ABSTRACT
Animal models are widely used to examine the neurophysiological basis of human pitch perception, and it is therefore important to understand the similarities and differences in pitch processing across species. Pitch discrimination performance is usually measured using two-alternative forced choice (2AFC) procedures in humans and go/no-go tasks in animals, potentially confounding human-to-animal comparisons. We have previously shown that pitch discrimination thresholds of ferrets on a 2AFC task are markedly poorer than those reported for go/no-go tasks in other non-human species (Walker et al., 2009). To better compare the pitch discrimination performance of ferret with other species, here we measure pitch change detection thresholds of ferrets and humans on a common, appetitive go/no-go task design. We found that ferrets’ pitch thresholds were ~10 times larger than that of humans on the go/no-go task, and were within the range of thresholds reported in other non-human species. Interestingly, ferrets’ thresholds were 100 times larger than human thresholds on a 2AFC pitch discrimination task using the same stimuli. These results emphasize that sensory discrimination thresholds can differ across tasks, particularly for non-human animals. Performance on our go/no-go task is likely to reflect different neurobiological processes than that on our 2AFC task, as the former required the subjects only to detect a pitch change while the latter required them to label the direction of the pitch change.
ABBREVIATIONS
- 2AFC
- 2-Alternative Forced Choice
- F0
- Fundamental Frequency
HIGHLIGHTS
Pitch discrimination thresholds of ferrets were 10 times larger than those of humans on a go/no-go task
Ferrets’ pitch thresholds are similar to those reported for a range of other mammals
Pitch thresholds of ferrets, but not humans, were drastically better on the go/no-go task than a 2AFC task using the same stimuli
Footnotes
Email addresses: kerry.walker{at}dpag.ox.ac.uk, ameliadavies89{at}gmail.com, j.bizley{at}ucl.ac.uk, jan.schnupp{at}dpag.ox.ac.uk, andrew.king{at}dpag.ox.ac.uk