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SCIENCE
INDEX
2000
2001
2002
Biology
Scientists find insects
can alter plant chemistry to help them find mates
Jim
Barlow, Life Sciences Editor
(217) 333-5802; b-james3@uiuc.edu
11/18/02
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| Female
gall wasp (Antistrophus rufus). |
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CHAMPAIGN,
Ill. — Each spring, amid the decaying rubble of dead prairie plants,
emerging male gall wasps find mates by calling upon the chemistry prowess
of their predecessors, entomologists scouring Central Illinois have
discovered.
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| Photo
by Bill Wiegand |
| In
essence, males smell their way to a mate. "They get chemical
cues off the surface of the plant," said co-author John
F. Tooker, a doctoral student in entomology at Illinois. "It’s
called a short-range volatile cue." |
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In
the Proceedings of the National Academy of Sciences, they report that
as adult gall wasps (Antistrophus rufus) feed in warm weather, they
change the ratio of plant chemicals so that males emerging after the
winter season can recognize when they are on the right stems at the
right time. The study is being published online this week (Nov. 18-22).
The finding is the first to suggest that insects can alter the chemical
composition of plants for the purpose of mate location, said Lawrence
M. Hanks, a professor at the University of Illinois at Urbana-Champaign.
The study also provides new insight on plant-insect ecology in widely
diverse prairie habitats, which in Illinois have dwindled because of
agriculture and urban growth to less than 1 percent of the acreage they
once covered.
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| Gall
wasp larvae feeding inside a stem of prairie dock (Silphium
terebinthinacem). |
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"Prairies
hold unique plants and insects that are not thoroughly understood,"
Hanks said. "This study is important because it shows that insects
can influence plants for their own needs, using a substitute for sex
pheromones."
Specifically, the researchers found that male gall wasps respond to
uneven chemical ratios in the plants. "As the insects feed, they
change the plant chemistry, providing cues that help male wasps find
females," Hanks said. "This is interesting, because the females
are inside the stems, so they are not producing pheromones. It’s
a plant’s volatile chemicals that attract males."
In essence, males smell their way to a mate. "They get chemical
cues off the surface of the plant," said co-author John F. Tooker,
a doctoral student in entomology
at Illinois. "It’s called a short-range volatile cue."
"We don’t know how far away they can be and still smell it,"
Tooker said, "but once they are on the right plant the males antennate
the surface and begin looking for mates." This rattling of antennae
as they walk along the stem indicates they are on the right plant, "and
this behavior helps them to find spots where female wasps will emerge."
"The males find these sites and defend them," he said. The
males will head-butt one another, forcing some to leave. Others are
driven off by wind or predators, such as spiders and beetles, requiring
the wasps to find new stems amid the assorted plant debris.
Males, they found, only choose plant species that are the same as those
from which they had emerged. The researchers monitored activity around
two commonly found prairie plants: prairie dock (Silphium terebinthinaceum)
and compass plant (Silphium laciniatum).
Winged flea-sized adult gall wasps live barely five days in the field,
but they emerge continually over a 30-day period. They spend nine to
10 months as larvae living inconspicuously inside of the plants. Adult
females emerge from dead stems of the plants, mate and lay eggs in live
plant stems, forming galls that protect the larvae and provide nourishment.
In the spring, males emerge first from the rotting stems.
Collaborator Wilfried A. Koenig, an organic chemist at the University
of Hamburg in Germany, analyzed stem samples collected by Tooker and
Hanks. The samples with galls had different enantiomeric ratios of monoterpenes
than did the plants without galls.
It is the mix of two chemicals – alpha and beta pinenes –
that males recognize. "Non-galled plants have a ratio of about
50-50, while galled plants have skewed ratios. If males find a stem
with a 50-50 ratio," Tooker said, "they will move on. If they
find a stem with a 70-30 or a 100-0 ratio, they likely will stay and
find females emerging from it."
Tooker, who is seeking to understand how population control works for
the wasps in natural prairie habitats, said the discovery was unexpected.
"The botanists know all about the plants we are studying, but we
don’t know much about the insects in prairies," he said.
"Gall wasps are very small and easy to overlook. Unless you are
in the fields at the right period of the right season you are never
going to see them."
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