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Evolusi dan
ular berbisa: Diet membedakan banyak yang mirip pada dua benua
Evolution and venomous snakes: Diet distinguishes look-alikes on two
continents
Date:
June 10,
2014
Source:
University of Michigan
Summary:
On opposite sides of the globe over millions of years,
the snakes of North America and Australia independently evolved similar body
types that helped them move and capture prey more efficiently. Snakes on both
continents include stout-bodied, highly camouflaged ambush predators, such as
rattlesnakes in North America and death adders in Australia. There are slender,
fast-moving foragers on both continents, as well as small burrowing snakes.
This independent evolution of similar body forms in response to analogous
ecological conditions is a striking example of a phenomenon called convergence.
........................
On opposite sides of the globe over millions of years, the
snakes of North America and Australia independently evolved similar body types
that helped them move and capture prey more efficiently.
Snakes on
both continents include stout-bodied, highly camouflaged ambush predators, such
as rattlesnakes in North America and death adders in Australia. There are
slender, fast-moving foragers on both continents, as well as small burrowing
snakes.
This
independent evolution of similar body forms in response to analogous ecological
conditions is a striking example of a phenomenon called convergence. Yet
despite similarities in outward appearance, a new University of Michigan study
shows that look-alike snakes from the two continents differ dramatically in at
least one major attribute: diet.
"Most
biologists tend to assume that convergence in body form for a group of
organisms implies that they must be ecologically similar," said U-M
evolutionary biologist Daniel Rabosky. "But our study shows that there is
almost no overlap in diet between many of the snakes that are morphologically
very similar."
Rabosky is
an assistant professor in the Department of Ecology and Evolutionary Biology
and curator of herpetology at the U-M Museum of Zoology. He is co-author of a
paper on the topic to be published online June 10 in the journal Proceedings
of the Royal Society B. The first author is U-M doctoral student Michael
Grundler.
While North
America is home to at least seven distinct groups of "advanced"
snakes, only one major group -- the elapids -- colonized Australia roughly 12
million years ago. Elapids, which have hollow, fixed fangs through which they
inject venom, are found worldwide and include king cobras, coral snakes, mambas
and kraits.
Over
millions of years, evolution allowed Australia's elapids to diversify and
specialize through a process called adaptive radiation. They settled into
varied habitats and split into roughly 100 species that include snakes with
some of the most toxic venom known: taipans, brown snakes, death adders and
tiger snakes.
Over time,
the Australian snakes took on most of the body forms found in North American
snakes.
Grundler and
Rabosky compared those body forms by analyzing preserved specimens in the
collections of the University of Michigan Museum of Zoology, the Field Museum
of Natural History and the Western Australian Museum. They made measurements of
head and body dimensions from 786 specimens representing 248 species.
"We
found that the morphologies of Australia elapid snakes have evolved into the
same types of body forms seen across a much more diverse set of snakes from
North America," Grundler said. "For example, Australia has the death
adder, a stout-bodied ambush predator that looks, for all practical purposes,
like a typical viper.
"Vipers
are a family of fanged, venomous snakes that includes pit vipers such as
rattlesnakes, copperheads and bushmasters. But the death adder is not a viper
and is in fact much more closely related to other Australian elapid snakes,
most of which look nothing like vipers."
Grundler and
Rabosky surveyed the published literature for data on the feeding habits of
snakes on both continents. The feeding habits were placed in eight prey
categories: invertebrates such as insects, earthworms, mollusks and
crustaceans; fish; amphibians; lizards and snakes; lizard and snake eggs;
birds; bird eggs; and mammals.
In many
cases, Australian and North American snakes that are similar in appearance
differ greatly in their diets, the U-M researchers found.
For example,
most small snakes that live in sand or leaf litter in North America eat
invertebrates such as spiders, scorpions, slugs and centipedes. But in
Australia, those snakes tend to be specialists on lizards and other snakes.
The physical
similarities between North American and Australian snakes are thought to
reflect evolutionary advantages that those body forms provide for locomotion,
foraging, or habitat use, according to the authors.
The research
was funded by the National Science Foundation.
Story
Source:
The above
story is based on materials provided by University of Michigan. Note: Materials may be edited
for content and length.
