Simon Stålenhag

The feeling of reality kicking it's ugly boot through the door to the most sacred, most fantastic, most untouched of your childhood fantasies and stories is very strong in the works of Swedish artist Simon Stålenhag. 

The way he combines the most everyday items and locations with the fantastic is spectacular, and I must admit I've never seen anything like it.

Sometimes you're stuck with an image depicting enormous constructions falling apart, rusting and littering the countryside like leftovers from a huge saving-humanity-as-we-know-it experiment gone wrong. Or maybe even gone right, and this is what remains afterwards; A mess next to the highway that people has to pass in their everyday business. 

In our stories we always focus on the heroes, the scientists, the military men, the characters in the middle, but what would the world look like to the regular people after the threat was defeated, and life continued it's regular beat? Probably a lot like this... 

Some Ground Rules for Alien life

How Stuff Works has a very interesting article about the rules for alien life, written by Craig C. Freudenrich, Ph.D (B.A. in biology from West Virginia University) and Ph.D. in physiology from University of Pittsburgh School of Medicine before completing eight years of postdoctoral research at Duke University Medical Center).

Some Ground Rules for Alien life 

Using what we have learned from life on Earth, what can we say about alien life? While it would probably be vastly different from life on Earth, alien life would probably adhere to certain universal guidelines, as the widely varying life on Earth does. These guidelines or ground rules include the following:Alien life would be governed by laws of physics and chemistry.
Alien life would be based on some type of chemistry (eliminating the sci-fi concept of pure-energy beings).

• Solvent - On Earth, the solvent for all of our biochemicals is liquid water. Other chemicals could be solvents as well, such as ammonia, methane, hydrogen sulfide or hydrogen fluoride.

• Temperature - Alien life may require temperatures at which its solvent can remain liquid.

• Pressure - Alien life may require environmental pressures (and temperatures) that allow solvents to exist in three states of matter (solid, liquid, gas).

• Energy source - Living things require energy to remain organized. This energy may come from a star or from chemical or geothermal energy (as in hydrothermal vents and hot springs). On any alien world, there would have to be some source of energy to sustain life.

• Complex molecules - Living things on Earth are organized and made of complex, carbon-based molecules that carry out biochemical functions. Carbon is a versatile atom that can form bonds with up to four other atoms, in many shapes, to make molecules. Although not as versatile as carbon, silicon can also form up to four bonds with other atoms and has been proposed as a basis for molecules of alien life (silicon-carbon hybrid molecules have also been proposed). It is likely that alien life forms would have some type of complex molecule to carry out similar functions.

• Informational molecule - In Earth organisms, deoxyribonucleid acid (DNA) is a complex molecule that carries genetic information and directs the formation of other molecules in order for life to reproduce and function. Because a characteristic of life is that it reproduces, it seems likely that alien life forms would also have some type of informational molecule.

Alien beings that are larger than microbes would have some equivalent of cells. As an organism gets larger, its internal volume (cubic function) grows faster than its surface area (square function). This places a limit on the organism's size, because substances from the outside of the organism must pass into and throughout the organism by diffusion, which depends upon large surface areas, short distances and differences in concentrations. As an organism grows larger, the distance to its center increases and diffusion gets slower. To maintain workable diffusion distances, an organism must have many small cells instead of one large cell. So, an alien would be multi-celled if it is larger than a microbe. 

Alien life would evolve and adapt to its surroundings by the theory of evolution as previously explained.
The physiological make-up of a multi-celled alien would be most suited to its environment. Organ systems would be adapted to environmental conditions such as temperature, moisture and gravity. 

• The alien would have some way of bringing solids, liquids and gases inside its body, distributing them to every cell and removing waste products (equivalents of heart, blood vessels and kidneys, for instance).

• The alien would be able to take in energy from its surroundings, extract the energy and eliminate wastes.

• The alien would have senses (such as sight, sound, touch) to obtain information from the environment and respond to stimuli (while we use vision as our primary sense, this may not be true of aliens). They would also have some type of brain or nervous system to process information.

• The alien would have some means of reproduction, either sexual or asexual.

Alien organisms would probably have similar ecological structures to life on Earth.

• Population sizes would be limited based on the predominance of food, predators, disease and other environmental factors.

• Alien life forms would exist in food chains and food webs in their native environment, like life on Earth. Producers will make food, consumers will eat producers and/or other consumers and decomposers will recycle atoms and molecules from dead organisms back into the environment.

• Alien life forms will be integrated with their habitats and ecosystems, like life on Earth.

As you can see, life of any kind is intimately tied to its environment, so the characteristics of the planet would be extremely important in determining the characteristics of the life form. 

A very nice article with a very straight forward approach, focusing on the nature and evolution of an alien world and whatever life might be found there. Especially that life on that planet ought to fit into it's native ecosystems, even if it has removed itself from it's natural place in the food chain (E.g. via civilisation), it would still have kept the same traits, physically as well as psychologic.
Talking about food chains and ecosystems: That might cause problems if we ever decide to colonize alien planets already containing native lifeforms - how would we fit in? Would we be able to digest anything at all from that planet? And how would our dead bodies on the other hand decompose on the alien world, without risking a genocide?

Art by Alex Ries

http://abiogenisis.deviantart.com/

Alex Ries

Alex Ries is an Australian illustrator and concept artist, currently based in Melbourne.
He is probably best known for his original approach to creature design and has worked with clients including book publishers, videogame developers and the scientific and medical communities.

His education and experience, coupled with a strong interest in biology, zoology and real-world technology, has fostered an amazingly artistic style able to not only accurately illustrate life from the real world, but fictional life as well.

He's been doing this for years and for a range of medias, but especially his thought and designs on aliens are interesting. They all seems very applaudable and real, and you accept them on the spot as living beings.
His designs, colours and the way he poses and presents his creatures makes you think more in the lines of BBC nature and historic programs than Star Wars I-VI. It's all got this underplayed tune running as a red line throughout most of his artwork.

Birrin:
And even though most of his stuff is worth a close study, his Birrin project close to being his most fascinating one.

The Birrin are a sentient hexapod (six limbed) living on a Venus sized home world. And they seem to enjoy life immensely! They do drugs, socialize, explores, hunts and fights with great enthusiasm.
He illustrates and writes small scenarios of their social and cultural development through the ages, which is not quite unlike ours.
I really like their designs very much and I am always eager to see more about the Birrin.

If I have to put my finger on anything, it has to be that I still need to see where they really differ from us, other than in their apperance. What's their psyche like? When threatened, how do they react?
I am aware that some theories works with the idea, that civilized alien species will have more in common than not (read interesting io9 article here), but what if they for example communicated via chemicals? How would that effect their cultural and technological development? Stuff like that...
But that's minor details. I still find them more believable than the Na'vi... 

Alex Ries uses his Deviantart account both as a gallery for his brilliant art as well as as a puplic forum, where he posts thought for general debate and decision making on anything related to his works. 

For a short introduction to him, his works and his thoughts, don't hessitate to watch this wee video presentation made in connection with a course he gave at Phoenix Atelier in the fall of 2013. 

Origin of Life?

One of the questions that's been annoying me for years is this: What is the point with life?
Not "what's the point" in any general or philosophical way, but literally: What IS the point?
And don't bother bringing God into this. It's a whole other discussion, and I'd be happy to take that up later, but for now I'm on another mission.

Because what is the point with life?

Everything else in the universe seems to fall into some patterns or laws, which gives some kind of purpose. Gasses come together and form giant clouds that becomes structures that becomes stars and planets - all bound by laws of physics. The planets are kept orbiting stars, stars orbiting the galaxy etc. It makes kind of sense! It's there because it cannot not be there! It's a kind of universal evolution. I'm probably speaking against better knowledge, but then I'd love to be educated. Life doesn't seem to follow laws as such. It's just a byproduct - something that accidentally popped up on this tiny cockwheel in the universal clockwork.

So how did life come to be? Is it a physical reaction of chemicals and lightning, or a freak accident?

A young MIT scientist, Jeremy England (By the way - isn't that just the coolest name for a science guy ever?) has come up without very interesting thesis: Life evolved out of a necessity on an atomic scale:

"From the standpoint of physics, there is one essential difference between living things and inanimate clumps of carbon atoms: The former tend to be much better at capturing energy from their environment and dissipating that energy as heat. 

Jeremy England, a 31-year-old assistant professor at the Massachusetts Institute of Technology, has derived a mathematical formula that he believes explains this capacity. The formula, based on established physics, indicates that when a group of atoms is driven by an external source of energy (like the sun or chemical fuel) and surrounded by 

a heat bath (like the ocean or atmosphere), it will often gradually restructure itself in order to dissipate increasingly more energy. 

This could mean that under certain conditions, matter inexorably acquires the key physical attribute associated with life."   

He states that the origin and evolution of life are processes driven by the fundamental laws of nature — namely the Second Law of Thermodynamics. He's come up with a formula showing how a group of atoms, when driven by an external source of energy (like the sun) and when surrounded by a heat bath (like the ocean or atmosphere), can sometimes restructure itself as a way to dissipate increasing rates of energy.

So, according to the Jeremy England, the origin and subsequent evolution of life follow from the fundamental laws of nature and “should be as unsurprising as rocks rolling downhill.”

“You start with a random clump of atoms, and if you shine light on it for long enough, it should not be so surprising that you get a plant,” England continous.

The thesis has gained a lot of response from the scientific community - responses reaching from  "interesting" to "absurd" and "pure speculation."

I'd go with "interesting" here, because it kind of makes sense to me. 

Of course, this planet could for all we know be the only one with any kind of life on it. We might just have to face the fact, that we are alone in this universe. But it would be odd, wouldn't it?

I guess that if the theory of Jeremy England is true, chances on finding traces of life on Mars just got beefed up...

Wanna know more? //www.simonsfoundation.org/quanta/20140122-a-new-physics-theory-of-life/

Idolomantis diabolica

This bug is just... striking, I guess the correct term is.

It's the "Idolomantis Diabolica" - also depictured above...

An awesome little trooper.

It really is a huge universe...

I really haven't got a lot to say but this: It's an enormous clock, and we're but corner goo on a minor cogwheel...

What is a jellyfish?

Alien jellyfish is the 90'es equivalent of the 50'es bug-eyed aliens. They're still alien to behold, but sooo peaceful and tranquil. Like the hippies of the deep sea.

Having said so this little movie is quite a treat - and it reminds us just how strange these creatures are - and that a jellyfish isn't just any jellyfish. Our definition of "jellyfish" looks a bit daft after watching this, since said definition basically just is a large box containing whatever looks see-through and wobbly found anywhere near water. They aren't the same species for a start. So watch and learn. I'm amazed here. 

And here I haven't even been taking up on the Awwwww! factor. It looks awesome.

Enjoy the movie :)