Abstract
Humans possess intuitive associations linking certain non-redundant features of stimuli—e.g. high-pitched sounds with small object size (or similarly, low-pitched sounds with large object size). This phenomenon, known as crossmodal correspondence, has been identified in humans across multiple different senses. There is some evidence that non-human animals also form crossmodal correspondences, but the known examples are mostly limited to the associations between the pitch of vocalizations and the size of callers. To investigate whether domestic dogs, like humans, show abstract pitch-size association, we first trained dogs to approach and touch an object after hearing a sound emanating from it. Subsequently, we repeated the task but presented dogs with two objects differing in size, only one of which was playing a sound. The sound was either high or low pitched, thereby creating trials that were either congruent (high pitch from small object; low pitch from large objects) or incongruent (the reverse). We found that dogs reacted faster on congruent versus incongruent trials. Moreover, their accuracy was at chance on incongruent trials, but significantly above chance for congruent trials. Our results suggest that non-human animals show abstract pitch sound correspondences, indicating these correspondences may not be uniquely human but rather a sensory processing feature shared by other species.
Highlights
Humans possess intuitive associations linking certain nonredundant features of stimuli—e.g. high-pitched sounds with small object size
Linear mixed models (LMM) with Dog ID as a random effect were run for the continuous outcomes and general estimating equations (GEE) were run for the binary outcomes using SPSS v. 26 (IBM Corp.), with alpha level set at 0.05 for both
When compared to chance responding, dogs chose a correct object significantly above chance on congruent trials (binary logistic GEE, B = −0.572, s.e.(B) = 0.21, OR = 0.564, p = 0.006), while their accuracy was at chance on incongruent trials (binary logistic GEE, B = −0.161, s.e.(B) = 0.26, OR = 0.851, p = 0.53)
Summary
Humans possess intuitive associations linking certain nonredundant features of stimuli—e.g. high-pitched sounds with small object size (or low-pitched sounds with large object size) This phenomenon, known as crossmodal correspondence, has been identified in humans across multiple different senses. Domestic chicks appear sensitive to luminance, showing a luminance-space correspondence as early as at 3 days old [18], i.e. they preferentially paired the left side of space with low (dark) luminance and the right-hand space with high (light) luminance This again suggests crossmodal correspondences involving luminance might be a feature of perceptual systems in some non-human ( primate and avian) species.
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