Abstract
Congenital amusia is a lifelong disorder of fine-grained pitch processing in music and speech. However, it remains unclear whether amusia is a pitch-specific deficit, or whether it affects frequency/spectral processing more broadly, such as the perception of formant frequency in vowels, apart from pitch. In this study, in order to illuminate the scope of the deficits, we compared the performance of 15 Cantonese-speaking amusics and 15 matched controls on the categorical perception of sound continua in four stimulus contexts: lexical tone, pure tone, vowel, and voice onset time (VOT). Whereas lexical tone, pure tone and vowel continua rely on frequency/spectral processing, the VOT continuum depends on duration/temporal processing. We found that the amusic participants performed similarly to controls in all stimulus contexts in the identification, in terms of the across-category boundary location and boundary width. However, the amusic participants performed systematically worse than controls in discriminating stimuli in those three contexts that depended on frequency/spectral processing (lexical tone, pure tone and vowel), whereas they performed normally when discriminating duration differences (VOT). These findings suggest that the deficit of amusia is probably not pitch specific, but affects frequency/spectral processing more broadly. Furthermore, there appeared to be differences in the impairment of frequency/spectral discrimination in speech and nonspeech contexts. The amusic participants exhibited less benefit in between-category discriminations than controls in speech contexts (lexical tone and vowel), suggesting reduced categorical perception; on the other hand, they performed inferiorly compared to controls across the board regardless of between- and within-category discriminations in nonspeech contexts (pure tone), suggesting impaired general auditory processing. These differences imply that the frequency/spectral-processing deficit might be manifested differentially in speech and nonspeech contexts in amusics—it is manifested as a deficit of higher-level phonological processing in speech sounds, and as a deficit of lower-level auditory processing in nonspeech sounds.
Highlights
Whereas the previous study found that Mandarin-speaking amusics exhibited a deficit in categorical perception (CP) of lexical tones in both speech and nonspeech contexts [30], results of the current study showed that Cantonesespeaking amusics were primarily impaired in higher-level phonological processing in the speech context, and in lower-level auditory processing in the nonspeech context
We found that Cantonese-speaking congenital amusics demonstrated systematic deficits in the discrimination of frequency-based sound distinctions, including lexical tones, pure tones and vowels, while their ability to discriminate duration differences (VOT) was largely preserved
While the current study provided some evidence for the deficit of vowel perception in amusics, future studies should examine the perception of other segments that are based on frequency/spectral differences, such as sonorants (e.g., /l/, /r/) and the place of articulation contrast of stops (e.g., /p/, /t/, /k/), in order to further test the hypothesis of deficient frequency/spectral processing in amusics
Summary
Not all human beings are equipped with the ability to perceive or produce music. Those people with inborn musical deficits are likely to suffer “congenital amusia” (amusia hereafter), an innate neurogenetic disorder of fine-grained pitch processing from birth [1,2,3]. Most studies stated that about 3–4% of the human population suffer amusia [2,4,5], a recent large-scale prevalence study reported that the prevalence of amusia might not be as high as conventionally believed, affecting approximately 1.5% of the human population [6]. It is usually believed that amusia leads to difficulties of detecting mistuned musical melodies or memorizing familiar musical melodies in affected individuals. Amusia has no obvious cause such as hearing loss, brain damage or insufficient music exposure [7,8], but it has been linked to functional and structural brain abnormalities [9,10,11,12,13,14,15,16,17,18] and probably has genetic bases [6,19]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
