Characterization of chemical defenses in ranid tadpoles against a fish predator

Abstract

Tadpoles of some ranid species appear to possess chemical defenses against fish predators, but the chemicals have not been characterized. Here, we evaluated the vulnerability of three Japanese anuran tadpole species (Glandirana rugosa, Pelophylax nigromaculatus, and Hyla japonica) to a fish (Gnathopogon elongatus elongatus) and analyzed the defensive chemicals extracted from the unpalatable tadpoles. Additionally, we examined the defensive behavior of unpalatable tadpoles in response to fish chemical cues. The fish rejected both G. rugosa (83%) and P. nigromaculatus (48%), but not H. japonica (0%). Many of the rejected tadpoles survived (60–80%). Possible defensive chemicals were extracted by methanol from the skin of G. rugosa, but were not identifiable by gas chromatography–mass spectrometry because of small quantities. The chemicals have high polarity and non-volatility. When exposed to fish chemical cues, P. nigromaculatus decreased activity presumably as a defensive behavior, but G. rugosa did not. We demonstrated the presence of chemical defenses in at least two of these species and revealed that G. rugosa releases more effective or greater amounts of defense chemicals than P. nigromaculatus with respect to this fish predator. The increased efficacy of chemical defenses may correlate with decreasing defensive behavior.