Neural Response Selectivity to Natural Sounds in the Bat Midbrain

• Published in: Neuroscience Vol. 434; pp. 200 - 211
• Main Authors: Salles, Angeles, Park, Sangwook, Sundar, Harshavardhan, Macías, Silvio, Elhilali, Mounya, Moss, Cynthia F.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Ltd 10.05.2020
• Subjects: Acoustic Stimulation; Animals; big brown bats; Chiroptera; Echolocation; Inferior Colliculi; inferior colliculus; Mesencephalon; social communication sounds; STA; big brown bats; echolocation; FM; inferior colliculus; FMB; IC; social communication sounds
• ISSN: 0306-4522; 1873-7544
• DOI: 10.1016/j.neuroscience.2019.11.047

•Subtle differences exist between bat social and echolocation calls.•There are selective neurons in the IC of bats for each of these categories of calls.•Selectivity is driven both by timing and strength of the response.•Both males and females have selective units for the male-only emitted calls. Little is known about the neural mechanisms that mediate differential action–selection responses to communication and echolocation calls in bats. For example, in the big brown bat, frequency modulated (FM) food-claiming communication calls closely resemble FM echolocation calls, which guide social and orienting behaviors, respectively. Using advanced signal processing methods, we identified fine differences in temporal structure of these natural sounds that appear key to auditory discrimination and behavioral decisions. We recorded extracellular potentials from single neurons in the midbrain inferior colliculus (IC) of passively listening animals, and compared responses to playbacks of acoustic signals used by bats for social communication and echolocation. We combined information obtained from spike number and spike triggered averages (STA) to reveal a robust classification of neuron selectivity for communication or echolocation calls. These data highlight the importance of temporal acoustic structure for differentiating echolocation and food-claiming social calls and point to general mechanisms of natural sound processing across species.