Researchers have confirmed the first case of complete lunglessness in a frog, according to a report in the April 8th issue of Current Biology, a publication of Cell Press. The aquatic frog Barbourula kalimantanensis apparently gets all the oxygen it needs through its skin.
Previously known from only two specimens, two new populations of the aquatic frog were found by the team during a recent expedition to Indonesian Borneo.
"We knew that we would have to be very lucky just to find the frog," said David Bickford of the National University of Singapore. "People have been trying for 30 years. But when we did and I was doing the initial dissections--right there in the field--I have to say that I was very skeptical at first [that they would in fact lack lungs]. It just did not seem possible. We were all shocked when it turned out to be true for all the specimens we had from Kalimantan, Indonesia.
" The thing that struck me most then and now is that there are still major firsts (e.g., first lungless frog!) to be found out in the field," he added. "All you have to do is go a little ways beyond what people have done before, and--voila!"
Of all tetrapods (animals with four limbs), lunglessness is only known to occur in amphibians. There are many lungless salamanders and a single species of caecilian, a limbless amphibian resembling an earthworm, known to science. Nevertheless, Bickford said, the complete loss of lungs is a particularly rare evolutionary event that has probably only occurred three times.
The discovery of lunglessness in a secretive Bornean frog supports the idea that lungs are a malleable trait in amphibians, which represent the evolutionary sister group to all other tetrapods, according to the researchers. Barboroula kalimantanensis lives in cold, fast-flowing water, they noted, so loss of lungs might be an adaptation to a combination of factors: a higher oxygen environment, the species's presumed low metabolic rate, severe flattening of their bodies that increases the surface area of their skin, and selection for negative buoyancy--meaning that the frogs would rather sink than float.
The researchers said that further studies of this remarkable frog may be hampered by the species's rarity and endangerment. They therefore strongly encourage conservation of the frogs' remaining habitats.
" This is an endangered frog--that we know practically nothing about--with an amazing ability to breathe entirely through its skin, whose future is being destroyed by illegal gold mining by people who are marginalized and have no other means of supporting themselves," Bickford said. "There are no simple answers to this problem."
The researchers include David Bickford, National University of Singapore, Singapore; Djoko Iskandar and Anggraini Barlian, of Institut Teknologi Bandung, Java, Indonesia.