Anuran interorbital distance variation: the role of ecological and behavioral factors

Integr Zool. 2022 Sep;17(5):777-786. doi: 10.1111/1749-4877.12653. Epub 2022 May 30.

Abstract

Eye position varies significantly among taxonomic levels, and this variation is often shaped by ecological and behavioral factors. Eye position is often positively associated with interorbital distance where species with broad visual fields possess a large distance between the left and right eye. Selective pressures underlying the evolution of the eye position are especially studied in birds and mammals. However, selective pressures underlying the evolution of anuran eye position which can be indicated by interorbital distance keep unknown. Here, we investigated the effects of ecological (e.g. habitat type, light availability) and behavioral factors (e.g. activity pattern, foraging mobility, and defensive strategy) on variations in interorbital distance among 260 anuran species in China. Our results showed that variations of the interorbital distance can be significantly predicted by the activity pattern. Nocturnal species had larger interorbital distance than both nocturnal and diurnal species. We also found that foraging mobility and defensive strategy markedly affected variation of interorbital distance. Species having slower foraging mobility and possessing poison glands had larger interorbital distance than species having faster foraging mobility and possessing non-position glands. Light availability tended to be associated with variation of interorbital distance, indicating that species living in weak light tended to possess larger interorbital distance. However, variations of the interorbital space were not associated with habitat type in anurans. Our findings suggest that anuran behaviors play key roles in shaping visual fields and eye position, thus affecting the evolution of interorbital distance.

Keywords: anurans; behavioral factors; body size; hypoallometrical relationship; interorbital distance.

MeSH terms

  • Animals
  • Anura
  • Birds
  • Ecosystem*
  • Eye
  • Mammals
  • Poisons*

Substances

  • Poisons