Across the diversity of vertebrates,bite force has been studied and suggested to have important ecological and evolutionary consequences.However,there is a notable lineage of vertebrates that use this performance trai...Across the diversity of vertebrates,bite force has been studied and suggested to have important ecological and evolutionary consequences.However,there is a notable lineage of vertebrates that use this performance trait yet are missing from the bite-force literature:the snakes.Snakes often rely on biting during prey subjugation and handling.Many snakes bite and hold prey while a constriction coil is formed or while venom is being delivered,or both.Others use biting exclusively without employing any additional prey-handling behaviors.In addition to biting,constriction is an important predation mechanism.Here,I quantify bite force and constriction pressure in kingsnakes(Lampropeltis getula).Furthermore,I explore the proximate determinants of bite force as well as the relationship between biting and constriction performance.Bite force increased linearly with all head and body measures.Of these,head height was the best predictor of bite force.Bite force in kingsnakes was within the range of values reported for lizards,but their relative performance was lower for their head size compared to lizards.Peak constriction pressure also increased with all body measures.Biting and constricting use 2 different parts of the musculoskeletal system and are positively and significantly correlated with one another.Future work targeting a greater diversity of snakes that rely more heavily on biting may reveal a greater range of bite performance in this diverse and successful vertebrate group.展开更多
文摘Across the diversity of vertebrates,bite force has been studied and suggested to have important ecological and evolutionary consequences.However,there is a notable lineage of vertebrates that use this performance trait yet are missing from the bite-force literature:the snakes.Snakes often rely on biting during prey subjugation and handling.Many snakes bite and hold prey while a constriction coil is formed or while venom is being delivered,or both.Others use biting exclusively without employing any additional prey-handling behaviors.In addition to biting,constriction is an important predation mechanism.Here,I quantify bite force and constriction pressure in kingsnakes(Lampropeltis getula).Furthermore,I explore the proximate determinants of bite force as well as the relationship between biting and constriction performance.Bite force increased linearly with all head and body measures.Of these,head height was the best predictor of bite force.Bite force in kingsnakes was within the range of values reported for lizards,but their relative performance was lower for their head size compared to lizards.Peak constriction pressure also increased with all body measures.Biting and constricting use 2 different parts of the musculoskeletal system and are positively and significantly correlated with one another.Future work targeting a greater diversity of snakes that rely more heavily on biting may reveal a greater range of bite performance in this diverse and successful vertebrate group.