D. The leaf-cutters’ fungus was indeed descended from a single strain, propagated clonally, or just by
budding, for at least 23 million years. But the lower attine ants used different varieties of the fungus, and in
one case a quite separate species, the four biologists discovered. The pure strain of fungus grown by the leaf-
cutters, it seemed to Mr. Currie, resembled the monocultures of various human crops, that are very
productive for a while and then succumb to some disastrous pathogen, such as the Irish potato blight.
Monocultures, which lack the genetic diversity to respond to changing environmental threats, are sitting
ducks for parasites. Mr. Currie felt there had to be aparasite in the antfungus system. But a century of ant
research offered no support for the idea. Textbooks describe how leaf-cutter ants scrupulously weed their
gardens of all foreign organisms. “People kept telling me, ‘You know the ants keep their gardens free of
parasites, don’t you?’ “Mr. Currie said of his efforts to find a hidden interloper.
E. But after three years of sifting through attine ant gardens, Mr. Currie discovered they are far from
free of infections. In last month’s issue of the Proceedings of the National Academy of Sciences, he and two
colleagues, Dr. Mueller and David Mairoch, isolated several alien organisms, particularly a family of
parasitic molds called Escovopsis.
F. Escovopsis turns out to be a highly virulent pathogen that can devastate a fungus garden in a
couple of days. It blooms like a white cloud, with the garden dimly visible underneath. In a day or two the
whole garden is enveloped. “Other ants won’t go near it and the ants associated with the garden just starve to
death,”Dr. Rehner said. “They just seem to give up, except for those that have rescued their larvae.”The
deadly mold then turns greenish-brown as it enters its spore-forming stage.