Jan. 8, 2013 —
What if Noah got it wrong? What if he paired a male and a female animal
thinking they were the same species, and then discovered they were not the same
and could not produce offspring? As researchers from the Smithsonian's Panama
Amphibian Rescue and Conservation Project race to save frogs from a devastating
disease by breeding them in captivity, a genetic test averts mating mix-ups.
At the El Valle
Amphibian Conservation Center, project scientists breed 11 different species of
highland frogs threatened by the chytrid fungus Batrachochytrium dendrobatidis,
which has already decimated amphibian populations worldwide. They hope that
someday they will be able to re-release frogs into Panama's highland streams.
Different frog
species may look very similar. "If we accidentally choose frogs to breed
that are not the same species, we may be unsuccessful or unknowingly create
hybrid animals that are maladapted to their parents' native environment,"
said Andrew J. Crawford, research associate at the Smithsonian Tropical
Research Institute in Panama and professor at Colombia's Universidad de los
Andes. Crawford and his colleagues make use of a genetic technique called DNA
barcoding to tell amphibian species apart. By comparing gene sequences in a
frog's skin cells sampled with a cotton swab, they discover how closely the
frogs are related.
New knowledge
about frog genetics contributes to saving amphibians from extinction, the
mission of the Panama Amphibian Rescue and Conservation Project. Participating
institutions include Africam Safari, Panama's Autoridad Nacional del Ambiente,
Cheyenne Mountain Zoo, Defenders of Wildlife, El Valle Amphibian Conservation
Center, Houston Zoo, Smithsonian's National Zoological Park, the Smithsonian
Tropical Research Institute and Zoo New England.
Journal
Reference:
Andrew J.
Crawford, Catalina Cruz, Edgardo Griffith, Heidi Ross, Roberto Ibáñez, Karen R.
Lips, Amy C. Driskell, Eldredge Bermingham, Paul Crump. DNA barcoding applied
toex situtropical amphibian conservation programme reveals cryptic diversity in
captive populations. Molecular Ecology Resources, 2012;
DOI: 10.1111/1755-0998.12054
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