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  • [♪ INTRO]

  • Someday, somebody's going to die on Mars.

  • Death isn't fun to think about, so let's just assume it'll be after one of the founders

  • of the first Mars colony has lived to a ripe old age and watched their people grow and

  • flourish and it'll all be very peaceful.

  • But no matter how or why it happens, the science of what comes next is super interesting.

  • First, any burial plans are going to have to consider international law,

  • because there are United Nations charters against contaminating other planets.

  • And unfortunately, we humans are covered in and filled with contaminating microbes.

  • And if a person is going to die on the Red Planet, all those microbes are going to

  • have to be killed or contained.

  • And there are a couple options for how to do it.

  • The first is cremation, or burning a body into ashes.

  • Fire will kill all those microbes, and it's a practice that many

  • communities already use and have rituals around.

  • But there's also an alternative that's being developed specifically for use in space!

  • It's called Body Back, and it's pretty sci-fi.

  • In 2005, NASA contacted the Swedish company Promessa,

  • which specializes in environmentally- sound burials and cremations.

  • NASA asked them to look into a system for handling remains that can be used in space.

  • So they came up with the Body Back, which is basically just an adaptation of Promessa's

  • existing process, although it hasn't been done to anyone on Earth yet.

  • First, the body of a Mars traveler would be stuck in a weatherproof bag.

  • It'd be cooled down, and then exposed to liquid nitrogen for a bit.

  • This would deep-freeze the body and make it really brittle.

  • Then, the bag would be shaken up by a machine until the body became a powder.

  • Which is really effective for saving space, and that's always important on a mission,

  • even if it's kinda creepy.

  • Still, liquid nitrogen doesn't always kill bacteria.

  • It can also preserve them, causing them to stop growing without actually dying.

  • So the body would have to stay in the bag forever.

  • But it's at least an option.

  • Now, if cremation or bag of powder options aren't available, like if someone's spacesuit

  • breaks and they're exposed to the Martian elements, the process would go a little differently.

  • For one, they'd technically be violating international law, but there would be more

  • immediate problems at that point.

  • To know how a body would respond to being left alone on Mars, scientists can actually

  • study a similar environment on Earth: the Atacama desert in Chile.

  • The Atacama is one of the driest places in the world, and it's super high up, with

  • peaks reaching elevations of about 6000 meters.

  • And the higher up you are, the thinner, cooler, and drier the air.

  • It's a little like Mars.

  • Hundreds of years ago, the Atacama was a part of the Incan empire,

  • and the Inca had a practice called capacocha.

  • These were ritual child sacrifices, which, to be clear, are horrible, but the bodies

  • of these children have helped scientists with research hundreds of years later.

  • Because, despite all that time, the bodies haven't really decayed.

  • In the Atacama, it's too cold and dry for bacteria to grow well,

  • so the bodies became natural mummies.

  • And that's close to what would happen on Mars, too.

  • It's generally colder and drier than it is on Earth, so not much would happen.

  • The bacteria on or in someone's body just wouldn't grow, or would grow much more slowly,

  • so it would take centuries for a body to break down, if it decayed at all.

  • Now, if someone died closer to the Martian equator,

  • where the temperatures can get up to 20 degrees Celsius,

  • the bacteria inside their body might start to decompose it for a while.

  • But the process wouldn't go on forever.

  • That's because Mars also has super high levels of

  • bacteria-killing radiation that would finish the job.

  • You're probably familiar with UVA and UVB radiation from sunscreen and sunglasses labels,

  • but Mars also has an extra kind: UVC, which has a shorter wavelength.

  • Our atmosphere is capable of filtering out all UVC radiation,

  • so life on Earth isn't great at dealing with it.

  • UV-C is also especially deadly, because those shorter wavelengths carry a lot more energy.

  • So it would probably kill most of the surviving microbes.

  • So if someone died on Mars and there was no way to recover the body, or turn it into a powder,

  • it would probably become a mummy over thousands of years.

  • Admittedly, there is a chance some of those bacteria could survive the UVC radiation,

  • thanks to certain mechanisms that can repair radiation damage.

  • If they did, they would probably decompose the body over time.

  • But then Mars would be home to a bunch of radiation-resistant bacteria,

  • which is a whole new problem.

  • Or horror movie.

  • And that's probably why the United Nations would require bodies to be sterilized or contained.

  • Thinking about people dying on Mars isn't exactly something NASA or any other space

  • agency really wants to do, but it's an important part of planning for the future.

  • And even if it is a little morbid, the science behind it is definitely worth thinking about.

  • Thanks for watching this episode of SciShow Space!

  • If you've ever wondered what would happen if someone died in the vacuum of space,

  • we've actually talked about that, too.

  • You can watch our episode all about it over at the main SciShow channel.

  • [♪ OUTRO]

[♪ INTRO]

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