The shark's senses. in: Stevens, J.D(ed.) Sharks. Intercontinental Publishing Corporation Limited, Hong Kong, 240 pp: Pp. 76–83
Natural repellents in coral reef communities- mechanisms of action upon chemosensory systems of sharks. In Gomex, E.D., C.E. Birkeland, R.W. Buddemeier, R.E. Johannes, J.A. Marsh Jr., and R.T. Tsuda(eds.). The reef and man. Proceedings of the Fourth International Coral Reef Symposium 2: 563–568
Electrophysiological studies of chemoreception in elasmobranchs. In E.S. Hodgson & Mathewson, R.F. (Eds.), Sensory biology of sharks, skates and rays. (pp. 227–267). Office of Naval Research, Washington, D.C.
Knowledge and Exploitation of the Sensory Biology of Sharks in the Southwestern Pacific. In E.S. Hodgson & Mathewson, R.F. (Eds.), Sensory biology of sharks, skates and rays. (pp. 595–608). Office of Naval Research, Washington, D.C.
Klinotaxis and rheotaxis in orientation of sharks toward chemical stimuli. Comparative Biochemistry and Physiology – Part A, Physiology, 42(1), 79–84
DOI: 10.1016/0300-9629(72)90369-6
Chemosensory orientation in sharks. Annals of the New York Academy of Sciences, 188, 175–182
DOI: 10.1111/j.1749-6632.1971.tb13096.x
Electroencephalographic studies of chemoreception in sharks. In P.W. Gilbert, R.F. Mathewson, & D.P. Rall, (Eds.), Sharks, skates and rays. (pp. 491–501). John Hopkins Press, Baltimore
Electroencephalograms of sharks. Science, 145(3635), 949–951