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  • Perseverance, the Mars 2020 rover, which is expected to land on the red planet in February

  • of 2021. And one of its main jobs?

  • Finding signs of ancient microbial life on Mars.

  • But wait, haven't we already found signs?

  • What more evidence do we need, and how much do we actually have so far?

  • Now, before we get into actual life forms, we have to talk about water.

  • Most astrobiologists agree that liquid water, or at least some kind of liquid solvent, is

  • arguably the most important variable in our continued search for life everywhere, including on Mars.

  • For a long time, the best image we had that indicated the prior presence of water was

  • this picture.

  • It's possible that this riverbed and canyon formation could have also resulted from wind

  • flow, glacial ice, volcanic lava, or liquefied CO2, but experts believe that the best explanation

  • for this very specific shape and pattern was repeatedly flowing water.

  • There are lots of other convincing geological features on the surface of Mars that make

  • a pretty strong case for the fact that the planet may have once had flowing, liquid water.

  • Plus in 2012, the Curiosity Rover phoned home to tell us it had found and examined a number

  • of rocks that we now know were exposed to water billions of years ago.

  • But what about water on Mars that's liquid right now?

  • The High Resolution Imaging Science Experiment or HiRISE camera aboard the Mars Reconnaissance

  • Orbiter took pictures that showed us something we now call recurring slope linea,

  • or RSL.

  • These dark streaks seem to fluctuate over time, appearing to flow down steep Martian slopes.

  • And this discovery made a huge splash at the time and was widely hailed as evidence of current

  • water on Mars, but there are lots of voices who push back on this, saying it's unrealistic

  • to imagine that Mars could support flowing liquid water when its atmosphere is so thin

  • and so cold.

  • And new work argues that instead of water, it could be granular flow of sand and dust

  • that makes these marks.

  • So the debate about whether RSL indicate current flowing water on Mars still continues today.

  • There's also super cool evidence of liquid oceans inside Mars right now, but that's

  • kinda a whole separate video.

  • And say we put water to the side entirely...what evidence do we have of actual life forms on Mars?

  • The biggest and most controversial is the infamous incident in 1996 when NASA announced

  • they had found evidence of extraterrestrial life inside a meteorite that thudded to Earth

  • from Mars.

  • The 'proof'?

  • The combination of minerals and carbon compounds inside the meteorite seemed remarkably similar

  • in makeup and form to what some microbes produce here on Earth.

  • That's what we call a biosignature.

  • But in the years since, scientists have pointed out that non-living or abiotic processes are equally

  • likely to have produced the same clumps of minerals that we were so excited to call fossilized

  • evidence of life.

  • Plus, follow-on work did find that the meteorite had been contaminated by Earth's bacteria once it got here.

  • So...eh?

  • Over twenty years later, the debate still rages on.

  • But even though it didn't give us a particularly satisfying answer, this meteorite did ignite

  • a very important conversation.

  • See one of the issues here is that we don't have a very standard definition of what life is.

  • And that makes finding definitive evidence of it...kinda hard.

  • Other Martian missions have found traces of methane and formaldehyde on Mars, which are

  • both produced by living things here on Earth...although they can be produced by non-living processes.

  • And again, we have a kinda philosophical dilemma here because we only know how to look for

  • the things we know about.

  • It could be that life elsewhere in the solar system or the universe is marked by biosignatures that we

  • don't know about or don't know how to look for... yet.

  • And then there's the whole question of where did life on Mars come from?!

  • I mean...existential issues abound.

  • Now, given the fact that we've been studying Mars from home since the 1600s and from space

  • since the 60s, what I've covered in this video is certainly not exhaustive.

  • But it is a short summary of the most compelling evidence we currently have for

  • life on Mars which...even after all that, are still just tiny hints on where to start.

  • Nothing definite, but hopefully a good base from which to make progress.

  • Now when it lands, Perseverance will be happily digging around in Mars' rocks for fossils, gathering samples

  • to hang onto until future missions can hopefully ferry those samples back to Earth for further

  • study.

  • And it'll eventually be joined by the European-Russian ExoMars rover.

  • Some scientists are also pushing for these bots to search for genetic signs of current

  • life on Mars too!

  • But whatever we look for, from the years past it's pretty clear that whatever we find is going

  • to need to be really solid evidence before we make any solid claims, and it may require

  • a whole re-imagining of our frameworks forand classification oflife itself.

  • Because as Carl Sagan said, “extraordinary claims require extraordinary evidence”.

  • Which, it's pretty safe to say, we haven't quite found...yet.

  • If you want more info on all you could ever want to know about the Mars Rover, then check out

  • this video here, and make sure you subscribe to Seeker for all your space exploration news

  • and updates with our series Countdown to Launch.

  • If you have questions about specific Mars discoveries, let us know down in the comments below.

  • As always thanks for watching, and I'll see next time.

Perseverance, the Mars 2020 rover, which is expected to land on the red planet in February

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