Lateralized Turning Biases in Two Neotropical Tadpoles

Lateralized turning behavior in startle responses and upon descent after surfacing for a breath of air has been documented for tadpoles in several anuran species. A left‐handed preference is most common and was previously thought to be linked to the asymmetry in spiracle location. Here, we investigate the presence of behavioral asymmetries in tadpoles of Agalychnis callidryas and Leptodactylus melanonotus in explosive turns after air‐breathing. Data were also collected on lateralized posture in the orientation of tails of embryonic A. callidryas within the egg case, as well as the startle response of free‐swimming tadpoles exposed to mechanical stimulation. A left‐curled tail bias was found among several clutches from Costa Rica, but this was not the case among clutches examined from Panama. Free‐living tadpoles of L. melanonotus displayed a distinct right‐handed preference during explosive turns. While some tadpoles of A. callidryas were at stages too early to detect any explosive turns when breathing, later‐staged individuals did display a left‐handed bias in startle response to mechanical stimulation. Additionally, it appears that the expression of behavioral lateralization of larvae (but not embryos) may predict whether or not the adults exhibit similar lateralization. Findings herein provide insight into the ontogeny and evolutionary origins of lateralized behavior in anurans.