Stevens M., Stubbins C., Hardman C.J. (b) The anti-predator function of «eyespots» on camouflaged and conspicuous prey // Behav Ecol Sociobiol. 2008. V. 62. P. 1787–1793.
Steward R.C. Industrial and non-industrial melanism in the peppered moth Biston betularia (L.) // Ecol. Entomol. 1977. V. 2. P. 231–243.
Stobbe N., Schaefer H.M. Enhancement of chromatic contrast increases predation risk for striped butterflies // Proc. R. Soc. B. 2008. V. 275. P. 1535-1541.
Suga H., Tschopp P., Graziussi D.F., Stierwald M., Schmid V., Gehring W. Flexibly deployed Pax genes in eye development at the early evolution of animals demonstrated by studies on a hydrozoan jellyfish // PNAS. 2010. V. 107. P. 14263-14268.
Syriatowicz A., Brooks R. Sexual responsiveness is condition-depended in female guppies, but preference functions are not // BMC Ecology. 2004. V. 4. P. 5.
Takahashi M., Arita H., Hiraiwa-Hasegawa M., Hasegawa T. Peahens do not prefer peacocks with more elaborate trains // Animal Behaviour. 2008. V. 75. P. 1209-1219.
Turner А .Н ., Pol D., Clarke J.A., Erickson G.M., Norell M.A. Basal dromaeosaurid and size evolution preceding avian flight // Science. 2007. V. 317. P. 1378–1381.
Vallin A., Dimitrova M., Kodandaramaiah U., Merilaita S. Deflective effect and the effect of prey detectability on anti-predator function of eyespots // Behavioral Ecology and Sociobiology. 2011. V. 65. P. 1629–1636.
Vallin A., Jakobsson S., Lind J., Wiklund C. Prey survival by predator intimidation: an experimental study of peacock butterfly defence against blue tits // Proc R Soc Lond B Biol Sci. 2005. V. 272. P. 1203–1207.
Vallin A., Jakobsson S., Lind J., Wiklund C. Crypsis versus intimidation – anti-predation defence in three closely related butterflies // Behavioral Ecology and Sociobiology. 2006. V. 59. № 3. P. 455-459.
Vallin A., Jakobsson S., Wiklund C. «An eye for an eye» - on the generality of the intimidating quality of eyespots in a butterfly and hawkmoth // Behav Ecol Sociobiol. 2007. V. 61. P. 1419-1424.
Vallin A., Jakobsson S., Wiklund C. Constant eyespot display as a primary defence - survival of male and female emperor moths attacked by blue tits // J Res Lepidoptera. 2010. V. 43. P. 9–17.
van't Hof A.E., Edmonds N., Dalikova M., Marec F., Saccheri I.J. Industrial melanism in British peppered moths has a singular and recent mutational origin // Science. 2011. V. 332. № 6032. P. 958-960.
Verheyen E., Salzburger W., Snoeks J., Meyer A. Origin of the superflock of cichlid fishes from lake Victoria, East Africa // Science. 2003. V. 300. № 5617. P. 325-329.
Vlieger L., Brakefield P.M. The deflection hypothesis: eyespots on the margins of butterfly wings do not influence predation by lizards // Biol J Linn Soc. 2007. V. 92. P. 661–667.
Vicario S., Moriyama E.N., Powell J.R. Codon usage in twelve species of Drosophila // BMC Evolutionary Biology. 2007. V. 7. P. 226.
Walsh S.J., Carter R.G. New species of troglobitic catfish of the genus Prietella (Siluriformes: Ictaluridae) from Northeastern Mexico // Copeia. 1995. V. 1995. № 4. P. 850-861.
Walsh A.M., Kortschak R.D., Gardner M.G., Bertozzi T., Adelson D.L. Widespread horizontal transfer of retrotransposons // PNAS. 2013. V. 110. № 3. P. 1012-1016.
Warrant E., Dacke M. Visual orientation and navigation in nocturnal arthropods // Brain, Behavior and Evolution. 2010, V. 75. P. 156-173.
Warren et al. Genome analysis of the platypus reveals unique signatures of evolution // Nature. 2008. V. 453. P. 175-183.
Weeden J., Sabini J. Physical attractiveness and health in western societies: a review // Psychological bulletin. 2005. V. 131, P. 635-653.
Wei L., Wu X., Zhu L., Jiang Z. Mitogenomic analysis of the genus Panthera // Sci China Life Sci. 2011. V.54. № 10. P. 917-930.
Wells J. Moth-eaten statistics: a reply to Kenneth R. Miller // Discovery Institute: Centre for Renewal of Science and Culture. Взято 22.02.15 с http://www.discovery.org/a/1147
Whittle P.D.J., Clarke C.A., Sheppard P.M., Bishop J.A. Further studies on the industrial melanic moth Biston betularia (L.) in the northwest of the British Isles // Proc R Soc Lond B Biol Sci. 1976. V. 194. P. 467–80.
Wiklund C., Tullberg B.S. Seasonal polyphenism and leaf mimicry in the comma butterfly // Anim Behav. 2004. V. 68. P. 621–627.
Wilcox T.P., Garcia de Leon F.J., Hendrickson D.A., Hillis D.M. Convergence among cave catfishes: long-branch attraction and a Bayesian relative rates test // Molecular Phylogenetics and Evolution. 2004. V. 31. №. 3. P. 1101-1113.
Wourms M.K., Wasserman F.E. (а) Bird predation on Lepidoptera and the reliability of beak-marks in determining predation pressure // Journal of the Lepidopterists’ Society. 1985. V. 39. № 4. P. 239-261.
Wourms M.K., Wasserman F.E. (b) Butterfly wing markings are more advantageous during handling than during the initial strike of an avian predator // Evolution. 1985. V. 39. P. 845–851.
Xu Y., Ma P., Shah P., Rokas A., Liu Y., Johnson C.H. Non-optimal codon usage is a mechanism to achieve circadian clock conditionality // Nature. 2012. V. 495. P. 116–120.
Young T.P. A general model of comparative fecundity for semelparous and iteroparous life histories // American Naturalist. 1981. V. 118. P. 27-36.
Zhou M., Guo J., Cha J., Chae M., Chen S., Barral J.M., Matthew S.S., Liu Y. Non-optimal codon usage affects expression, structure and function of clock protein FRQ // Nature. 2012. V. 495. 111-115.
Zimova M., Mills L.S., Lukacs P.M., Mitchell M. S. Snowshoe hares display limited phenotypic plasticity to mismatch in seasonal camouflage // Proc. R. Soc. B. 2014. V. 281. № 1782. P. 20140029.
Белов Д.А. Вспышка массового размножения непарного шелкопряда в условиях Москвы / Экология, мониторинг и рациональное природопользование // Науч. тр. Вып. 294 (1) – М.: МГУЛ. 1998. С. 181-190.
Берг Л. С. Номогенез, или Эволюция на основе закономерностей. - Петербург: Государственное издательство. 1922. - 306 с.