Back to the future: Supersoldier ants illuminate evolution
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Dormant genetic potential facilitates evolutionary
change
They look like characters that belong in the Marvel Comic The Hulk,
whose body reacts to stress by expanding in size. With huge oblong
heads and giant, vicious mandibles, these are supersoldiers of the
hyperdiverse ant genus Pheidole. Normally, these supersoldiers
occur naturally only in limited geographical regions. But now
researchers, led by 鶹 biology professor Ehab Abouheif, have
found ants that are biological anomalies with supersoldier-like
characteristics in unexpected regions. And, more importantly,
researchers have discovered they can induce supersoldiers in
Pheidole ant species that never had them before.
These supersoldier anomalies represent dormant ancestral
potential that can be invoked by changes in the environment. They
represent, in effect, a source of raw material for natural
selection to act upon. The finding, published in the most recent
edition of Science, is a significant advance in our understanding
of evolutionary processes.
“Birds with teeth, snakes with fingers, and humans with ape-like
hair – these are ancestral traits that pop up regularly in nature,”
Abouheif explains. “But for the longest time in evolutionary
theory, these ancestral traits were thought to go nowhere – slips
in the developmental system that reveal things from the past, the
Barnum and Bailey of evolution. So they’ve been an unappreciated
source of evolutionary variation.”
In Pheidole (big-headed) ant colonies, there are millions of
individual workers, including minor workers and soldiers.
Typically, depending on the food the ants are fed, certain hormones
are triggered in the ant larvae and they either develop into
soldiers or minor workers. After unexpectedly finding
supersoldier-like anomalies in Pheidole species in Long Island,
where they aren’t normally seen, Abouheif and his team knew
something unusual was going on. “I’ve been collecting samples there
for almost 15 years,” said Abouheif. “But when I saw them, I
thought, ‘Holy cow! Those are monstrous looking soldiers!’ They
look like the ones that are naturally produced in the American
southwest.”
So researchers in Abouheif's lab led by PhD student Rajee Rajakumar
and collaborators at the University of Arizona then started trying
to artificially induce the production of these supersoldiers. They
did so by applying juvenile hormone to the ant larvae at critical
stages in their development. And met with immediate success. They
were able to produce supersoldier subcastes in at least three
species in the genus where they have never been seen before –
species that are widely separated in the evolutionary tree of
Pheidole.
These findings are groundbreaking for evolutionary theory,
according to Abouheif, because they show there is dormant genetic
potential that can be locked in place for a very long time. “The
kind of environmental stressors that evoke this dormant potential
are there all the time – so when the need arises natural selection
can take hold of the potential and actualize it,” Abouheif
explained. “So what we’re showing is that environmental stress is
important for evolution because it can facilitate the development
of novel phenotypes. Anytime you have a mismatch between the normal
environment of the organism and its genetic potential you can
release them – and these things can be locked in place for 30-65
million years.”
The research was funded by Natural Sciences and Engineering
Research Council of Canada, the Canada Research Chair in
Evolutionary Development Biology, the National Sciences Foundation,
Konrad Lorenz Institute Fellowship.
To read an abstract of the paper:
(Photo credit: Alex Wild)