Energetics of metamorphic climax in the pickerel frog (Lithobates palustris)

Anuran metamorphosis, the transition from aquatic larvae to terrestrial juveniles, is accompanied by significant morphological, physiological, and behavioral changes. Timing of metamorphosis and final size, which can influence adult fitness, may depend on sufficient energy accumulated during the larval period to support metamorphosis. However, only two species of anurans have been examined for energetic costs of metamorphosis, Rana tigrina and Anaxyrus terrestris. Based on these species, it has been hypothesized that differences in energy expenditure are related to duration of metamorphosis. To compare energetic costs of metamorphosis among species and examine this hypothesis, we quantified the total energy required for metamorphosis of Lithobates palustris tadpoles by measuring oxygen consumption rates over the duration of metamorphic climax using closed-circuit respirometry. Total energy costs for L. palustris were positively related to tadpole mass and duration of metamorphic climax. However, larger tadpoles completed metamorphosis more efficiently because they used proportionally less total energy for metamorphic climax than smaller counterparts. Costs were intermediate to R. tigrina, a larger species with similar metamorphic duration, and A. terrestris, a smaller species with shorter metamorphic climax. The results supported the hypothesis that amphibian species with more slowly developing tadpoles, such as ranids, require more absolute energy for metamorphosis in comparison to more rapidly developing species like bufonids.