Об измерениях высоты звука.

Squire, L. R., F. E. Bloom, S. K. McConnell, J. L. Roberts, N. C. Spitzer, and M. J. Zigmond, eds. 2003. Fundamental Neuroscience, 2nd ed. San Diego: Academic Press.

Основы нейробиологии.

*Temple, E., R. A. Poldrack, A. Protopapas, S. S. Nagarajan, T. Salz, P. Tallal, M. M. Merzenich, and J. D. E. Gabrieli. 2000. Disruption of the neural response to rapid acoustic stimuli in dyslexia: Evidence from functional MRI. Proceedings of the National Academy of Sciences 97 (25): 13 907–13 912.

О функциональной нейроанатомии речи.

*Tramo, M. J., J. J. Bharucha, and F. E. Musiek. 1990. Music perception and cognition following bilateral lesions of auditory cortex. Journal of Cognitive Neuroscience 2: 195–212.

*Zatorre, R. J. 1985. Discrimination and recognition of tonal melodies after unilateral cerebral excisions. Neuropsychologia 23 (1): 31–41.

*Zatorre, R. J. 1998. Functional specialization of human auditory cortex for musical processing. Brain 121 (Part 10): 1817–1818.

*Zatorre, R. J., P. Belin, and V. B. Penhune. 2002. Structure and function of auditory cortex: Music and speech. Trends in Cognitive Sciences 6 (1): 37–46.

*Zatorre, R. J., A. C. Evans, E. Meyer, and A. Gjedde. 1992. Lateralization of phonetic and pitch discrimination in speech processing. Science 256 (5058): 846–849.

*Zatorre, R. J., and S. Samson. 1991. Role of the right temporal neocortex in retention of pitch in auditory short-term memory. Brain (114): 2403–2417.