Parasitic Ants Shake Up Colony Society
Feb. 5, 2004 -- Just down the road from Joan Herbers' lab at Ohio State University there's countless wars going on, culminating in death to the adults and enslavement of the young. It happens over and over again, year in and year out, in a world most of us never see.
Herbers has spent much of her life studying "slave making ants" that invade other ant colonies in a vicious battle to the end, but now she has stumbled upon a mystery she admits she doesn't understand. In the midst of all that mayhem, she has found ants that invade other colonies as parasites, and the parasites and hosts live peacefully side by side.
That's pretty much against the rules of the ant kingdom.
Slaves vs. Parasites
Herbers is dean of Ohio State's College of Biological Sciences, and she is one of the country's leading ant experts, so she's not often stumped when she peers inside the usually violent parasitic relationship between slave-maker ants and their hosts. But that changed a few months ago when one of her researchers, Chris Johnson, returned to the lab with an acorn she had picked up in a city park.
The acorn had tiny ants, each about the size of the tip of a ball point pen, and Johnson put them under a microscope for a closer look at a "really weird looking queen," Herbers recalls.
"'I went over there and looked at it and said 'Oh my god, you've got minutissimus."'
Leptothorax minutissimus had only been found in four other areas of North America, and the species has baffled biologists ever since it was discovered in 1942 in Washington, D.C. The species has evolved to the point that it no longer has worker ants that forage for food and carry out other chores.
"It has lost the worker class," Herbers says. Only queens are left.
So to survive, the ants must invade another colony and take up residence as parasites. Herbers wants to find out how they do that without bloodshed. That's a very different lifestyle from the "slave maker" ants she has studied for so long.
"Slave makers will enter a host colony and start pitched warfare," she says. "They kill off any adults that try to resist the attack. What they are after is not the adults, but the larvae. They steal the larvae and take them back to their own nest and wait for them to hatch out as worker ants.
"One thing that's peculiar about ants is they learn who they are by smell only after they have hatched and become workers. These slave makers can exploit the fact that the larvae have no idea where they belong. If you can get them when they are young enough, you can indoctrinate them to be slaves," Herbers says.
So how does minutissimus manage to live in harmony as a parasitic resident in another species colony?
Herbers is launching an investigation to learn "how these ants make a living," as she puts it. They must be doing something worthwhile or the host would kick them out.
Seeking a Model
Herbers expects to find many other colonies this summer, now that she and her researchers know exactly what to look for, and they hope to piece together the social evolution of the diminutive minutissimus. How, and why, did it evolve into a benign parasite?
Some of the ants they hope to collect will be put through a series of tests in the lab to see how they react to different situations. For example, a colony of host ants will be put into a small box, and a minutissimus queen will be put in the same box, a little ways away from the nest.
"We'll watch to see if she zooms right for the nest, or if she wanders around, or if she's killed when she tries to get into the nest," Herbers says. "We don't know any of that stuff."
By the end of next summer, she hopes to have a few more answers than she has now. But, one may wonder, why all this fuss over a bunch of ants so small you almost need a magnifying glass to see them?
"The biology is absolutely fascinating," she says.
There is, of course, more to all of this than just a bunch of little ants.
"This kind of work can actually tell us a great deal about how parasites evolve, and parasites include things like rabies and anthrax and so on. It's a way to easily study parasite movement in ways that might extend to other models," she says.
Many parasitic relationships are extremely harmful, such as diseases in which a parasite takes up residence in a human body.
"Malaria is a good example of that," Herbers says. "Malaria changes its outer coat every couple of months, and that's why we cannot easily develop vaccines against it. They are constantly shedding their proteins and manufacturing new ones.
"So once the malaria parasite gets into your blood stream it multiplies quickly and it can kill you," she adds.
But she rejects any suggestion that she's hot on the trail of a cure for malaria.
She is, after all, an ant freak.
"Mostly, we're studying minutissimus just because they are so downright cool," she says.
Lee Dye’s column appears weekly on ABCNEWS.com. A former science writer for the Los Angeles Times, he now lives in Juneau, Alaska.