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It all started in "some warm, little pond."

Nearly 150 years ago, Charles Darwin wrote a personal letter to a friend and laid out the scaffolding of what would later be called primordial soup theory: Basically, Earth's original blend of gases produced a broth of organic molecules when exposed to light and heat, eventually forming the building blocks of life in amino acids. Now, research scientists are lining up more and more evidence that he was probably right.

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Not only did Darwin suggest an overall primordial soup—he identified some nuanced ways that a smaller, closed body of water would make a better mix. In an 1871 letter to a friend, Darwin wrote:

Eighty years later, scientists finally followed Darwin’s recipe, with added understanding of chemical facts like amino acids that weren’t discovered until decades after Darwin’s letter. With enough amino acid pieces swirling in the same body of water, scientists believe, almost all combinations will end up occurring. The million monkeys have turned to stirring the soup.

There are some key factors here that scientists now believe are critical to a successful primordial soup. And, honestly, you can think of it like a regular soup. Imagine throwing one bouillon cube into an entire stockpot versus a small saucepan full of water. Not only will your stockpot full have very little flavor, it will take forever for the water to heat enough for the bouillon cube to dissolve all the way.

It will even be more difficult to pin down remaining pieces to break up with a wooden spoon. That means a primordial soup with all the same ingredients like different amino acids and electrolytes will respond very differently to sunlight on a small pond versus a large ocean.

And, as the BBC points out, even the size of a small pond varies from day to night and from season to season, making a kind of running experiment that iterates the same materials at every possible concentration and condition:

One incredible thing is that, as with his understanding of even basic concepts about heredity and evolution, Darwin did a pretty good job reverse engineering hugely complex ideas without almost any of the scientific building blocks we know about now.

So far, scientists haven’t pinned down the exact combination of factors, which could be infinitely complex. If they ever do, that technology will join existing synthetic biology like human-made viruses and bacteria, opening up a new world of artificial lifeforms and the ethical questions that follow.

For now, researchers will keep gently agitating mixtures of aminos and other chemicals. And forget Nosferatu—the forward-looking work of icons like Leonardo da Vinci and Charles Darwin is spooky enough sometimes.