An Epitaph for Rover Spirit (2004-2010)
The Spirit team has seen the end coming since communications were lost with the rover in March 2010. Mission engineers made heroic efforts to reestablish contact, going through a huge list of potential "fault scenarios" and communications strategies. In the end, though, Spirit was conquered by the extremely cold Martian winter and its two broken wheels, which prevented its dusty solar panels from pointing toward the Sun.
But what a mission! Designed to last 90 days, Spirit kept going for more than six years, with the team driving the rover almost 5 miles (8 km) across rocky volcanic plains, climbing rugged ancient hills, and scurrying past giant sand-dune fields. It eventually spent most of the mission near the region known as Home Plate, which is full of layered, hydrated minerals. Data from the rover enabled dozens of scientific discoveries, but three stand out to me as most important:
Carbonate minerals in some of the rocks within the Columbia Hills. Carbonates were expected on Mars, if indeed the climate was warmer and wetter in the past. However, their detection has been elusive so far, with only relatively minor occurrences found in the available mission data. Indeed, the Spirit team had to work hard to uncover the signature of carbonates years after the rover made the measurements. But the signal is there, and as the analysis continues the results for Mars in general could be profound.
An incredible diversity of rock types, from all over Mars, that Spirit was able to sample in Gusev crater. Some of the rocks appear to be from local volcanic lava flows or ash deposits. But others have likely been flung in to the area over time by distant impacts or volcanoes, and a few even appear to be meteorites, flung in from outer space. Spirit's instruments provided the team with the ability to recognize this amazing diversity, and thus to learn much more about Mars in general, not just Gusev in particular.
Spirit also helped us test an experiment: If we put all the rover's images out on the Web for everyone in the world to see, in near real-time, would people follow along? They did! Would our colleagues outside the team "scoop" us scientifically? Didn't happen. I believe that the experiment has been a great success, and a model for future planetary missions. I wonder if, maybe 10 or 15 years from now, I'll meet some young colleagues who were turned on to space exploration by being able to check out the latest Spirit images from Mars from their classroom, or living room, every day when they were a kid. That would be extremely satisfying — and a great testament to the power of openly sharing data from space exploration missions like Spirit's.
Meanwhile, on the other side of the planet, Opportunity continues to rove on, now just 2 miles from the edge of giant, city-size Endeavour crater, where orbital measurements have identified, for the first time in either rover's mission, the signatures of clay minerals in the crater's rim. Clays are also formed in water, but in less acidic, perhaps more life-friendly water than the sulfates that Opportunity has been mapping thus far. What will those clays look like on the ground? What will they help us learn about the ancient watery past and habitability of Mars? I can't wait to find out.
Spirit is now permanently at rest in a soft, salty sand trap next to the plateau of Home Plate. We don't know exactly how the rover died — maybe some solder joint cracked, or some frayed power wire finally broke free. Some think we may never learn what happened, but I think they're wrong. Some day, when people visit Mars and walk across Home Plate to take a look at our dusty piece of sweetly styled, late-20th-century space technology, they'll figure it out. And then I hope that Spirit's resting place will be protected and join the growing number of Interplanetary Historic Landing Sites scattered around our solar system — on Mars, the Moon, Venus, Eros, and Titan (and some day, Phobos, Deimos, other asteroids, and maybe even Europa and Enceladus) — as part of a fitting tribute to our species' never-ending Spirit of exploration.
Jim Bell is a planetary scientist and professor in the School of Earth and Space Exploration at Arizona State University. The lead scientist for the Spirit and Opportunity Pancam color cameras, he has written two books highlighting the rovers' photographic adventures: Postcards from Mars (Dutton, 2006), and Mars 3-D (Sterling, 2008). Click here to access a huge collection of high-resolution color images and panoramas from both rovers.