The Lost World - Michael Crichton [135]
“Sorry,” she said, continuing to clean his wound.
“But the point,” Malcolm said, “is that this intricate developmental process in the cell is something we can barely describe, let alone understand. Do you realize the limits of our understanding? Mathematically, we can describe two things interacting, like two planets in space. Three things interacting—three planets in space—well, that becomes a problem. Four or five things interacting, we can’t really do it. And inside the cell, there’s one hundred thousand things interacting. You have to throw up your hands. It’s so complex—how is it even possible that life ever happens at all? Some people think the answer is that living forms organize themselves. Life creates its own order, the way crystallization creates order. Some people think life crystallizes into being, and that’s how the complexity is managed.
“Because, if you didn’t know any physical chemistry, you could look at a crystal and ask all the same questions. You’d see those beautiful spars, those perfect geometric facets, and you could ask, What’s controlling this process? How does the crystal end up so perfectly formed—and looking so much like other crystals? But it turns out a crystal is just the way molecular forces arrange themselves in solid form. No one controls it. It happens on its own. To ask a lot of questions about a crystal means you don’t understand the fundamental nature of the processes that led to its creation.
“So maybe living forms are a kind of crystallization. Maybe life just happens. And maybe, like crystals, there’s a characteristic order to living things that is generated by their interacting elements. Okay. Well, one of the things that crystals teach us is that order can arise very fast. One minute you have a liquid, with all the molecules moving randomly. The next minute, a crystal forms, and all the molecules are locked in order. Right?”
“Right . . .”
“Okay. Now. Think of the interaction of life forms on the planet to make an ecosystem. That’s even more complex than a single animal. All the arrangements are very complicated. Like the yucca plant. You know about that?”
“Tell me.”
“The yucca plant depends on a particular moth which gathers pollen into a ball, and carries the ball to a different plant—not a different flower on the same plant—where it rubs the ball on the plant, fertilizing it. Only then does the moth lay its eggs. The yucca plant can’t survive without the moth. The moth can’t survive without the plant. Complex interactions like that make you think maybe behavior is a kind of crystallization, too.”
“You’re speaking metaphorically?” Harding said.
“I’m talking about all the order in the natural world,” Malcolm said. “And how perhaps it can emerge fast, through crystallization. Because complex animals can evolve their behavior rapidly. Changes can occur very quickly. Human beings are transforming the planet, and nobody knows whether it’s a dangerous development or not. So these behavioral processes can happen faster than we usually think evolution occurs. In ten thousand years human beings have gone from hunting to farming to cities to cyberspace. Behavior is screaming forward, and it might be nonadaptive. Nobody knows. Although personally, I think cyberspace means the end of our species.”
“Yes? Why is that?”
“Because it means the end of innovation,” Malcolm said. “This idea that the whole world is wired together is mass death. Every biologist knows that small groups in isolation evolve fastest. You put a thousand birds on an ocean island and they’ll evolve very fast. You put ten thousand on a big continent, and their evolution slows down. Now, for our own species, evolution occurs mostly through our behavior. We innovate new behavior to adapt. And everybody on earth knows that innovation only occurs in small groups. Put three people on a committee and they may get something done. Ten people, and it gets harder.