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Veilleux, C. C., and Kirk, E. C. (2014) Visual acuity in mammals: Effects of eye size and ecology, Brain, Behavior and Evolution, 83(1), 43–53.

Velez, A., Ryoo, D. Y., and Carlson, B. A. (2018) Sensory specializations of mormyrid fish are associated with species differences in electric signal localization behavior, Brain, Behavior and Evolution, 92(3–4), 125–141.

Vernaleo, B. A., and Dooling, R. J. (2011) Relative salience of envelope and fine structure cues in zebra finch song, Journal of the Acoustical Society of America, 129(5), 3373–3383.

Vidal-Gadea, A., et al. (2015) Magnetosensitive neurons mediate geomagnetic orientation in Caenorhabditis elegans, eLife, 4, e07493.

Viguier, C. (1882) Le sens de l'orientation et ses organes chez les animaux et chez l'homme, Revue philosophique de la France et de l'йtranger, 14, 1–36.

Viitala, J., et al. (1995) Attraction of kestrels to vole scent marks visible in ultraviolet light, Nature, 373(6513), 425–427.

Vogt, R. G., and Riddiford, L. M. (1981) Pheromone binding and inactivation by moth antennae, Nature, 293(5828), 161–163.

Vollrath, F. (1979a) Behaviour of the kleptoparasitic spider Argyrodes elevatus (Araneae, theridiidae), Animal Behaviour, 27(Pt 2), 515–521.

Vollrath, F. (1979b) Vibrations: Their signal function for a spider kleptoparasite, Science, 205(4411), 1149–1151.

Von der Emde, G. (1990) Discrimination of objects through electrolocation in the weakly electric fish, Gnathonemus petersii, Journal of Comparative Physiology A, 167, 413–421.

Von der Emde, G. (1999) Active electrolocation of objects in weakly electric fish, Journal of Experimental Biology, 202, 1205–1215.

Von der Emde, G., et al. (1998) Electric fish measure distance in the dark, Nature, 395(6705), 890–894.

Von der Emde, G., and Ruhl, T. (2016) Matched filtering in African weakly electric fish: Two senses with complementary filters, in von der Emde, G., and Warrant, E. (eds), The ecology of animal senses, 237–263. Cham: Springer.

Von der Emde, G., and Schnitzler, H.-U. (1990) Classification of insects by echolocating greater horseshoe bats, Journal of Comparative Physiology A, 167(3), 423–430.

Von Durckheim, K. E. M., et al. (2018) African elephants (Loxodonta africana) display remarkable olfactory acuity in human scent matching to sample performance, Applied Animal Behaviour Science, 200, 123–129.

Von Holst, E., and Mittelstaedt, H. (1950) Das reafferenzprinzip, Naturwissenschaften, 37(20), 464–476.

Wackermannova, M., Pinc, L., and Jebavy, L. (2016) Olfactory sensitivity in mammalian species, Physiological Research, 65(3), 369–390.

Walker, D. B., et al. (2006) Naturalistic quantification of canine olfactory sensitivity, Applied Animal Behaviour Science, 97(2–4), 241–254.

Walsh, C. M., Bautista, D. M., and Lumpkin, E. A. (2015) Mammalian touch catches up, Current Opinion in Neurobiology, 34, 133–139.

Wang, C. X., et al. (2019) Transduction of the geomagnetic field as evidenced from alpha-band activity in the human brain, eNeuro, 6(2), ENEURO.0483-18.2019.

Ward, J. (2013) Synesthesia, Annual Review of Psychology, 64(1), 49–75.

Wardill, T., et al. (2013) The miniature dipteran killer fly Coenosia attenuata exhibits adaptable aerial prey capture strategies, Frontiers of Physiology Conference Abstract: International Conference on Invertebrate Vision, doi:10.3389/conf.fphys.2013.25.00057.

Ware, H. E., et al. (2015) A phantom road experiment reveals traffic noise is an invisible source of habitat degradation, Proceedings of the National Academy of Sciences, 112(39), 12105–12109.

Warkentin, K. M. (1995) Adaptive plasticity in hatching age: A response to predation risk trade-offs, Proceedings of the National Academy of Sciences, 92(8), 3507–3510.

Warkentin, K. M. (2005) How do embryos assess risk? Vibrational cues in predator-induced hatching of red-eyed treefrogs, Animal Behaviour, 70(1), 59–71.

Warkentin, K. M. (2011) Environmentally cued hatching across taxa: Embryos respond to risk and opportunity, Integrative and Comparative Biology, 51(1), 14–25.

Warrant, E. J. (2017) The remarkable visual capacities of nocturnal insects: Vision at the limits with small eyes and tiny brains, Philosophical Transactions of the Royal Society B: Biological Sciences, 372(1717), 20160063.

Warrant, E. J., et al. (2004) Nocturnal vision and landmark orientation in a tropical halictid bee, Current Biology, 14(15), 1309–1318.

Warrant, E., et al. (2016) The Australian bogong moth Agrotis infusa: A long-distance nocturnal navigator, Frontiers in Behavioral Neuroscience, 10, 77.

Warrant, E. J., and Locket, N. A. (2004) Vision in the deep sea, Biological Reviews of the Cambridge Philosophical Society, 79(3), 671–712.

Watanabe, T. (1999) The influence of energetic state on the form of stabilimentum built by Octonoba sybotides (Araneae: Uloboridae), Ethology, 105(8), 719–725.

Watanabe, T. (2000) Web tuning of an orb-web spider, Octonoba sybotides, regulates prey-catching behaviour, Proceedings of the Royal Society B: Biological Sciences, 267(1443), 565–569.

Webb, B. (1996) A cricket robot, Scientific American. Available at: www.scientificamerican.com/article/a-cricket-robot/.

Webb, J. F. (2013) Morphological diversity, development, and evolution of the mechanosensory lateral line system, in Coombs, S., et al. (eds), The lateral line system, 17–72. New York: Springer.

Webster, D. B. (1962) A function of the enlarged middle-ear cavities of the kangaroo rat, Dipodomys, Physiological Zoology, 35(3), 248–255.