Mechanisms and control of a novel vocalization: The singing mouse song is a whistle that depends on air sac inflation

Identifying variation in vocal morphology and sound production mechanisms is essential to understanding vocal diversity. Rodents provide an ideal system for exploring this variation as they use multiple sound production mechanisms and have novel vocal structures whose morphology varies interspecifically. Here, we describe the laryngeal morphology and identify the sound production mechanism of Alston’s singing mouse ( Scotinomys teguina ), which produce stereotyped songs. We used micro-computed tomography to examine laryngeal morphology and manipulated excised larynges and surgically ablated a laryngeal muscle to determine sound production mechanism and frequency control. Laryngeal manipulations indicated that a whistle mechanism, likely an edge tone or shallow cavity, produces song. Singing mouse whistles are unique compared to other rodents because they rely on the inflation of an enlarged intralaryngeal air sac called the ventral pouch. Whistle frequency can be controlled by ventral pouch inflation, laryngeal airflow, and by cricothyroid muscle action. Cricothyroid ablation inhibited frequency modulation in vivo , suggesting that singing mice use this muscle during singing. Singing mouse laryngeal morphology and vocal mechanism are distinct from other Neotomids; instead of using vocal fold oscillations for loud, long-distance calls and whistles for close-range interactions, singing mice appear to use whistles for distant and close exchanges by inflating their intralaryngeal air sac. Air sacs have evolved repeatedly among vocalizing mammals and our results indicate a new role for these structures in generating sound. Together, our results expand on an emerging story of how biomechanic and morphological variation contributes to vocal diversity.