Viking remembered: Celebrating the 40th anniversary of the first search for life on Mars

Iconic painting of a Viking lander on Mars, prior to launch. The sampling arm reaches into the foreground. Image Credit: Charles Bennett/Lockheed Martin (Martin Marietta)
Iconic painting of a Viking lander on Mars, prior to launch. The sampling arm reaches into the foreground. Image Credit: Charles Bennett/Lockheed Martin (Martin Marietta)

July 20, 1976, will be forever remembered by space enthusiasts. On that day, Viking 1 became the first U.S. spacecraft to land on another planet – in this case, Mars (the USSR Venera 9 spacecraft landed on Venus in 1975). That lander, and Viking 2 which followed it Sept. 3, 1976, paved the way for more complex missions later on, which would begin to finally unlock some of the secrets of the mysterious Red Planet. The two Viking landers, and their counterpart orbiters, were genuine trailblazers, opening up the vast Martian landscape to robotic and human eyes for the first time.

Viking 1 landed in the Chryse Planitia region, while Viking 2 landed much farther away in Utopia Planitia. The two landers were a joint project of NASA, the Jet Propulsion Laboratory, the Langley Research Center, and Lockheed Martin (Martin Marietta at the time before the merger with Lockheed Corporation in 1995). Their mission was a relatively simple-sounding one: to search for evidence of life on Mars. It was a bold move, and no one knew if it would pay off. Nothing like it had been attempted before, and trying to answer such a huge question the first time landing somewhere was no small feat, especially since there were still so many unknowns about the planet. Scientists had a general understanding of the surface conditions, but there were still many questions to be answered, and surprises to be discovered.

The first accomplishment of course had to be to land safely. As with all such landings, the several minutes during the landing sequence are a nail-biting time for engineers and scientists alike. Something could easily go wrong, but fortunately for the Viking team, it didn’t.

NASA is celebrating the 40th anniversary of the landing of Viking 1 on Mars. Image Credit: NASA
NASA is celebrating the 40th anniversary of the landing of Viking 1 on Mars. Image Credit: NASA

“The first white-knuckle event was the landing,” said Ben Clark. “Everything was happening as it was supposed to so we knew we had landed safely. We celebrated big time.” Clark headed the team that developed the x-ray fluorescence spectrometer instrument, which was used to determine the chemical composition of the Martian soil.

After the landing, the mission team and public alike breathlessly awaited the first photos from the surface. Unlike photos from missions today, the first image came in pixel by pixel, gradually revealing a rocky surface including one of the footpads. This was the first-ever close-up view of the Martian surface. At first glance, it was just a black-and-white photo of rocks, pebbles, and sand, nothing too weird or surprising. But it was historic.

“To see those photos was quite an event,” said Clark. “It was on national television, and there were only three channels at that time, so everyone saw it.”

Martin Marietta (later becoming Lockheed Martin) played a large role in the Viking mission. It built the robotic arms used to collect surface samples, various testing instruments, flight software and the aeroshell, an aerodynamic heat shield, and back shell, which protected the lander, as they descended to the surface. The company also built the Titan IIII rockets that launched the twin Viking spacecraft. Building the spacecraft took six years. Lockheed Martin has since adapted much of the technology involved for today’s missions, in particular the Mars Phoenix Lander and InSight lander, as well as all three current orbiters. It will also be involved in the upcoming Mars 2020 Rover.

“For Lockheed Martin, this mission was huge,” said Clark. “The most successful thing is that because we built it, all of the sudden, we were the wonder horse of the whole aerospace community. It was a well-known program that did almost the impossible and worked so well.”

The Viking landers performed amazingly well during their active time on Mars. Viking 1 set an endurance record, lasting 2,245 sols (Mars days), which was not broken until 2010, by the Opportunity rover.

“People look back at the last time they did something successful,” Clark added. “It’s sort of like families. You raise your children similar to how you were raised. Things get pushed forward generation after generation, and we have done that with the success of Viking.”

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The first image sent back by Viking 1 of the surface of Mars. Photo Credit: NASA/JPL-Caltech
Panoramic view of the terrain in Chryse Planitia at the Viking 1 landing site. Photo Credit: NASA/JPL-Caltech
Panoramic view of the terrain in Chryse Planitia at the Viking 1 landing site. Photo Credit: NASA/JPL-Caltech

Viking also implemented a rigid sterilization program, where each lander was thoroughly sterilized before launch, to protect the Martian environment from contamination by any Earthly microbes which may have wanted to go for the ride.

In 1972, Dr. Nicholas Costes, a senior research scientist at NASA’s Marshall Space Flight Center, started to develop a concept for a future Viking lander 3 to have “elastic track bands” to enable it to rove around, something like tanks or bulldozers, but it was never funded.

As for Viking’s prime mission, how do you search for life on a planet when there are so many things that are unknown about the current and past conditions, and potential for habitability overall? NASA decided to take a direct approach and look for evidence of microbial life as we understood it on Earth. Three different biology experiments were included on both landers, but they were of course based on what was understood about Mars at the time. They were also very limited compared to what could be done today, but at the time were considered groundbreaking, and rightly so. The intense debate over the results continues to this day; while surprising chemical activity was indeed found in the soil, it was undetermined, and still is, as to whether microbes were involved or just exotic but lifeless chemistry. Dr. Gilbert V. Levin, an engineer and principal investigator of the Labeled Release experiment, has continued to maintain his position that both Viking landers did indeed find microbial life on Mars.

Samples were only able to be taken from shallow trenches in the sand; as is now known, ultraviolet solar radiation has sterilized the first few inches or so of the ground, which would effectively destroy any known microorganisms or organics on Earth. Also, we now know that the same soil contains high levels of perchlorates, salts which can also have the same effect. It seems to present a likely answer as to why Viking found no traces of organics, without which there could be no life, and which seemed to be in conflict with the biology experiment results. The results were discouraging, and prompted many scientists to abandon the hope for life on Mars. It would be over 20 years before another lander or rover was sent to Mars. Most experts agree now that to look for life on Mars, either current or past, future samples must be dug up from deeper below the surface. Until additional samples can be studied more closely in labs on Earth, the Viking biology experiments will continue to be a source of much debate.

Carl Sagan posing with a model of the Viking 1 lander in Death Valley, Calif. Photo Credit: NASA
Carl Sagan posing with a model of the Viking 1 lander in Death Valley, Calif. Photo Credit: NASA
Diagram of the Viking landers (both identical). Image Credit: NASA
Diagram of the Viking landers (both identical). Image Credit: NASA

At the time, planetary scientist and JPL director Bruce Murray was a lot more cautious about the prospect of finding life, then was Carl Sagan, of Cosmos fame, who the public most identified with. In his memoir, Murray noted that “the extraordinarily hostile environment revealed by the Mariner flybys made life there so unlikely that public expectations should not be raised.”

Post-Viking, NASA has taken a different route, studying instead the evidence for possible “habitable environments” in Mars’ past, rather than search for life itself. This has been the case until today, with a much more cautious, step-by-step approach, focusing on “follow the water.” It has now been well-established that Mars used to be much wetter than it is now, with lakes, rivers, groundwater, and possibly oceans. The idea that ancient Mars was at least habitable has now been firmly established. The next Mars rover mission, the Mars 2020 Rover, will be the first since Viking to address the life issue directly, although focusing on evidence for past life rather than present.

Viking may have been somewhat “ahead of its time” according to some, but it helped to establish the current methods for searching for alien life on our next door neighbor. Those methods could be refined and improved, to better search for something when we don’t even know exactly what it is we might find. Mars life might be similar to Earth’s at the microscopic level, or it could be completely different, we just don’t know yet.

NASA is also hosting live media events to celebrate the Viking mission, with a history discussion from 2:00 p.m. to 3:30 p.m. EDT on Tuesday, July 19, and a Viking 40th anniversary symposium from 8:00 a.m. to 5:10 p.m. EDT on Wednesday, July 20, at NASA’s Langley Research Center in Hampton, Va. Portions of those events, highlighting NASA’s Journey to Mars plans for future human missions, will air on NASA TV. The symposium will include 2o speakers including former Viking scientists and engineers. A detailed listing of events is available here.

Image of the Martian surface from Viking 2. Photo Credit: NASA/JPL-Caltech
Image of the Martian surface from Viking 2. Photo Credit: NASA/JPL-Caltech

Sending astronauts to Mars is still NASA’s overarching goal, even though there still isn’t a firm timeline.

“I’ve always thought the pursuit of human exploration of Mars was important,” said Clark. “The exploration will go faster. We can put geologists out there and we will have a better opportunity of finding life because they will be able to look under every nook and cranny.”

The Viking mission was an unprecedented success. As previously noted by Doug McCuiston, Mars Exploration Program Director
NASA Headquarters in Washington, “The Viking mission looms like a legendary giant, an incredible success against which all present and future missions will be measured.”

The Viking mission attempted to resolve one of the biggest questions of humanity: Are we alone? Unfortunately the answer is still unknown, but Viking paved the way for future missions and technology, undreamed of in the 1970s, which might be able to do just that.

More information about the Viking mission is available at the Viking Mars Missions Education and Preservation Project (VMMEPP) website and on the NSSDA website.

This article was first published on AmericaSpace.

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