Please double-click on the English subtitles below to play the video.
00:13
I study ants, and that's because I like to think about how organizations work.
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And in particular, how the simple parts of organizations
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interact to create the behavior of the whole organization.
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So, ant colonies are a good example of an organization like that,
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and there are many others. The web is one.
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There are many biological systems like that --
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brains, cells, developing embryos.
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There are about 10,000 species of ants.
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They all live in colonies consisting of one or a few queens,
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and then all the ants you see walking around are sterile female workers.
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And all ant colonies have in common that there's no central control.
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Nobody tells anybody what to do.
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The queen just lays the eggs. There's no management.
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No ant directs the behavior of any other ant.
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And I try to figure out how that works.
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And I've been working for the past 20 years
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on a population of seed-eating ants in southeastern Arizona.
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Here's my study site. This is really a picture of ants,
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and the rabbit just happens to be there.
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And these ants are called harvester ants because they eat seeds.
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This is the nest of the mature colony, and there's the nest entrance.
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And they forage maybe for about 20 meters away,
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gather up the seeds and bring them back to the nest, and store them.
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And every year I go there and make a map of my study site.
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This is just a road. And it's not very big:
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it's about 250 meters on one side, 400 on the other.
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And every colony has a name, which is a number,
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which is painted on a rock. And I go there every year
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and look for all the colonies that were alive the year before,
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and figure out which ones have died, and put all the new ones on the map.
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And by doing this I know how old they all are.
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And because of that, I've been able to study how their behavior changes
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as the colony gets older and larger.
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So I want to tell you about the life cycle of a colony.
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Ants never make more ants; colonies make more colonies.
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And they do that by each year sending out the reproductives --
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those are the ones with wings -- on a mating flight.
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So every year, on the same day -- and it's a mystery exactly how that happens --
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each colony sends out its virgin, unmated queens with wings, and the males,
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and they all fly to a common place. And they mate.
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And this shows a recently virgin queen. Here's her wings.
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And she's in the process of mating with this male,
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and there's another male on top waiting his turn.
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Often the queens mate more than once.
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And after that, the males all die. That's it for them.
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(Laughter)
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And then the newly mated queens fly off somewhere, drop their wings,
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dig a hole and go into that hole and start laying eggs.
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And they will live for 15 or 20 years, continuing to lay eggs
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using the sperm from that original mating.
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So the queen goes down in there.
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She lays eggs, she feeds the larvae -- so an ant starts as an egg, then it's a larva.
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She feeds the larvae by regurgitating from her fat reserves.
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Then, as soon as the ants -- the first group of ants -- emerge,
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they're larvae. Then they're pupae. Then they come out as adult ants.
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They go out, they get the food, they dig the nest,
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and the queen never comes out again.
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So this is a one-year-old colony -- this happens to be 536.
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There's the nest entrance, there's a pencil for scale.
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So this is the colony founded by a queen the previous summer.
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This is a three-year-old colony.
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There's the nest entrance, there's a pencil for scale.
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They make a midden, a pile of refuse -- mostly the husks of the seeds that they eat.
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This is a five-year-old colony. This is the nest entrance, here's a pencil for scale.
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This is about as big as they get, about a meter across.
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And then this is how colony size and numbers of worker ants changes --
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so this is about 10,000 worker ants --
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changes as a function of colony age, in years.
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So it starts out with zero ants, just the founding queen,
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and it grows to a size of about 10 or 12 thousand ants when the colony is five.
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And it stays that size until the queen dies
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and there's nobody to make more ants, when she's about 15 or 20 years old.
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And it's when they reach this stable size, in numbers of ants,
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that they start to reproduce.
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That is, to send more winged queens and males to that year's mating flight.
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And I know how colony size changes as a function of colony age
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because I've dug up colonies of known age and counted all the ants. (Laughter)
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So that's not the most fun part of this research, although it's interesting.
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(Laughter)
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Really the question that I think about with these ants is what I call task allocation.
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That's not just how is the colony organized,
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but how does it change what it's doing?
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How is it that the colony manages to adjust
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the numbers of workers performing each task as conditions change?
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So, things happen to an ant colony.
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When it rains in the summer, it floods in the desert.
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There's a lot of damage to the nest,
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and extra ants are needed to clean up that mess.
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When extra food becomes available --
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and this is what everybody knows about picnics --
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then extra ants are allocated to collect the food.
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So, with nobody telling anybody what to do, how is it that
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the colony manages to adjust the numbers of workers performing each task?
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And that's the process that I call task allocation.
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And in harvester ants, I divide the tasks
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of the ants I see just outside the nest
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into these four categories: where an ant is foraging,
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when it's out along the foraging trail, searching for food or bringing food back.
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The patrollers -- that's supposed to be a magnifying glass --
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are an interesting group that go out early in the morning
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before the foragers are active.
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They somehow choose the direction that the foragers will go,
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and by coming back -- just by making it back --
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they tell the foragers that it's safe to go out.
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Then the nest maintenance workers work inside the nest,
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and I wanted to say that the nests look a lot like Bill Lishman's house.
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That is, that there are chambers inside,
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they line the walls of the chambers with moist soil
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and it dries to a kind of an adobe-like surface in it.
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It also looks very similar to some of the cave dwellings
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of the Hopi people that are in that area.
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And the nest maintenance workers do that inside the nest,
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and then they come out of the nest carrying bits of dry soil in their mandibles.
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So you see the nest maintenance workers come out with a bit of sand,
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put it down, turn around, and go back in.
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And finally, the midden workers put some kind of territorial chemical in the garbage.
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So what you see the midden workers doing is making a pile of refuse.
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On one day, it'll all be here, and then the next day
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they'll move it over there, and then they'll move it back.
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So that's what the midden workers do.
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And these four groups are just the ants outside the nest.
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So that's only about 25 percent of the colony, and they're the oldest ants.
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So, an ant starts out somewhere near the queen.
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And when we dig up nests we find they're about as deep
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as the colony is wide, so about a meter deep for the big old nests.
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And then there's another long tunnel and a chamber, where we often find the queen,
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after eight hours of hacking away at the rock with pickaxes.
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I don't think that chamber has evolved because of me and my backhoe
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and my crew of students with pickaxes,
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but instead because when there's flooding,
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occasionally the colony has to go down deep.
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So there's this whole network of chambers.
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The queen's in there somewhere; she just lays eggs.
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There's the larvae, and they consume most of the food.
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And this is true of most ants --
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that the ants you see walking around don't do much eating.
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They bring it back and feed it to the larvae.
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When the foragers come in with food, they just drop it into the upper chamber,
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and other ants come up from below, get the food,
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bring it back, husk the seeds, and pile them up.
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There are nest maintenance workers working throughout the nest.
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And curiously, and interestingly, it looks as though at any time
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about half the ants in the colony are just doing nothing.
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So, despite what it says in the Bible,
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about, you know, "Look to the ant, thou sluggard,"
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in fact, you could think of those ants as reserves.
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That is to say, if something happened -- and I've never seen anything like this happen,
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but I've only been looking for 20 years --
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if something happened, they might all come out if they were needed.
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But in fact, mostly they're just hanging around in there.
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And I think it's a very interesting question --
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what is there about the way the colony is organized
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that might give some function to a reserve of ants who are doing nothing?
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And they sort of stand as a buffer in between
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the ants working deep inside the nest and the ants working outside.
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And if you mark ants that are working outside, and dig up a colony,
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you never see them deep down.
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So what's happening is that the ants work inside the nest when they're younger.
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They somehow get into this reserve.
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And then eventually they get recruited to join this exterior workforce.
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And once they belong to the ants that work outside, they never go back down.
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Now ants -- most ants, including these, don't see very well.
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They have eyes, they can distinguish between light and dark,
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but they mostly work by smell.
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So just to reinforce that what you might have thought
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about ant queens isn't true --
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you know, even if the queen did have the intelligence
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to send chemical messages through this whole network of chambers
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to tell the ants outside what to do,
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there is no way that such messages could make it in time to see
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the shifts in the allocation of workers that we actually see outside the nest.
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So that's one way that we know the queen isn't directing the behavior of the colony.
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So when I first set out to work on task allocation,
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my first question was, "What's the relationship
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between the ants doing different tasks?
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Does it matter to the foragers what the nest maintenance workers are doing?
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Does it matter to the midden workers what the patrollers are doing?"
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And I was working in the context of a view of ant colonies in which each ant
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was somehow dedicated to its task from birth
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and sort of performed independently of the others,
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knowing its place on the assembly line.
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And instead I wanted to ask, "How are the different task groups interdependent?"
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So I did experiments where I changed one thing.
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So for example, I created more work for the nest maintenance workers
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by putting out a pile of toothpicks near the nest entrance,
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early in the morning when the nest maintenance workers are first active.
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This is what it looks like about 20 minutes later.
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Here it is about 40 minutes later.
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And the nest maintenance workers just take all the toothpicks
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to the outer edge of the nest mound and leave them there.
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And what I wanted to know was, "OK,
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here's a situation where extra nest maintenance workers were recruited --
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is this going to have any effect on the workers performing other tasks?"
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Then we repeated all those experiments with the ants marked.
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So here's some blue nest maintenance workers.
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And lately we've gotten more sophisticated
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and we have this three-color system.
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And we can mark them individually so we know which ant is which.
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We started out with model airplane paint
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and then we found these wonderful little Japanese markers,
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and they work really well.
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And so just to summarize the result,
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well it turns out that yes, the different tasks are interdependent.
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So, if I change the numbers performing one task,
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it changes the numbers performing another.
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So for example, if I make a mess
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that the nest maintenance workers have to clean up,
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then I see fewer ants out foraging.
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And this was true for all the pair-wise combinations of tasks.
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And the second result, which was surprising to a lot of people,
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was that ants actually switch tasks.
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The same ant doesn't do the same task over and over its whole life.
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So for example, if I put out extra food, everybody else --
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the midden workers stop doing midden work and go get the food,
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they become foragers.
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The nest maintenance workers become foragers.
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The patrollers become foragers.
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But not every transition is possible. And this shows how it works.
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Like I just said, if there is more food to collect, the patrollers, the midden workers,
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the nest maintenance workers will all change to forage.
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If there's more patrolling to do --
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so I created a disturbance, so extra patrollers were needed --
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the nest maintenance workers will switch to patrol.
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But if more nest maintenance work is needed --
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for example, if I put out a bunch of toothpicks --
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then nobody will ever switch back to nest maintenance,
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they have to get nest maintenance workers from inside the nest.
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So foraging acts as a sink, and the ants inside the nest act as a source.
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And finally, it looks like each ant is deciding
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moment to moment whether to be active or not.
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So, for example, when there's extra nest maintenance work to do,
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it's not that the foragers switch over. I know that they don't do that.
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But the foragers somehow decide not to come out.
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And here was the most intriguing result: the task allocation.
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This process changes with colony age, and it changes like this.
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When I do these experiments with older colonies --
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so ones that are five years or older --
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they're much more consistent from one time to another
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and much more homeostatic. The worse things get,
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the more I hassle them, the more they act like undisturbed colonies.
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Whereas the young, small colonies --
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the two-year-old colonies of just 2,000 ants -- are much more variable.
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And the amazing thing about this is that an ant lives only a year.
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It could be this year, or this year.
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So, the ants in the older colony that seem to be more stable
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are not any older than the ants in the younger colony.
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It's not due to the experience of older, wiser ants.
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Instead, something about the organization
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must be changing as the colony gets older.
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And the obvious thing that's changing is its size.
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So since I've had this result, I've spent a lot of time trying to figure out
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what kinds of decision rules -- very simple, local, probably olfactory, chemical
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rules could an ant could be using, since no ant can assess the global situation --
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that would have the outcome that I see,
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these predictable dynamics, in who does what task.
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And it would change as the colony gets larger.
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And what I've found out is that ants are using a network of antennal contact.
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So anybody who's ever looked at ants has seen them touch antennae.
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They smell with their antennae.
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When one ant touches another, it's smelling it,
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and it can tell, for example, whether the other ant is a nest mate
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because ants cover themselves and each other, through grooming,
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with a layer of grease, which carries a colony-specific odor.
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And what we're learning is that an ant uses the pattern of its antennal contacts,
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the rate at which it meets ants of other tasks, in deciding what to do.
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And so what the message is, is not any message
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that they transmit from one ant to another, but the pattern.
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The pattern itself is the message.
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And I'll tell you a little bit more about that.
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But first you might be wondering:
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how is it that an ant can tell, for example, I'm a forager.
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I expect to meet another forager every so often.
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But if instead I start to meet a higher number of nest maintenance workers,
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I'm less likely to forage.
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So it has to know the difference between
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a forager and a nest maintenance worker.
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And we've learned that, in this species --
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and I suspect in others as well --
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these hydrocarbons, this layer of grease on the outside of ants,
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is different as ants perform different tasks.
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And we've done experiments that show that
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that's because the longer an ant stays outside,
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the more these simple hydrocarbons on its surface change,
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and so they come to smell different by doing different tasks.
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And they can use that task-specific odor in cuticular hydrocarbons --
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they can use that in their brief antennal contacts to somehow
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keep track of the rate at which they're meeting ants of certain tasks.
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And we've just recently demonstrated this
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by putting extract of hydrocarbons on little glass beads,
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and dropping the beads gently down into the nest entrance at the right rate.
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And it turns out that ants will respond to the right rate of contact
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with a glass bead with hydrocarbon extract on it,
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as they would to contact with real ants.
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So I want now to show you a bit of film --
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and this will start out, first of all, showing you the nest entrance.
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So the idea is that ants are coming in and out of the nest entrance.
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They've gone out to do different tasks, and the rate at which they meet
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as they come in and out of the nest entrance determines, or influences,
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each ant's decision about whether to go out, and which task to perform.
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This is taken through a fiber optics microscope. It's down inside the nest.
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In the beginning you see the ants
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just kind of engaging with the fiber optics microscope.
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But the idea is that the ants are in there,
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and each ant is experiencing a certain flow of ants past it --
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a stream of contacts with other ants.
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And the pattern of these interactions determines
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whether the ant comes back out, and what it does when it comes back out.
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You can also see this in the ants just outside the nest entrance like these.
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Each ant, then, as it comes back in, is contacting other ants.
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And the ants that are waiting just inside the nest entrance
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to decide whether to go out on their next trip,
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are contacting the ants coming in.
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So, what's interesting about this system is that it's messy.
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It's variable. It's noisy. And, in particular, in two ways.
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The first is that the experience of the ant -- of each ant -- can't be very predictable.
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Because the rate at which ants come back depends on
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all the little things that happen to an ant as it goes out and does its task outside.
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And the second thing is that an ant's ability to assess this pattern
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must be very crude because no ant can do any sophisticated counting.
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So, we do a lot of simulation and modeling, and also experimental work,
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to try to figure out how those two kinds of noise combine to,
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in the aggregate, produce the predictable behavior of ant colonies.
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Again, I don't want to say that this kind of haphazard pattern of interactions
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produces a factory that works with the precision and efficiency of clockwork.
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In fact, if you watch ants at all, you end up trying to help them
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because they never seem to be doing anything
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exactly the way that you think that they ought to be doing it.
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So it's not really that out of these haphazard contacts, perfection arises.
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But it works pretty well.
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Ants have been around for several hundred million years.
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They cover the earth, except for Antarctica.
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Something that they're doing is clearly successful enough
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that this pattern of haphazard contacts, in the aggregate,
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produces something that allows ants to make a lot more ants.
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And one of the things that we're studying is how natural selection
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might be acting now to shape this use of interaction patterns --
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this network of interaction patterns --
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to perhaps increase the foraging efficiency of ant colonies.
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So the one thing, though, that I want you to remember about this
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is that these patterns of interactions
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are something that you'd expect to be closely connected to colony size.
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The simplest idea is that when an ant is in a small colony --
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and an ant in a large colony can use the same rule,
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like "I expect to meet another forager every three seconds."
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But in a small colony, it's likely to meet fewer foragers,
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just because there are fewer other foragers there to meet.
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So this is the kind of rule that, as the colony develops and gets older and larger,
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will produce different behavior in an old colony and a small young one.
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Thank you.
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(Applause)
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