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Hyoid and pharyngeal arch function during ventilation and feeding in elasmobranchs: Conservation and modification in function
Authors:C. D. Wilga
Affiliation:Department of Biological Sciences, University of Rhode Island, Kingston, Rhode Island, USA
Abstract:The hypothesis that the mandibular and hyoid arches evolved from anterior pharyngeal arches to increase ventilation performance and subsequently became adapted for feeding is widely accepted. As jaws evolved, the morphology of the hyoid arch changed notably from that of a pharyngeal arch. Furthermore, hyoid arch morphology varies considerably among elasmobranch taxa and has been shown to be related to feeding style. The goal of this study is to determine whether the function (direction of movement or change in cavity cross‐section) of the hyoid arch is altered from that of the pharyngeal arch, and whether function is altered between ventilation, the basal behavior, and feeding, the derived behavior. Similar effects and associations of the pharyngeal arches by orientation to feeding or ventilation are also investigated. The kinematics of the hyoid and second pharyngeal arch during ventilation and feeding are quantified using sonomicrometry and hyomandibular angle measured in five shark and one skate species representing widely divergent hyomandibular morphologies. Hyoid and pharyngeal cavity width follows the same pattern of movement during ventilation; therefore the hyoid arch retains the ancestral function of the pharyngeal arches. The orientation of the hyomandibular cartilage appears to influence the pattern of arch movement during ventilation: anterior directed elements decrease in cavity width; laterally directed elements increase in cavity width; while posterior directed elements increase in cavity width or do not change; while cavity depth increases in all species. Hyoid and pharyngeal cavity width movement differs among the species during feeding and also appears to be related to hyoid arch orientation as well as feeding style. There appears to be a division between those species with hyomandibular angles less than 110° from those that are greater between feeding mode and hyoid cavity width movement. Primarily suction feeding species decrease hyoid cavity width whereas primarily bite feeding species increase hyoid cavity width during feeding while all species increase hyoid cavity depth.
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