Bierman, Hilary S2; Thornton, Jennifer L3; Jones, Heath G3; Koka, Kanthaiah3; Young, Bruce A4; Brandt, Christian6; Christensen-Dalsgaard, Jakob7; Carr, Catherine E2; Tollin, Daniel J3
1 Department of Biology, Faculty of Science, SDU2 University of Maryland College Park3 University of Colorado4 University of Massachusetts Lowell5 Oto-rhino-laryngologi, Department of Clinical Research, Det Sundhedsvidenskabelige Fakultet, SDU6 Oto-rhino-laryngologi, Department of Clinical Research, Det Sundhedsvidenskabelige Fakultet, SDU7 Department of Biology, Faculty of Science, SDU
Physiological and anatomical studies have suggested that alligators have unique adaptations for spatial hearing. Sound localization cues are primarily generated by the filtering of sound waves by the head. Different vertebrate lineages have evolved external and/or internal anatomical adaptations to enhance these cues, such as pinnae and interaural canals. It has been hypothesized that in alligators, directionality may be enhanced via the acoustic coupling of middle ear cavities, resulting in a pressure difference receiver (PDR) mechanism. The experiments reported here support a role for a PDR mechanism in alligator sound localization by demonstrating that (1) acoustic space cues generated by the external morphology of the animal are not sufficient to generate location cues that match physiological sensitivity, (2) continuous pathways between the middle ears are present to provide an anatomical basis for coupling, (3) the auditory brainstem response shows some directionality, and (4) eardrum movement is directionally sensitive. Together, these data support the role of a PDR mechanism in crocodilians and further suggest this mechanism is a shared archosaur trait, most likely found also in the extinct dinosaurs.
Journal of Experimental Biology, 2014, Vol 217, Issue Pt 7, p. 1094-1107