it is flowing just beneath the surface, it might shift dust grains above, causing the dark streaks. 鈥淭he best explanation we have for these observations so far is flow of briny water, although this study does not prove that,鈥 says McEwen.

The discovery of what might be liquid water on present-day Mars raises the possibility that life may have a toehold there. 鈥淚t is our first chance to see an environment on Mars that might allow for the expression of an active biological process,鈥 says Lisa Pratt of Indiana University in Bloomington.

Topics: Astronomy / Mars