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In a recent study of the upper atmosphere of Venus, finding the chemical fingerprint of phosphine has led to speculation that it may be tied to airborne life high in the clouds of our sister planet [1]. We harbour similar suspicion of microbial life on Mars [2], Saturn’s moon Enceledus [3], and Europa, the icy Galilean of the Jovian system [4]. The dwarf planet Ceres of the asteroid belt could be added to that list also, with recent evidence of oceanic water [5], while more exotic variations of life may exist on Titan, which is known to be teeming with organic materials [6]. Should we be more wary of our Solar System as an environment to explore, and the potential of pathogens we may encounter?

If one rewinds 500 years, to when exploration of new worlds involved sailing the oceans, the discovery of the Americas introduced viruses which decimated the native population at that time [7]. That in itself was far from a unique event in history, of course. There have been many occurrences throughout history where travel between distant lands has resulted in the introduction of devastating plagues to one population or the other — not least the Black Death, which arrived in Europe from commercial travel with Asia in the 1300s [8]. Meanwhile, 2020 has reminded us how a novel virus can prove virtually unstoppable from spreading worldwide in a matter of months and reaching pandemic level, once introduced to our now interconnected world [9].

Indeed when the first astronauts returned from the Moon in the 60s, they had to undergo weeks of quarantine as a precaution against introducing a lunar pathogen to Earth [10]. We now know the Moon to be a sterile world, but this should not give us a false sense of security when visiting and returning from other worlds, which are far more likely to harbour microbial life. It is quite plausible to consider that any microbes which have evolved to survive in the harsh environments on other worlds could multiply out of control if introduced to a more fertile environment on Earth. The likelihood of any such foreign microbes being capable of becoming infectious pathogens to our species is difficult to measure, but one could still cause problems regardless, by undermining Earth’s ecosystem in competing with native microbial life as a runaway invasive species.

Fortunately, due to the vast distances involved in inter-planetary travel, returning astronauts would likely show symptoms of infection from any dangerous pathogen long before reaching home, as such a journey would be expected to take many months, even with more advanced propulsion technology than we use in space travel today. That is not to say they could not inadvertently return with microbial life on board — or even on the exterior of craft: Earth’s tardigrades, for example, have proven quite durable in journeys into outer space [11].

Undoubtedly, finding life on any other world — even if just primitive microbial life — would be hailed as an unprecedented scientific discovery. As that potential draws nearer, any such discovery should surely be met with due caution, rather than wild excitement. While not as dramatic as an invasion of Spiders from Mars, the discovery of microbial life on other worlds could prove to be a far more sobering prospect — and pose new ethical questions of whether to leave their ecosystems preserved intact, or take the risk blending them with ours.

[1] Strange chemical in clouds of Venus defies explanation. Could it be a sign of life?
https://www.space.com/venus-clouds-possible-life-chemical-discovery.html

[2] How Martian Microbes Could Survive in the Salty Puddles of the Red Planet https://www.space.com/salt-tolerant-microbes-life-on-mars.html

[3] If There’s Life on Saturn’s Moon Enceladus, It Might Look Like This https://www.wired.com/story/if-theres-life-on-saturns-moon-enceladus-it-might-look-like-this/

[4] ‘Racing certainty’ there’s life on Europa, says leading UK space scientist
https://phys.org/news/2020-02-certainty-life-europa-mars-uk.html

[5] The dwarf planet Ceres might be home to an underground ocean of water
https://www.technologyreview.com/2020/08/11/1006447/ceres-largest-asteroid-dwarf-planet-underground-ocean-salty-water

[6] ‘Possibility of life’: scientists map Saturn’s exotic moon Titan
https://www.reuters.com/article/us-space-titan-idUSKBN1XS2H2

[7] How Europeans brought sickness to the New World
https://www.sciencemag.org/news/2015/06/how-europeans-brought-sickness-new-world

[8] The Black Death: The Greatest Catastrophe Ever
https://www.historytoday.com/archive/black-death-greatest-catastrophe-ever

[9] Coronavirus: A timeline of how the deadly COVID-19 outbreak is evolving
https://www.pharmaceutical-technology.com/news/coronavirus-a-timeline-of-how-the-deadly-outbreak-evolved/

[10] Apollo 11 Astronauts Spent 3 Weeks in Quarantine, Just in Case of Moon Plague
https://www.space.com/apollo-11-astronauts-quarantined-after-splashdown.html

[11] How do tardigrades survive in space?
https://cen.acs.org/biological-chemistry/biochemistry/tardigrades-survive-space/97/i41

One way that astronomers and astrobiologists search for life in the galaxy is observation of rocky planets orbiting other stars. Such planets may contain an atmosphere, liquid water, and other ingredients that are required for biological life on Earth. Once a number of these potentially inhabited planets have been identified, the next logical step in exploration is to send remote exploratory probes to make direct observations of these planets. Present-day study of other planetary systems is so far limited to remote observation with telescopes, but future plans for exploration include the design and deployment of small robotic exploratory spacecraft toward other star systems.

If intelligent, technological extraterrestrial life exists in the galaxy, then it is conceivable that such a civilization might embark on a similar exploration strategy. Extraterrestrial intelligent (ETI) civilizations may choose to pursue astronomy and search for planets orbiting other star systems and may also choose to follow-up on some of these targets by deploying their own remote exploratory spacecraft. If nearby ETI have observed the Solar System and decided to pursue further exploration, then evidence of ETI technology may be present in the form of such exploratory probes. We refer to this ETI technology as “non-terrestrial artifacts”, in part to distinguish these plausible exploratory spacecraft from the flying saucers of science fiction.

In a recent paper titled “On the likelihood of non-terrestrial artifacts in the Solar System”, published in the journal Acta Astronautica (and available on arXiv.org as a preprint), Jacob Haqq-Misra and Ravi Kopparapu discuss the likelihood that human exploration of the Solar System would have uncovered any non-terrestrial artifacts. Exploratory probes destined for another star system are likely to be relatively small (less than ten meters in diameter), so any non-terrestrial artifacts present in the Solar System have probably remained undetected. The surface and atmosphere of Earth are probably the most comprehensively searched volumes in the Solar System and can probably be considered absent of non-terrestrial artifacts. Likewise, the surface of the moon and portions of Mars have been searched at a sufficient resolution to have uncovered any non-terrestrial artifacts that could have been present. However, the deep oceans of Earth and the subsurface of the Moon are largely unexplored territory, while regions such as the asteroid belt, the Kuiper belt, and stable orbits around other Solar System planets could also contain non-terrestrial artifacts that have so far escaped human observation. Because of this plenitude of nearby unexplored territory, it would be premature to conclude that the Solar System is absent of non-terrestrial artifacts.

Although the chances of finding non-terrestrial artifacts might be low, the discovery of ETI technology, even if broken and non-functioning, would provide evidence that ETI exist elsewhere in the galaxy and have a profound impact on humankind. This is not to suggest that the search for non-terrestrial technology should be given priority over other astronomical missions; however, as human exploration into the Solar System continues, we may as well keep our eyes open for ETI technology, just in case.