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New study rewrites evolutionary
history of vespid wasps
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[March 26, 2007]
CHAMPAIGN --
Scientists at the University of Illinois have conducted a genetic
analysis of vespid wasps that revises the vespid family tree and
challenges long-held views about how the wasps' social behaviors
evolved. In the study, published in the Feb. 21 Proceedings of the
National Academy of Sciences, the researchers found genetic evidence
that eusociality (the reproductive specialization seen in some
insects and other animals) evolved independently in two groups of
vespid wasps.
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These findings contradict an earlier
model of vespid wasp evolution, which placed the groups together in
a single lineage with a common ancestor. Eusocial behavior is
quite rare and generally involves the breeding of different
reproductive classes within a colony. The sterile members of the
group perform tasks that support their fertile counterparts.
Eusociality occurs in only a few species of insects, rodents,
crustaceans and other arthropods.
The evolution of eusociality in wasps has long been a source of
debate, said U of I entomology graduate student Heather Hines and
entomology professor Sydney Cameron, who is the principal
investigator of the study. A prior model of vespid wasp evolution
placed three subfamilies of wasps -- the Polistinae, Vespinae and
Stenogastrinae -- together in a single evolutionary group with a
common ancestor. This model did not rely on a genetic analysis of
the wasps, but instead classified them according to several physical
and behavioral traits.
Cameron's team included University of Missouri biology professor
James H. Hunt, an expert on the evolution of social behavior in the
vespid wasps. Hunt observed that many behavioral characteristics of
the vespid wasps contradicted this model of the vespid family tree.
Hunt's observations, along with those of other behavioral experts
in the field, prompted the new analysis.
Instead of affirming a linear, stepwise evolution of social
behavior from solitary to highly social, Cameron said, her team's
analysis shows that the Polistinae and Vespinae wasp subfamilies
evolved their eusocial characteristics separately from the eusocial
Stenogastrinae subfamily of vespid wasps.
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 Experts on vespid wasp behavior have long noted the significant
behavioral differences between the Stenogastrinae subfamily and the
group that includes Polistinae and Vespinae. And others have tried,
unsuccessfully, to challenge the earlier nongenetic model of vespid
wasp evolution. In 1998, German researchers J. Schmitz and R. Moritz
also used a genetic analysis to propose that the subfamily
Stenogastrinae was evolutionarily distinct from the Polistinae and
Vespinae subfamilies.
Proponents of the nongenetic model criticized their work,
however, because it relied on an analysis of less than 600 base
pairs from two genes (one ribosomal RNA, the other mitochondrial
DNA) and included very few representative species, some of which
were unsuitable for the analysis.
The new study examined variations in fragments of four genes
across 30 species of vespid wasps. Four independent statistical
analyses tested the reliability of the pattern of relationships that
emerged from the data.
This work confirms the ideas of Schmitz and Moritz, said Cameron,
by adding to the weight of evidence that their hypothesis was
accurate.
The fact that eusociality evolved independently in two groups of
vespid wasps also sheds light on the complexity of evolutionary
processes, Cameron said.
"Scientists attempt to make generalizations and simplify the
world. But the world isn't always simple and evolution isn't simple.
This finding points to the complexity of life."
[Text from
news release from the University of Illinois at Urbana-Champaign] |
