Шрифт:
Интервал:
Закладка:
Lohmann, K. J., Putman, N. F., and Lohmann, C. M. F. (2008) Geomagnetic imprinting: A unifying hypothesis of long-distance natal homing in salmon and sea turtles, Proceedings of the National Academy of Sciences, 105(49), 19096–19101.
Longcore, T. (2018) Hazard or hope? LEDs and wildlife, LED Professional Review, 70, 52–57.
Longcore, T., et al. (2012) An estimate of avian mortality at communication towers in the United States and Canada, PLOS One, 7(4), e34025.
Longcore, T., and Rich, C. (2016) Artificial night lighting and protected lands: Ecological effects and management approaches. Natural Resource Report 2017/1493.
Lu, P., et al. (2017) Extraoral bitter taste receptors in health and disease, Journal of General Physiology, 149(2), 181–197.
Lubbock, J. (1881) Observations on ants, bees, and wasps. – Part VIII, Journal of the Linnean Society of London, Zoology, 15(87), 362–387.
Lucas, J., et al. (2002) A comparative study of avian auditory brainstem responses: Correlations with phylogeny and vocal complexity, and seasonal effects, Journal of Comparative Physiology A, 188(11–12), 981–992.
Lucas, J. R., et al. (2007) Seasonal variation in avian auditory evoked responses to tones: A comparative analysis of Carolina chickadees, tufted titmice, and white-breasted nuthatches, Journal of Comparative Physiology A, 193(2), 201–215.
Ludeman, D. A., et al. (2014) Evolutionary origins of sensation in metazoans: Functional evidence for a new sensory organ in sponges, BMC Evolutionary Biology, 14(1), 3.
Maan, M. E., and Cummings, M. E. (2012) Poison frog colors are honest signals of toxicity, particularly for bird predators, The American Naturalist, 179(1), E1–E14.
Macpherson, F. (2011) Individuating the senses, in Macpherson, F. (ed), The senses: Classic and contemporary philosophical perspectives, 3–43. Oxford: Oxford University Press.
Madhav, M. S., et al. (2018) High-resolution behavioral mapping of electric fishes in Amazonian habitats, Scientific Reports, 8(1), 5830.
Madsen, P. T., et al. (2002) Sperm whale sound production studied with ultrasound time/depth-recording tags, Journal of Experimental Biology, 205(Pt 13), 1899–1906.
Madsen, P. T., et al. (2013) Echolocation in Blainville's beaked whales (Mesoplodon densirostris), Journal of Comparative Physiology A, 199(6), 451–469.
Madsen, P. T., and Surlykke, A. (2014) Echolocation in air and water, in Surlykke, A., et al. (eds), Biosonar, 257–304. New York: Springer.
Majid, A. (2015) Cultural factors shape olfactory language, Trends in Cognitive Sciences, 19(11), 629–630.
Majid, A., et al. (2017) What makes a better smeller? Perception, 46(3–4), 406–430.
Majid, A., and Kruspe, N. (2018) Hunter-gatherer olfaction is special, Current Biology, 28(3), 409–413.e2.
Malakoff, D. (2010) A push for quieter ships, Science, 328(5985), 1502–1503.
Mancuso, K., et al. (2009) Gene therapy for red-green colour blindness in adult primates, Nature, 461(7625), 784–787.
Marder, E., and Bucher, D. (2007) Understanding circuit dynamics using the stomatogastric nervous system of lobsters and crabs, Annual Review of Physiology, 69(1), 291–316.
Marshall, C. D., et al. (1998) Prehensile use of perioral bristles during feeding and associated behaviors of the Florida manatee (Trichechus manatus latirostris), Marine Mammal Science, 14(2), 274–289.
Marshall, C. D., Clark, L. A., and Reep, R. L. (1998) The muscular hydrostat of the Florida manatee (Trichechus manatus latirostris): A functional morphological model of perioral bristle use, Marine Mammal Science, 14(2), 290–303.
Marshall, J., and Arikawa, K. (2014) Unconventional colour vision, Current Biology, 24(24), R1150–R1154.
Marshall, J., Carleton, K. L., and Cronin, T. (2015) Colour vision in marine organisms, Current Opinions in Neurobiology, 34, 86–94.
Marshall, J., and Oberwinkler, J. (1999) The colourful world of the mantis shrimp, Nature, 401(6756), 873–874.
Marshall, N. J. (1988) A unique colour and polarization vision system in mantis shrimps, Nature, 333(6173), 557–560.
Marshall, N. J., et al. (2019a) Colours and colour vision in reef fishes: Past, present and future research directions, Journal of Fish Biology, 95(1), 5–38.
Marshall, N. J., et al. (2019b) Polarisation signals: A new currency for communication, Journal of Experimental Biology, 222(3), jeb134213.
Marshall, N. J., Land, M. F., and Cronin, T. W. (2014) Shrimps that pay attention: Saccadic eye movements in stomatopod crustaceans, Philosophical Transactions of the Royal Society B: Biological Sciences, 369(1636), 20130042.
Martin, G. R. (2012) Through birds' eyes: Insights into avian sensory ecology, Journal of Ornithology, 153(Suppl. 1), 23–48.
Martin, G. R., Portugal, S. J., and Murn, C. P. (2012) Visual fields, foraging and collision vulnerability in Gyps vultures, Ibis, 154(3), 626–631.
Martinez, V., et al. (2020) Antlions are sensitive to subnanometer amplitude vibrations carried by sand substrates, Journal of Comparative Physiology A, 206(5), 783–791.
Masland, R. H. (2017) Vision: Two speeds in the retina, Current Biology, 27(8), R303–R305.
Mason, A. C., Oshinsky, M. L., and Hoy, R. R. (2001) Hyperacute directional hearing in a microscale auditory system, Nature, 410(6829), 686–690.
Mason, M. J. (2003) Bone conduction and seismic sensitivity in golden moles (Chrysochloridae), Journal of Zoology, 260(4), 405–413.
Mason, M. J., and Narins, P. M. (2002) Seismic sensitivity in the desert golden mole (Eremitalpa granti): A review, Journal of Comparative Psychology, 116(2), 158–163.
Mass, A. M., and Supin, A. Y. (1995) Ganglion cell topography of the retina in the bottlenosed dolphin, Tursiops truncatus, Brain, Behavior and Evolution, 45(5), 257–265.
Mass, A. M., and Supin, A. Y. (2007) Adaptive features of aquatic mammals' eye, The Anatomical Record, 290(6), 701–715.
Masters, W. M. (1984) Vibrations in the orbwebs of Nuctenea sclopetaria (Araneidae). I. Transmission through the web, Behavioral Ecology and Sociobiology, 15(3), 207–215.
Matos-Cruz, V., et al. (2017) Molecular prerequisites for diminished cold sensitivity in ground squirrels and hamsters, Cell Reports, 21(12), 3329–3337.
Maximov, V. V. (2000) Environmental factors which may have led to the appearance of colour vision, Philosophical Transactions of the Royal Society B: Biological Sciences, 355(1401), 1239–1242.
McArthur, C., et al. (2019) Plant volatiles are a salient cue for foraging mammals: Elephants target preferred plants despite background plant odour, Animal Behaviour, 155, 199–216.
McBride, C. S. (2016) Genes and odors underlying the recent evolution of mosquito preference for humans, Current Biology, 26(1), R41–R46.
McBride, C. S., et al. (2014) Evolution of mosquito preference for humans linked to an odorant receptor, Nature, 515(7526), 222–227.
McCulloch, K. J., Osorio, D., and Briscoe, A. D. (2016) Sexual dimorphism in the compound eye of Heliconius erato: A nymphalid butterfly with at least five spectral classes of photoreceptor, Journal of Experimental Biology, 219(15), 2377–2387.
McGann, J. P. (2017) Poor human olfaction is a 19th-century myth, Science, 356(6338), eaam7263.
McGregor, P. K., and Westby, G. M. (1992) Discrimination of individually characteristic electric organ discharges by a weakly electric fish, Animal Behaviour, 43(6), 977–986.
McKemy, D. D. (2007) Temperature sensing across species, Pflügers Archiv – European Journal of Physiology, 454(5), 777–791.
McKenzie, S. K., and Kronauer, D. J. C. (2018) The genomic architecture and molecular evolution of ant odorant receptors, Genome Research, 28(11), 1757–1765.
McMeniman, C. J., et al. (2014) Multimodal integration of carbon dioxide and other sensory cues drives mosquito attraction to humans, Cell, 156(5), 1060–1071.
Meister, M. (2016) Physical limits to magnetogenetics, eLife, 5, e17210.
Melin, A. D., et al. (2007) Effects of colour vision phenotype on insect capture by a free-ranging population of white-faced capuchins, Cebus capucinus, Animal Behaviour, 73(1), 205–214.
Melin, A. D., et al. (2016) Zebra stripes through the eyes of their predators, zebras, and humans, PLOS One, 11(1), e0145679.
Melin, A. D., et al. (2017) Trichromacy increases fruit intake rates of wild capuchins (Cebus capucinus imitator), Proceedings of the National Academy of Sciences, 114(39), 10402–10407.