Страница 98 из 149
Bleicher, S. S., et al. (2018) Divergent behavior amid convergent evolution: A case of four desert rodents learning to respond to known and novel vipers, PLOS One, 13(8), e0200672.
Blickley, J. L., et al. (2012) Experimental chronic noise is related to elevated fecal corticosteroid metabolites in lekking male greater sage-grouse (Centrocercus urophasianus), PLOS One, 7(11), e50462.
Bok, M. J., et al. (2014) Biological sunscreens tune polychromatic ultraviolet vision in mantis shrimp, Current Biology, 24(14), 1636–1642.
Bok, M. J., Capa, M., and Nilsson, D.-E. (2016) Here, there and everywhere: The radiolar eyes of fan worms (A
Boles, L. C., and Lohma
Bonado
Boonman, A., et al. (2013) It's not black or white: On the range of vision and echolocation in echolocating bats, Frontiers in Physiology, 4, 248.
Boonman, A., Bumrungsri, S., and Yovel, Y. (2014) Nonecholocating fruit bats produce biosonar clicks with their wings, Current Biology, 24(24), 2962–2967.
Boström, J. E., et al. (2016) Ultra-rapid vision in birds, PLOS One, 11(3), e0151099.
Bottesch, M., et al. (2016) A magnetic compass that might help coral reef fish larvae return to their natal reef, Current Biology, 26(24), R1266–R1267.
Braithwaite, V. (2010) Do fish feel pain? New York: Oxford University Press.
Braithwaite, V., and Droege, P. (2016) Why human pain can't tell us whether fish feel pain, Animal Sentience, 3(3).
Braude, S., et al. (2021) Surprisingly long survival of premature conclusions about naked mole-rat biology, Biological Reviews, 96(2), 376–393.
Brill, R. L., et al. (1992) Target detection, shape discrimination, and signal characteristics of an echolocating false killer whale (Pseudorca crassidens), Journal of the Acoustical Society of America, 92(3), 1324–1330.
Brinkløv, S., Elemans, C. P. H., and Ratcliffe, J. M. (2017) Oilbirds produce echolocation signals beyond their best hearing range and adjust signal design to natural light conditions, Royal Society Open Science, 4(5), 170255.
Brinkløv, S., Fenton, M. B., and Ratcliffe, J. M. (2013) Echolocation in oilbirds and swiftlets, Frontiers in Physiology, 4, 123.
Brinkløv, S., Kalko, E. K. V., and Surlykke, A. (2009) Intense echolocation calls from two "whispering" bats, Artibeus jamaicensis and Macrophyllum macrophyllum (Phyllostomidae), Journal of Experimental Biology, 212(Pt 1), 11–20.
Brinkløv, S., and Warrant, E. (2017) Oilbirds, Current Biology, 27(21), R1145–R1147.
Briscoe, A. D., et al. (2010) Positive selection of a duplicated UV-sensitive visual pigment coincides with wing pigment evolution in Heliconius butterflies, Proceedings of the National Academy of Sciences, 107(8), 3628–3633.
Broom, D. (2001) Evolution of pain, Vlaams Diergeneeskundig Tijdschrift, 70, 17–21.
Brothers, J. R., and Lohma
Brown, F. A. (1962) Responses of the planarian, dugesia, and the protozoan, paramecium, to very weak horizontal magnetic fields, Biological Bulletin, 123(2), 264–281.
Brown, F. A., Webb, H. M., and Barnwell, F. H. (1964) A compass directional phenomenon in mud-snails and its relation to magnetism, Biological Bulletin, 127(2), 206–220.
Brown, R. E., and Fedde, M. R. (1993) Airflow sensors in the avian wing, Journal of Experimental Biology, 179(1), 13–30.
Brownell, P., and Farley, R. D. (1979a) Detection of vibrations in sand by tarsal sense organs of the nocturnal scorpion, Paruroctonus mesaensis, Journal of Comparative Physiology A, 131(1), 23–30.
Brownell, P., and Farley, R. D. (1979b) Orientation to vibrations in sand by the nocturnal scorpion, Paruroctonus mesaensis: Mechanism of target localization, Journal of Comparative Physiology A, 131(1), 31–38.
Brownell, P., and Farley, R. D. (1979c) Prey-localizing behaviour of the nocturnal desert scorpion, Paruroctonus mesaensis: Orientation to substrate vibrations, Animal Behaviour, 27(Pt 1), 185–193.
Brownell, P. H. (1984) Prey detection by the sand scorpion, Scientific American, 251(6), 86–97.
Brumm, H. (2004) The impact of environmental noise on song amplitude in a territorial bird, Journal of Animal Ecology, 73(3), 434–440.
Brunetta, L., and Craig, C. L. (2012) Spider silk: Evolution and 400 million years of spi
Bryant, A. S., et al. (2018) A critical role for thermosensation in host seeking by skin-penetrating nematodes, Current Biology, 28(14), 2338–2347.e6.
Bryant, A. S., and Hallem, E. A. (2018) Temperature-dependent behaviors of parasitic helminths, Neuroscience Letters, 687, 290–303.
Bullock, T. H. (1969) Species differences in effect of electroreceptor input on electric organ pacemakers and other aspects of behavior in electric fish, Brain, Behavior and Evolution, 2(2), 102–118.
Bullock, T. H., Behrend, K., and Heiligenberg, W. (1975) Comparison of the jamming avoidance responses in Gymnotoid and Gymnarchid electric fish: A case of convergent evolution of behavior and its sensory basis, Journal of Comparative Physiology, 103(1), 97–121.
Bullock, T. H., and Diecke, F. P. J. (1956) Properties of an infra-red receptor, Journal of Physiology, 134(1), 47–87.
Bush, N. E., Solla, S. A., and Hartma
Buxton, R. T., et al. (2017) Noise pollution is pervasive in U.S. protected areas, Science, 356(6337), 531–533.
Cadena, V., et al. (2013) Evaporative respiratory cooling augments pit organ thermal detection in rattlesnakes, Journal of Comparative Physiology A, 199(12), 1093–1104.
Caldwell, M. S., McDaniel, J. G., and Warkentin, K. M. (2010) Is it safe? Red-eyed treefrog embryos assessing predation risk use two features of rain vibrations to avoid false alarms, Animal Behaviour, 79(2), 255–260.
Calma, J. (2020) The pandemic turned the volume down on ocean noise pollution, The Verge. Available at: www.theverge.com/22166314/covid-19-pandemic-ocean-noise-pollution.
Caprio, J. (1975) High sensitivity of catfish taste receptors to amino acids, Comparative Biochemistry and Physiology Part A: Physiology, 52(1), 247–251.
Caprio, J., et al. (1993) The taste system of the cha
Caputi, A. A. (2017) Active electroreception in weakly electric fish, in Sherman, S. M. (ed), Oxford research encyclopedia of neuroscience. New York: Oxford University Press. Available at: DOI: 10.1093/acrefore/9780190264086.013.106.
Caputi, A. A., et al. (2013) On the haptic nature of the active electric sense of fish, Brain Research, 1536, 27–43.
Caputi, Б. A., Aguilera, P. A., and Pereira, A. C. (2011) Active electric imaging: Body-object interplay and object's "electric texture," PLOS One, 6(8), e22793.
Caras, M. L. (2013) Estrogenic modulation of auditory processing: A vertebrate comparison, Frontiers in Neuroendocrinology, 34(4), 285–299.