Young, E.D. "Level and spectrum. " In: A. Palmer and A. Rees (Eds.) Oxford Handbook of Auditory Science, Vol. 2 The Auditory Brain. London, Oxford Univ. Press. (in press, 2009). Manuscript, pdf LSOH


Young, E.D. "Physiological acoustics." In: T. Rossing (Ed.) Springer Handbook of Acoustics. New York, Springer. pp. 429-458 (2007). Manuscript, pdf PAHA


Young, E.D., Yu, J.J., Reiss, L.A. Non-linearities and the representation of auditory spectra. Int. Rev. Neurobiol. 70:135-68 (2005). PDF NLIRN


Young, E.D. and Oertel, D. The cochlear nucleus. Chapt. 4 in: Synaptic Organization of the Brain, Fifth Ed., G.M. Shepherd (Ed.), Oxford Press, pp. 125-164 (2003). Manuscript, pdf CNSOB


Young, E.D. and Davis, K.A. Circuitry and function of the cat dorsal cochlear nucleus. In: Integrative Functions in the Mammalian Auditory Pathway, D. Oertel, A.N. Popper, R.R. Fay (Eds.), Springer-Verlag, 160-206 (2002). Manuscript, pdf YDIF



Nelson, P.C., Smith, Z.M., and Young, E.D. Wide dynamic range forward suppression in marmoset inferior colliculus neurons is generated centrally and accounts for perceptual masking . J. Neurosci. 29:2553-2562 (2009). doi:10.1523/JNEUROSCI.5359-08.2009.


Cai, S., Ma W-L. D., and Young, E.D. Encoding intensity in ventral cochlear nucleus following acoustic trauma: Implications for loudness recruitment. JARO 10:5-22 (2009). doi:10.1007/s10162-008-0142-y.


Young, E.D. and Sachs, M.B. Auditory nerve inputs to cochlear nucleus neurons studied with cross-correlation. Neuroscience 154:127-138 (2008). doi:10.1016/j.neuroscience.2008.01.036.


Chase, S.M. and Young, E.D. Cues for sound localization are encoded in different aspects of spike trains in the inferior colliculus. J. Neurophysiol. 99:1672-82 (2008). doi:10.1152/jn.00644.2007.


Young, E.D. Neural representation of spectral and temporal information in speech. Phil. Trans. Roy Soc. B 363:923-945 (2008) doi:10.1098/rstb.2007.2151.


Bandyopadhyay, S., Reiss, L.A.J., and Young, E.D. Receptive field for dorsal cochlear nucleus neurons at multiple sound levels. J. Neurophysiol. 98:3505-3515 (2007). doi:10.1152/jn.00539.2007


Reiss, L.A.J., Bandyopadhyay S., and Young E.D. Effects of stimulus spectral contrast on receptive fields of dorsal cochlear nucleus neurons. J. Neurophysiol. 98:2133-2143 (2007). doi:10.1152/jn.01239.2006.


Chase, S.M. and Young, E.D. First-spike latency information in single neurons increases when referenced to population onset. PNAS 104:5175-80 (2007).


Chechik, G., Anderson, M.J., Bar-Yosef, O., Young, E.D., Tishby, N., Nelken, I. Reduction of information redundancy in the ascending auditory pathway. Neuron 51:359-368 (2006).


Ma, W.-L. and Young, E.D. Dorsal cochlear nucleus response properties following acoustic trauma: Response maps and spontaneous activity. Hearing Res. 216-217:176-188 (2006).


Chase, S.M. and Young, E.D. Spike timing codes enhance the representation of multiple simultaneous sound localization cues in the inferior colliculus. J. Neurosci. 26:3889-3898 (2006).


Young, E.D. and Calhoun, B.M. Nonlinear modeling of auditory-nerve rate responses to wideband stimuli. J. Neurophysiol.i 94:4441-54 (2005).


Chase, S.M. and Young, E.D. Limited segregation of different types of sound localization information among classes of units in the inferior colliculus. iJ. Neurosci. 25:7575-85 (2005).


Reiss, L.R. and Young, E.D. Spectral edge sensitivity in neural circuits of the dorsal cochlear nucleus. J. Neurosci. 25:3680-91 (2005).


Heinz, M.G., Issa, J.B. and Young, E.D. Auditory-nerve rate responses are inconsistent with common hypotheses for the neural correlates of loudness recruitment. JARO 6:91-105 (2005).


Bandyopadhyay, S. and Young, E.D. Discrimination of voiced stop consonants based on auditory nerve discharges. J. Neurosci. 24:531-541 (2004).


Oertel, D. and Young, E.D. What's a cerebellar circuit doing in the auditory system? TINS 27:104-110 (2004).


Heinz, M.G. and Young, E.D. Response growth with sound level in auditory-nerve fibers after noise-induced hearing loss. J. Neurophysiol. 91:784-795 (2004).


Anderson, M.J. and Young, E.D. Isoflurane/N2O anesthesia suppresses narrowband but not wideband inhibition in dorsal cochlear nucleus. Hearing Res. 188:29-41 (2004).


Bruce, I., Sachs, M.B., and Young, E.D. An auditory-periphery model of the effects of acoustic trauma on auditory nerve responses. J. Acoust. Soc. Am. 113:369-388 (2003).


Kanold, P. and Young, E.D. Proprioceptive information from the pinna provides somatosensory input to cat dorsal cochlear nucleus. J. Neurosci. 21:7848-7858 (2001).


Yu, J.J. and Young, E.D. Linear and nonlinear pathways of spectral information transmission in the cochlear nucleus. (colloquium) Proc. Nat. Acad Sci. 97:11780-11786 (2000).


Davis, K.A. and Young, E.D. Pharmacological evidence of inhibitory and disinhibitory neural circuits in dorsal cochlear nucleus. J. Neurophysiol. 83:926-940 (2000).


Miller, R.L. Calhoun, B.M., and Young, E.D. Contrast enhancement improves the representation of /e/-like vowels in the hearing-impaired auditory nerve. J. Acoust. Soc. Am. 106:2693-2708 (1999).


Spirou, G.A., Davis, K.A., Nelken, I., and Young. E.D. Spectral integration by type II interneurons in dorsal cochlear nucleus. J. Neurophysiol. 82:648-663 (1999).


Miller, R.L., Calhoun, B.M., and Young, E.D. Discriminability of vowel representations in cat auditory nerve fibers after acoustic trauma. J. Acoust. Soc. Am. l05:311-325 (1999).


Wong, J.C., Miller, R.L., Calhoun, B.M., Sachs, M.B., and Young, E.D. Effects of high sound levels on responses to the vowel /e/ in cat auditory nerve fibers. Hearing Res. 123:61-77 (1998).


Schilling, J.R., Miller, R.L., and Young, E.D. Frequency shaping changes the neural representation of speech with noise-induced hearing loss. Hearing Res. 117:57-70 (1998).


Davis, K.A. and Young, E.D. Granule cell activation of complex- spiking neurons in dorsal cochlear nucleus. J. Neuroscience, 17(1997):6798-6806.


Miller, R.L., Schilling, J.R., Franck, K.R. and Young, E.D. Effects of acoustic trauma on the representation of the vowel /EH/ in cat auditory nerve fibers. J. Acoust. Soc. Am., 101(1997):3602-3616.


Nelken, I. and Young, E.D. Linear and non-linear spectral integration in type IV neurons of the dorsal cochlear nucleus: I. Regions of linear interaction. J. Neurophysiol. 78(1997):790-799.


Nelken, I., Kim, P.J. and Young, E.D. Linear and non-linear spectral integration in type IV neurons of the the dorsal cochlear nucleus: II. Predicting responses with the use of nonlinear models. J. Neurophysiol. 78(1997):800-811.