Literature Cited to accompany Animal Communication, 2e

Chapter 3 Literature Cited 

 

13 

 

147  Hoy, R. R. and D. Robert. 1996. Tympanal hearing in insects. Annual Review of 

Entomology 41: 433–450. 

 

148  Huang, G. T., J. J. Rosowski, and W. T. Peake. 2000. Relating middle-ear acoustic 

performance to body size in the cat family: measurements and models. Journal of 

Comparative Physiology A-Sensory Neural and Behavioral Physiology 186: 447–

465. 

 

149  Hudspeth, A. J. and M. Konishi. 2000. Auditory neuroscience: Development, 

transduction and integration. Proceedings of the National Academy of Sciences of 

the United States of America 97: 11690–11691. 

 

150  Huisman, W. H. T. and K. Attenborough. 1991. Reverberation and attenuation in a 

pine forest. Journal of the Acoustical Society of America 90: 2664–2677. 

 

151  Hunter, M. L. and J. R. Krebs. 1979. Geographical variation in the song of the great 

tit Parus major in relation to ecological factors. Journal of Animal Ecology 48: 

759–785. 

 

152  Ichikawa, T. 1976. Mutual communication by substrate vibrations in the mating 

behavior of planthoppers (Homoptera, Delphacidae). Applied Entomology and 

Zoology 11: 8–21. 

 

153  Jang, Y. and M. D. Greenfield. 1996. Ultrasonic communication and sexual 

selection in wax moths: female choice based on energy and asynchrony of male 

signals. Animal Behaviour 51: 1095–1106. 

 

154  Jeffs, A., C. E. Diebel, and S. H. Hooker. 1997. Arrangement and significance of 

pinnate sensory setae on antennae of the puerulus and post-puerulus of the spiny 

lobster, Jasus edwardsii (Palinuridae). Marine and Freshwater Research 48: 681–

686. 

 

155  Jensen, F. B. and W. A. Kuperman. 1983. Optimum frequency of propagation in 

shallow-water environments. Journal of the Acoustical Society of America 73: 813–

819. 

 

156  Jilka, A. and B. Leisler. 1974. The relation between the frequency spectrum of the 

territorial songs of three reed warbler species Acrocephalus schoenobaenus, 

Acrocephalus scirpaceus, Acrocephalus arundinaceus and their respective habitats. 

Journal für Ornithologie 115: 192–212. 

 

157  Kalmijn, A. J. 1988. Hydrodynamic and acoustic field detection. In Sensory Biology 

of Aquatic Animals (J. Atema, R. R. Fay, A. N. Popper, and W. N. Tavolga, eds.), 

pp. 83–130. New York: Springer-Verlag. 

 

Chapter 3 Literature Cited 

 

14 

158  Kämper, G. and H. U. Kleindienst. 1990. Oscillation of cricket sensory hairs in a 

low frequency sound field. Journal of Comparative Physiology A-Sensory Neural 

and Behavioral Physiology 167: 193–199. 

 

159  Kang, D., K. Iida, T. Mukai, and J. Kim. 2006. Density and sound speed contrasts 

of the Japanese common squid Todarodes pacificus and their influence on acoustic 

target strength. Fisheries Science 72: 728–736. 

 

160  Katti, M. and P. S. Warren. 2004. Tits, noise and urban bioacoustics. Trends in 

Ecology and Evolution 19: 109–110. 

 

161  Keil, T. A. 1997. Functional morphology of insect mechanoreceptors. Microscopy 

Research and Technique 39: 506–531. 

 

162  Ketten, D. 1992. The marine mammal ear: specializations for aquatic audition and 

echolocation. In The Evolutionary Biology of Hearing (D. B. Webster, R. R. Fay, 

and A. N. Popper, eds.), pp. 717–750. New York: Springer-Verlag. 

 

163  Ketten, D. 1997. Structure and function in whale ears. Bioacoustics 8: 103–135. 

 

164  Keuper, A. and R. Kuhne. 1983. The acoustic behavior of the bushcricket 

Tettigonia cantans. 2. Transmission of airborne sound and vibration signals in the 

biotope. Behavioural Processes 8: 125–145. 

 

165  Kime, N. M., W. R. Turner, and M. J. Ryan. 2000. The transmission of 

advertisement calls in Central American frogs. Behavioral Ecology 11: 71–83. 

 

166  Kirchner, W. H. 1994. Hearing in honeybees - the mechanical response of the bee's 

antenna to near field sound. Journal of Comparative Physiology A-Sensory Neural 

and Behavioral Physiology 175: 261–265. 

 

167  Klump, G. M. and E. Curio. 1983. Why don't spectra of songbirds' vocalizations 

correspond with the sensitivity maxima of their absolute threshold curves? Versh. 

Dtsch. Zool. Ges. 1983: 182. 

 

168  Klump, G. M. and M. D. Shalter. 1984. Acoustic behaviour of birds and mammals 

in the predator context. I. Factors affecting the structure of alarm signals. II. The 

functional significance and evolution of alarm signals. Zeitschrift für 

Tierpsychologie 66: 189–226. 

 

169  Klump, G. M. 2000. Sound localization in birds. In Comparative Hearing: Birds 

and Reptiles (R. J. Dooling, R. R. Fay, and A. N. Popper, eds.), pp. 249–307. New 

York: Springer-Verlag. 

 

170  Kolmes, S. A. 1985. Surface vibrational cues in the precopulatory behavior of 

whirligig beetles. Journal of the New York Entomological Society 93: 1137–1140.