this post was submitted on 21 Nov 2023
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A book review on the latest Weinersmith creation. It’s true, there is so much we don’t know.

Just throwing this out there on this forum because missing technology is the problem that kills the dream of Mars, according to the authors.

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[–] masquenox@lemmy.world 62 points 11 months ago (2 children)

It's not missing technology that kills the (pretty silly) idea of "Mars colonization" - it's missing ecology.

They can't even maintain functioning civilization in Antarctica... yet they "dream" of doing so in a place that's hundreds of times more hostile to human life.

[–] SCB@lemmy.world 24 points 11 months ago (14 children)

One of the things standing in the way of an"civilization" on Antarctica is that it's illegal to build a civilization on Antarctica. We could absolutely do it, assuming we were willing to fight a war and the resources were worth it

[–] lloram239@feddit.de 16 points 11 months ago (10 children)

We could absolutely do it

Every exploration into hostile environments heavily relies on goods and services imported from the rest of Earth. Biosphere 2 is as far as I know still the only time we ever tried to actually build a completely independent ecological system, but that was 30 years ago, in a non-hostile environment, only run for a short amount of time, still had tons of problems and would still be missing a lot of stuff to be truly self sustaining for long time periods (e.g. no industrial facilities).

[–] scarabic@lemmy.world 13 points 11 months ago (1 children)

Biosphere 2 is a great story and I wish there were more follow ups. They tried to set up favorable initial conditions and then seal the hatch. They found that the environment inside shifted and became inhospitable. The crops they planned on didn’t all sustain. Then they called it all off.

What if they had allowed the biosphere to keep shifting until it found its equilibrium point, and then set about finding advantages in that? Crops that would sustain in that?

An iterative process could build on mistakes and learnings. A one-shot, naive, all-or-nothing attempt where your starting conditions have to be just right… no wonder that it failed, but where was the next iteration? Why give it all up instead of tuning? I know it’s about money, but I wish someone with money cared enough to keep this thread going.

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[–] burliman@lemm.ee 7 points 11 months ago (1 children)

That’s a good point. There is at least as much to learn from Antarctica as from Mars. Maybe less maybe more, but certainly more relevant since it’s on Earth. Plus easier to get to than Mars. Yet we can’t scrounge up enough to keep a larger presence there.

Sometimes I can’t shake the feeling that we are living in another dark age. We need a real renaissance to shake it.

[–] BaroqueInMind@kbin.social 5 points 11 months ago* (last edited 11 months ago) (2 children)

We need a real renaissance to shake it.

One of the mandatory precursors to that is a major Hundred Years war that kills lots of people and displaces even more.

[–] AnUnusualRelic@lemmy.world 5 points 11 months ago

Luckily, that's one field where we've made a lot of progress, we won't need even close to one hundred years.

[–] WHYAREWEALLCAPS@kbin.social 4 points 11 months ago (2 children)

I've been hearing this "we need a new renaissance" spiel since the 80s. It really sounds like "I've got no ideas, so I'll distract with mentioning a time that is revered for it." to me nowadays.

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[–] Draegur@lemm.ee 49 points 11 months ago (2 children)

i mean shoot, mars is actually kinda worse than the moon in some ways. Like, the worst of both worlds except 'worlds' pertains to 'celestial bodies in general'. You have the same ultrafine toxic razor sharp dust that gets everywhere, sticks to everything, and destroys mechanical joints on contact, but on MARS it gets blown around by dust storms that blot out the entire sky sometimes for months or years on end, whereas on the moon it only redistributes and resettles due to electrostatic repulsion (due to solar radiation).

Mars' atmosphere is just thick enough to be a hassle for creating risk of burning up on reentry but still too thin to reliably drag-brake so you end up having to thread a much more annoying needle with respect to approach velocity, whereas on the moon it's just straight up active thrust descent every time you're landing.

In both cases, living on the surface is a sucker's game and the only viable option would be to tunnel down beneath into the regolith where a sufficient rock barrier will block enough of the solar and cosmic radiation to not drastically shorten your lifespan.

Furthermore the energy cost to get a payload from earth to mars is LITERALLY ASTRONOMICAL whereas escaping the moon's relatively weak gravity well to reach almost anywhere else in the solar system (including mars) is dwarfed by the oomph it takes to climb out of the earth's gravity well in the first place alone.

I'd go so far as to say that a mars colony would never be viable until and unless we have a viable lunar colony

but make no mistake, a lunar colony is mandatory if we ever want to explore the rest of the solar system or not have all our eggs in one basket as a species. the moon is practically MADE OF the infrastructure we'll need across the entire solar system,some assembly required. The amount of Aluminum and Silver waiting for us in that silicate regolith will be instrumental, especially because smelting and building up there will be drastically cheaper than manufacturing shit down here and then having to carry it ALL THE WAY UP ALL OVER AGAIN.

and like, that isn't even factoring sending any of what's produced back to earth, because even that might be a waste of effort when everything we could ever BUILD outside our gravity well is worth more being up there just by virtue of the fact that we didn't have to pay through the nose to SEND IT.

[–] bluGill@kbin.social 4 points 11 months ago (1 children)

It is less energy to go Mars to the moon than earth to the moon

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[–] Landsharkgun@midwest.social 32 points 11 months ago (4 children)

Do not colonize other planets. They suck. They have all the downsides of space habitats (needing sealed environment, etc), while also adding more (breaches now let in toxic dust instead of vacuum, cannot control gravity via spin, etc).

Just build O'Neil cylinders. If you can't do that, maybe work on stabilizing the ecosystem we evolved to live in. Nowhere will ever be better than here, folks.

[–] meyotch@slrpnk.net 11 points 11 months ago (1 children)

If it’s a Jack O’Neil cylinder, I will consider your proposal.

It works like a regular O’Neil cylinder, but cooler somehow.

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[–] PersnickityPenguin@lemm.ee 6 points 11 months ago

Lol

The whole concept behind colonizing a planet is to be able to exploit the resources.

Which you cannot do with an O'Neal Cylinder. Since you have to manufacture it yourself.

[–] Corkyskog@sh.itjust.works 3 points 11 months ago

There is so much about the cylinder concept that hasn't been thought out, it's just an insane undertaking even if it could all work. It started as a joke, but hey maybe one day someone will prove it to be a better reality.

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[–] AA5B@lemmy.world 19 points 11 months ago (2 children)

Is anyone really thinking we just need to reach Mars, then immediately set up a colony? No, reaching there is obviously only a first step, but once we can reach it, we can try things to see if we can live there. For myself, I’ve been saying we need to hurry up and reach Mars because we have like 100 years of work before we can establish a colony so let’s get started

[–] Icaria@lemmy.world 6 points 11 months ago (1 children)

I think the far-more realistic scenario is we create a colony of robots, first for experiments, then (if possible) to build out a colony that can eventually be inhabited by humans.

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[–] Ddub@lemmy.ca 6 points 11 months ago (2 children)

I don't disagree that having a self sustaining population of humans somewhere other than earth will be an important milestone.

But a much more pressing milestone is a the first self sufficient population, which I don't see mars supporting

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[–] alienanimals@lemmy.world 15 points 11 months ago (2 children)

"We choose to go to the moon in this decade and do the other things not because they are easy, but because they are hard." -JFK

Space is inhospitable to human life, but look at the countless inventions and benefits we've gotten from exploring space, the moon, etc. Humanity will continue to grow, learn, and try new things regardless of what the pessimistic Weinersmiths believe.

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[–] FlyingSquid@lemmy.world 10 points 11 months ago (1 children)

That was a very interesting read. I've always been a bit skeptical of people who say we'll be living in space or colonizing other planets in the near future. I definitely want to read their book.

Also, this made me laugh:

And do you really want to create a group of hungry, disgruntled miners that are also able to sling very large rocks at the Earth?

That said, slinging large rocks back to Earth is the only way I can see them returning whatever they mine and that doesn't sound like a great plan either.

[–] TehWorld@lemmy.world 10 points 11 months ago (1 children)

Not to mention the doors and corners…

[–] WHYAREWEALLCAPS@kbin.social 4 points 11 months ago

That's where they get you.

[–] Jaysyn@kbin.social 10 points 11 months ago

All the more reason to send billionaires there.

[–] Diplomjodler@feddit.de 8 points 11 months ago

Yeah, there's a lot we don't know and a lot we haven't figured out yet. And it's definitely a tough nut to crack. But concluding from that, that is impossible is dumb. Everything is impossible until somebody goes and does it.

[–] 0x0@programming.dev 7 points 11 months ago (1 children)

Kim Stanley Robinson's Mars trilogy is a must-read.

[–] AmosBurton_ThatGuy@lemmy.ca 3 points 11 months ago

Just finished the trilogy last week. Amazing books, a bit dry at times but overall a very enjoyable read about what the politics and technology might look like to terraform and colonize Mars.

[–] fubo@lemmy.world 6 points 11 months ago (1 children)

For instance, supposedly space will end scarcity… and yet, any habitat in space will naturally have only a single source of food, water, and, even more urgent, oxygen, creating (perhaps artificial) scarcity.

Huh? Sure, if we forget absolutely everything we ever knew about reliability engineering.

Take air, for instance. If you're considering a community on the scale of a town or city, expect that it will be naturally divided into smaller physical units, corresponding to smaller social units in the community. Rather than having one big air supply for the whole "town" — which can fail or be sabotaged, creating an existential risk for the whole community — it'd likely be much safer to have small air systems for each household, neighborhood, commune, or other unit. You probably have to have them anyway for emergencies.

[–] tburkhol@lemmy.world 8 points 11 months ago

Infrastructure for distributing the air once it gets to the settlement is one thing. At least for now, though, Earth is the only place to get oxygen in life-sustaining quantities, which is the single source they're talking about.

Maybe you can posit harvesting oxygen from mineral oxides, hydrolyzing water if you can find it, or capturing an ice asteroid. Whether you split every atom of oxygen you breathe out of rust or lift them out of earth's gravity, let alone doing both for redundancy, it's orders of magnitude more energy and complexity than growing potatoes in Antarctica.

[–] steltek@lemm.ee 6 points 11 months ago (1 children)

Is someone actually proposing that we're simply going to dump would-be colonists on Mars with a shovel and some O2 tanks then wave goodbye? Like, no shit we still need to work things out but that just means it's unknown, not impossible.

This book seems unnecessarily pessimistic. I don't know why I would spend money on doomscrolling, Kindle Edition.

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[–] scarabic@lemmy.world 6 points 11 months ago* (last edited 11 months ago) (2 children)

No fetuses have gestated in low gravity. That sounds like something we could do animal trials on.

But wow, getting a live sheep into space, and fed, and exercised, and cleaned, all for months… that alone is a big undertaking. Just to get a single data point that’s about another species.

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[–] autotldr@lemmings.world 4 points 11 months ago

This is the best summary I could come up with:


Unfortunately for the Weinersmiths, they actually asked questions like “how would that work, exactly?” Apart from rocketry (e.g., the getting to space part), the answers were mostly optimistic handwaving combined with a kind of neo-manifest destiny ideology that might have given Andrew Jackson pause.

The Weinersmiths start with human biology and psychology, pass through technology, the law, and population viability and end with a kind of call to action.

Apparently, nuclear weapons-wielding countries won’t react negatively to private citizens claiming large bits of space.

The magical thinking is more apparent when you realize that it is believed that encountering the vastness of space will make humanity ultra-altruistic, while still being good capitalists.

In a more realistic take on how societies function when there is only one source for the vitals of life, the Weinersmiths draw on the experiences (positive and negative) of company towns.

The point is that we have a tiny space station, and we have the potential to build a lot of experimental facilities on Earth where we can investigate some of the practical problems.


The original article contains 900 words, the summary contains 177 words. Saved 80%. I'm a bot and I'm open source!

[–] 0x0@programming.dev 3 points 11 months ago

Mars has no magnetosphere so it's very hard to have a breathable atmosphere.

The moon's barely got gravity, and our bodies need it.

A space station would be a good start so long as it spins so we can have the semblance of gravity.

No one knows if you can turn a profit mining asteroids.

If mining techniques reach the same level of advancement as on Earth? I don't see why not. I also don't see why bother to send ore back other than to pay-off some initial investment.

(One of) the biggest obstacles in space is leaving Earth's gravity well, so sending mining machines to the asteroids would be interesting. Then maybe move the ISS to a La Grange point instead of destroying it, use it as a base to turn that ore into a spinning space station.

[–] ArbitraryValue@sh.itjust.works 3 points 11 months ago (1 children)

The level of automation necessary for manufacturing in space is going to be very close to removing humans from the process entirely. Taking it that one step further and having robots manufacture robots would eliminate all the issues with keeping flesh-and-blood human bodies alive.

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