who's been suggesting that we "improve [the] environment by force" on Mars?
I think this was a poor choice of words by the writer in question.
What I believe they meant by 'force' was instead of deciding on a formulaic approach with an expected outcome, why not just throw some stuff up there and see what happens.
> why not just throw some stuff up there and see what happens.
Martian atmosphere is a good classroom-grade vacuum. Considering the enormous cost of sending stuff there (and landing it safely) we would have to be careful not to send stuff that would die in a couple seconds of exposure to water-freezing temperatures, water-boiling vacuums and ultraviolet that would give the average human a Röntgen tan in about 10 seconds.
Colonizing Mars will not be an easy undertaking without several breakthroughs in access to orbit, deep-space propulsion and radiation shielding.
I agree with you completely and apologize for the accidental downmod. The arrows are too close for iPod users.
There are almost certainly some low cost methods that have yet to be considered seriously but it's a tough problem that will require tools we haven't even developed yet.
Given that bacteria spores are known to survive for millions of years in dormancy, it wouldn't be a wasted effort to litter Mars with different and hardy species of bacteria. Even if the planet can't support them right now, it could lead to a potentially explosive growth in their population when temperatures hit just right.
Considering that the hottest temperature recorded on Mars was 32C, talking like it's a wasted effort is wholly naive considering the survivability of regular bacterium, not to mention the extremeophiles. Cryophiles can reproduce down to -15C and up to above 10C. Radioresistant bacteria can survive 1500 times the dosage of radiation humans can, making Mars a breeze. Similarly there's radiotrophic fungus that actually grow off of ionizing radiation.
The biggest concern with viability on Mars is that the regolith has such a high concentration of free radicals that any complex organisms simply could not survive in unprocessed soils. Essentially if we suck our thumbs and wait for the engineering of a super bacteria to survive all the environmental conditions, we're going to have to be engineering it to survive harsher soil conditions than we even know. Whilst bombarding the planet with bacteria and fungus that will only survive in the environment will help us in the long run.
It would be advantageous to simply transfer several tons of select bacteria and extremophiles to Mars and colonize areas where temperatures routinely manage to hit above freezing. The lesson people fail to learn is that life doesn't adapt to its environment, it adapts its environment to life.
Radiotrophic fungus is a black fungus, if conditions are adequate in this +0C regions for it to thrive, it would slowly decrease the regions albedo (increasing the regions temperature) and allow it a longer reproduction cycle. Similarly landing this in a natural heat-trap like a crater or valley would only dramatically increase the effect.
Colonizing Mars is a different story, but we should begin terraforming ASAP. Complex plant life would transform Mars completely within a single persons lifespan, however all complex plant life survives in a mixture of O2 producing and CO2 producing respirations. Until the atmosphere has O2 present in an actual percentage, terraforming will require exceedingly complex greenhouses not necessarily to trap in heat, but to trap in oxygen.
You can irrigate countless acres very simply to provide the necessary water, you can't build the necessary domes or greenhouses, etc, that would be needed to trap oxygen.
It's simplistic to say, but throwing everything at Mars and seeing what sticks certainly wouldn't hurt, and if you aim it at some good spots, it could even thrive with amazing simplicity on such a complex problem.
I mean if we're pissing around imagining bacteria (I've heard of no actual effort to genetically engineer a viable terraforming bacteria, so this is based on assumption) we might as well imagine one that performs self-sustaining electrolysis of rust to release the vast tonnages of sequestered oxygen in the Martian soil.
> Colonizing Mars is a different story, but we should begin terraforming ASAP
I would prefer to have a more thorough understanding of the Martian environment before we start dumping extremophiles on it. Besides, we want to understand how the organisms we throw at it will change the environment before we throw them in.
Darwin's experiment would have provoked a very hostile reaction today.
We can't understand an organisms behavior in a hostile petri dish. Nothing lives on Mars, introducing an organism will produce results vastly different than anything we know on earth.
The only way we can control test this reliably is by building the worlds largest vacuated building, recreating the martian atmosphere below ~100ft (which may not be reliable as bacterial spores have been found well up in rain clouds), recreating the regolith to a compositional level, but also to a radiation level to account for all the free radical oxygens in it, then you have to recreate the light levels and daily cycles including UV and ionizing radiation. Then we'll have a reliable way to understand how the organisms will change the environment and how the environment may change the organisms.
We may be able to understand how the organisms will change the environment in the short term, but it's the long term that we're blind of and will remain blind of until we try. Introducing these organisms will change the environment, which will land new pressures on the organisms (IE evolutionary pressures) that could change the organisms meaning they'll deviate from our expected behaviors and our model for environment change will become increasingly inaccurate.
We can get a good bet through genome modelling (similar to what they did with the geobacter that can 'eat' iron, uranium, plutonium, etc), but in a high radiation environment we can only bet money on the radiotrophic fungus' and radioresistant bacterias to not mutate in ways we can't predict.
Perhaps the idea shouldn't be to recreate our environment, but to create a truly Martian one by giving it basic protobacteria and time.
I think this was a poor choice of words by the writer in question.
What I believe they meant by 'force' was instead of deciding on a formulaic approach with an expected outcome, why not just throw some stuff up there and see what happens.