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References
Оглавление1 Abbott, J. (2014). Self‐medication in insects: current evidence and future perspectives. Ecological Entomology 39: 273–280.
2 Annoscia, D., Zanni, V., Galbraith, D. et al. (2017). Elucidating the mechanisms underlying the beneficial health effects of dietary pollen on honey bees (Apis mellifera) infested by Varroa mite ectoparasites. Scientific Reports 7: 6258. https://doi.org/10.1038/s41598‐017‐06488‐2.
3 Avitabile, A. (1978). Brood rearing in honeybee colonies from late autumn to early spring. Journal of Apicultural Research 17 (2): 69–73.
4 Baracchi, D. and Cini, A. (2014). A socio‐spatial combined approach confirms a highly compartmentalized structure in honey bees. Ethology 120: 1167–1176.
5 Baracchi, D., Francese, S., and Turillazzi, S. (2011). Beyond the antipredator defence: honey bee venom function as a component of social immunity. Toxicon 58: 550–557.
6 Bíliková, K., Wu, G., and Šimúth, J. (2001). Isolation of a peptide fraction from honeybee royal jelly as a potential antifoulbrood factor. Apidologie 32: 275–283.
7 Borba, R.S., Klyczek, K.K., Mogen, K.L., and Spivak, M. (2015). Seasonal benefits of a natural propolis envelope to honey bee immunity and colony health. Journal of Experimental Biology 218: 3689–3699.
8 Cremer, S., Armitage, S.A., and Schmid‐Hempel, P. (2007). Social immunity. Current Biology 17 (16): R693–R702. https://doi.org/10.1016/j.cub.2007.06.008.
Darwin, C. (1859). On the Origin of Species by Means of Natural Selection; or the Preservation of Favoured Races in the Struggle for Life. London, UK: John Murray.
1 DeGrandi‐Hoffman, G., Chen, Y., Huang, E., and Huang, M.H. (2010). The effect of diet on protein concentration, hypopharyngeal gland development and virus load in worker honey bees (Apis mellifera L.). Journal of Insect Physiology 56: 1184–1191.
2 Down, P.M., Kerby, M., Hall, J. et al. (2012). Providing herd health management in practice – how does it work on a farm? Cattle Practice 20 (2): 112–119.
3 Evans, J.D. and Pettis, J.S. (2005). Colony‐level impacts of immune responsiveness in honey bees, Apis mellifera. Evolution 59: 2270–2274.
4 Garedew, A., Lampretcht, I., Schmolz, E., and Schricker, B. (2002). The varroacidal action of propolis: a laboratory assay. Apidologie 33: 41–50.
Hamilton, W.D. (1964). Genetical evolution of social behaviour I. Journal of Theoretical Biololgy 7: 1–16. (doi:10.1016/0022‐5193(64)90038‐4)
1 Hasselmann, M. and Beye, M. (2004). Signatures of selection among sex‐determining alleles of the honey bee. Proceedings of the National Academy of Sciences 101 (14): 4888–4893.
2 Hodges, C.R., Delaplane, K.S., and Brosi, B.J. (2018). Textured hive interiors increase honey bee (Hymenoptera: Apidae) propolis‐hoarding behavior. Journal of Economic Entomology 20 (10): 1–5. https://doi.org/10.1093/jee/toy363.
3 Hölldobler, B. and Wilson, E.O. (2009). The Superorganism: The Beauty, Elegance and Strangeness of Insect Societies. New York, NY: WW Norton & Co.
4 Jones, J.C., Myerscough, M.R., Graham, S., and Oldroyd, B.P. (2004). Honey bee nest thermoregulation: diversity promotes stability. Science 305: 402–404.
5 Koch, H. and Schmid‐Hempel, P. (2011). Socially transmitted gut microbiota protect bumble bees against an intestinal parasite. Proceedings of the National Academy of Sciences of the United States of America 108: 19288–19292.
6 Kristensen, E. and Jakobsen, E.B. (2011). Challenging the myth of the irrational dairy farmer; understanding decision‐making related to herd health. New Zealand Veterinary Journal 59 (1): 1–7. https://doi.org/10.1080/00480169.2011.547162.
7 Li, Z., Huang, Z.Y., Sharma, D.B. et al. (2016). Drone and worker brood microclimates are regulated differentially in honey bees, Apis mellifera. PLoS One 11 (2): e0148740. https://doi.org/10.1371/journal.pone.0148740.
8 Namakura, J. and Seeley, T.D. (2006). The functional organization of resin work in honeybee colonies. Behavioral Ecology and Sociobiology 60: 339–349.
9 Naug, D. and Camazine, S. (2002). The role of colony organization on pathogen transmission in social insects. Journal of Theoretical Biology 215: 427–439.
10 Nicodemo, D., De Jong, D., Couto, R.H.N., and Malheiros, E.B. (2013). Honey bee lines selected for high propolis also have superior hygienic behavior and increased honey and pollen stores. Genetics and Molecular Research 12 (4): 6931–6938.
11 Nicodemo, D., Malheiros, E.B., De Jong, D., and Couto, R.H.N. (2014). Increased brood viability and longer lifespan of honeybees selected for propolis production. Apidologie 45: 269–275.
12 Pasupuleti, V.R., Sammugam, L., Ramesh, N., and Gan, S.H. (2017). Honey, propolis, and royal jelly: a comprehensive review of their biological actions and health benefits. Oxidative Medicine and Cellular Longevity 2017: 1–21.
13 Powell, E.J., Martinson, V.G., Urban‐Mead, K., and Moran, N.A. (2014). Routes of acquisition of the gut microbiota of the honey bee Apis mellifera. Applied and Environmental Microbiology 80 (23): 7378–7387.
14 Raj, P.A. and Dentino, A.R. (2002). Current status of defensins and their role in innate and adaptive immunity. FEMS Microbiology Letters 206: 9–18.
15 Ratnieks, F.L.W. and Helantera, H. (2009). The evolution of extreme altruism and inequality in insect societies. Philosophical Transactions of the Royal Society Series B 364: 3169–3179.
16 Richardson, L.L., Adler, L.S., Leonard, A.S. et al. (2015). Secondary metabolites in floral nectar reduce parasite infections in bumblebees. Proceedings Royal Society B 282: 20142471.
17 de Roode, J.C., Lefèvre, T., and Hunter, M.D. (2013). Self‐Medication in Animals. Science 340 (5129): 150–151.
18 Seeley, T.D. (1982). Adaptive significance of the age polyethism schedule in honeybee colonies. Behavioral Ecology and Sociobiology 11: 287–293.
19 Seeley, T.D. (1989). The honey bee colony as a superorganism. American Scientist 77 (6): 546–553.
20 Seeley, T.D. and Morse, R.A. (1976). The nest of the honey bee (Apis mellifera L.). Insectes Sociaux 23 (4): 495–512.
21 Simone, M., Evans, J.D., and Spivak, M. (2009). Resin collection and social immunity in honey bees. Evolution 63: 3016–3022.
22 Simone‐Finstrom, M. (2017). Social immunity and the superorganism: behavioral defenses protecting honey bee colonies from pathogens and parasites. Bee World 94 (1): 21–29. https://doi.org/10.1080/0005772X.2017.1307800.
23 Simone‐Finstrom, M. and Spivak, M. (2010). Propolis and bee health: the natural history and significance of resin use by honey bees. Apidologie 41: 295–311.
24 Simone‐Finstrom, M.D. and Spivak, M. (2012). Increased resin collection after parasite challenge: a case of self‐medication in honey bees? PLoS One 7: e34601.
25 Simone‐Finstrom, M., Borba, R.S., Wilson, M., and Spivak, M. (2017). Propolis counteracts some threats to honey bee health. Insects 8: 46.
26 Starks, P.T., Blackie, C.A., and Seeley, T.D. (2000). Fever in honeybee colonies. Naturwissenschaften 87: 229–231.
27 Stow, A., Briscoe, D., Gillings, M. et al. (2007). Antimicrobial defenses increase with sociality in bees. Biology Letters 3 (4): 422–424.
28 Vaudo, A.D., Patch, H.M., Mortensen, D.A. et al. (2016). Macronutrient ratios in pollen shape bumble bee (Bombus impatiens) foraging strategies and floral preferences. Proceedings of the National Academy of Sciences of the United States of America 113: 4035–4042.
29 Wheeler, W.M. (1911). The ant colony as an organism. Journal of Morphology 22 (2): 307–325.
30 Whiting, P.W. (1933). Selective fertilization and sex‐determination in Hymenoptera. Science 78 (2032): 537–538.
31 Wilson, E.O. (1971). The Insect Societies. Cambridge, MA: Harvard University Press.