Abstract
Numerous animal models have been used to investigate the neural mechanisms of auditory processing in complex acoustic environments, but it is unclear whether an animal’s auditory attention is functionally similar to a human’s in processing competing auditory scenes. Here we investigated the effects of attention capture in birds performing an objective auditory streaming paradigm. The classical ABAB… patterned pure tone sequences were modified and used for the task. We trained the birds to selectively attend to a target stream and only respond to the deviant appearing in the target stream, even though their attention may be captured by a deviant in the background stream. When no deviant appeared in the background stream, the birds experience the buildup of streaming process in a qualitatively similar way as they did in a subjective paradigm. Although the birds were trained to selectively attend to the target stream, they failed to avoid the involuntary attention switch caused by the background deviant, especially when the background deviant was sequentially unpredictable. Their global performance deteriorated more with increasingly salient background deviants, where the buildup process was reset by the background distractor. Moreover, sequential predictability of the background deviant facilitated the recovery of the buildup process after attention capture. This is the first study that addresses the perceptual consequences of the joint effects of top-down and bottom-up attention in behaving animals.
Highlights
To understand the sounds surrounding us, humans and other animal species have evolved the mechanisms to disentangle sound mixtures arriving at the auditory system into separate streams
Several comparative animal models have been used to investigate the neural mechanisms of auditory attention in the auditory streaming process
We trained birds in an objective auditory streaming paradigm, where the traditional ABAB. . . patterned pure tone sequence was modified to train the birds to selectively attend to the target stream of a sound mixture
Summary
To understand the sounds surrounding us, humans and other animal species have evolved the mechanisms to disentangle sound mixtures arriving at the auditory system into separate streams. At the same time, auditory distractors are ubiquitous in daily acoustic scenes, which affects a listener’s attentional set and the sound segregation process. It is essential for living organisms to evolve the capability to handle the sound distractors when disentangling complex auditory scenes, while simultaneously maintaining some vigilance about the unexpected and potential danger revealed by the sound distractors in the environment [1]. The auditory streaming process has been investigated in both humans [2,3,4] and other animal species [5,6,7,8,9].
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