I was thinking about the idea of exploring another habitable world when I saw this thread title and without suits its impossible/highly dangerous even if any such planet is Earth like. Our immune systems for example would probably be torn to shreads by alien bacteria/viruses.
Could we adpat and if so how long would a colony of people need to live there for ?
Perhaps it would take alien diseases awhile to adapt to
us.
Yes. Alien viruses are less of a threat to human habitation than, say, archaea viruses. Bacteria may be problematic, but perhaps less so than the strains subject to a systematic campaign of destruction carried out by a scientific, intelligent eukaryote.
All this assuming identical chirality, as Great Mambo Chicken mentioned. I don't know where they're getting the idea that obligate, species-tuned parasites like viruses are capable of rapidly jumping domains* like a New York subway turnstile. Maybe I'm wrong about that, but it seems unlikely to me.
Udat said:
As for food, surely proteins and carbohydrates etc are going to be the same from planet to planet?
Nope, unless there's a particular adaptive reason we use right (or is it left?) handed proteins. Which there may be. From the Mighty Wiki:
The origin of this
homochirality in
biology is the subject of much debate.
[10] Most scientists believe that Earth life's "choice" of chirality was purely random, and that if carbon-based life forms exist elsewhere in the universe, their chemistry could theoretically have opposite chirality. However, there is some suggestion that early amino acids could have formed in comet dust. In this case, circularly polarised radiation (which makes up 17% of stellar radiation) could have caused the selective destruction of one chirality of amino acids, leading to a selection bias which ultimately resulted in all life on Earth being homochiral.
[11]
So maybe two biospheres in the same planetary system would still have a high likelihood of being homochiral. Neat.
Anyway, as for technology that could detect life? Equipment capable of determining the chemical composition of a nearby planet's atmosphere would work. O2 content equals life, because there is no significant mechanism (that I am aware of) to sustain a molecular oxygen atmosphere except photosynthesis. Likewise, aerobic life will also probably exist where there's photosynthesis, because of the O2 toxicity problem.
F2 and Cl2-heavy atmospheres would lend themselves to the same analysis, but they're unlikely for a number of reasons, and you wouldn't want to visit anyway.
Also, in the case of an Earthlike world, you could just have a sufficiently powerful telescope and look at the clouds and oceans and vegetation deposits (possibly green, maybe black or red, iirc green has more to do with our sun's specific emission curve).
*Domains isn't really the right word. I looked this up the other day and I couldn't find anything relating to an astrobiological taxonomical system, that would have a classification to differentiate between life systems from two separate planets and no phylogenetic relationship. I personally like "oikumene."
