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Тhe influence of the removal bee pollen with the pollen catcher on the flight activity and behaviour of the bees-polen collectors

The possibility of demonstration of the productivity potential of the bee families depends directly on the level of provision of protein feed. In this regard, the study of the bees behavior that is connected to harvesting and processing of protein food is important for both biology and practical beekeeping. The presented work provides some data of experimental studies of the influence of the removal of the bee pollen on the flight activity of bees. The study of the ethological features that enhance the increase of collection, harvesting and processing of the protein feed was conducted. With this purpose the studies were conducted to elucidate the factors that induce collection of the protein feed -bee pollen by bees and its harvesting in the nest of the bee family in the form of the bee bread. The factors that influence the increase of the collection of the protein feed by bees were researched on experimental and control bee families- analogues. Throughout the studies it was identified that the bees with medium strength were the most active in collecting the pollen. The removal of the bee pollen with pollen catchers decreases the raising of brood by bee families, but doesn’t result in their significant weakening. With the enlargement of the area of the open brood the collection of the pollen by bees increases. In order to obtain the saleable bee pollen the strong bee families should be kept on the apiary. The bees-collectors of the protein feed have the individual features of collecting the bee pollen. With the removal of thbrood from the nest the activity the bees that flew out decreased. When adding the open brood the activity increased. On the contrary, with supply of the bee pollen to the nest, the pollen collecting activity decreases and adding the carbohydrates has no effect. The removal of the bee pollen with the pollen catcher from the bee families increases the flight activity which in turn leads to obtaining more bee pollen on the apiaries and pollination of additional quantity of entomophilous plants. In order to obtain the saleable bee pollen the strong families should be kept on the apiary and the removal should be conducted in the morning and day hours.

Key words: bee family, Ukrainian steppe breed, pollen, bee pollen, bee bread, pollen catcher, flight activity of bees. 

MISHCHENKO O. https://orcid.org/0000-0001-9970-8540


LYTVYNENKO O. https://orcid.org/0000-0001-6643-2285


AFARA K.


KRYVORUCHKO D. https://orcid.org/0000-0003-1788-6090


  1. Moskalyuk, І.V., Sakun, M.M., Hamіd, K.O. (2018). Analiz stanu galuzi bdzhil'nyctva Ukrai'ny, osoblyvosti organi[1]zacii' ohorony praci ta udoskonalennja pravyl bezpeky z bdzhol[1]amy [Analysis of the state of the beekeeping industry of Ukraine, features of the organization of labor protection and improvement of safety rules with bees]. Science Rise. 4, pp. 10–13. Available at: https://doi.org/10.15587/2313-8416.2018.129317
  2. Koval'skij, Yu.V., Koval'skaya, L.N. (2016). Osobenno[1]sti razvedeniya karpatskih pchel [Features of breeding Carpath[1]ian bees]. Naukovyj visnyk L'vivs'kogo nacional'nogo uni[1]versytetu veterynarnoi' medycyny ta biotehnologij imeni S.Z. G'zhyc'kogo [Scientific Bulletin of Lviv National University of Veterinary Medicine and Biotechnology named after S.Z. Gzhytskyi]. 18 (1-3 (65), pp. 60–64.
  3. Kryvda, М. (2018). Development of apiculture in the Zhytomyr region. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Veterinary Sciences. 20(83), pp. 208–211. Available at: https://doi.org/10.15421/ nvlvet8340
  4. Brodschneider, R., Crailsheim, K. (2011). Nutrition and health in honey bees. Apidologie. 41, pp. 278–294. Available at: https://doi.org/10.1051/apido/2010012
  5. Vasquez, A., Olofsson, T. (2009). The lactic acid bacteria involved in the production of bee pollen and bee bread. Journal of Apicultural Research – J APICULT RES. 48. pp. 189–195. Available at: https://doi.org/10.3896/IBRA.1.48.3.07.
  6. Salazar-González C., Díaz-Moreno C. (2016) The nutritional and bioactive aptitude of bee pollen for a solid-state fermentation process. Journal of Apicultur[1]al Research. 55:2, pp. 161–175. Available at: https://doi. org/10.1080/00218839.2016. 1205824
  7. Campos, M.D., Bogdanov, S., Almeida-Muradi[1]an, L.B., Szczęsna, T., Mancebo, Y., Frigerio, C., Fer[1]reira, F. (2008). Pollen composition and standardisation of analytical methods. Journal of Apicultural Research. 47, pp. 154 – 161. Available at:https://doi.org/10.1080/ 00218839.2008.11101443
  8. Mărgăoan, R., Cornea-Cipcigan, M., Topal, E., Kösoğlu, M. (2020). Impact of Fermentation Processes on the Bioactive Profile and Health-Promoting Properties of Bee Bread, Mead and Honey Vinegar. Processes. 8, 1081 p. Avail[1]able at:https: //doi.org/10.3390/pr8091081.
  9. Nicolson, S. (2011). Bee Food: The Chemistry and Nutritional Value of Nectar, Pollen and Mixtures of the Two. African Zoology. 46, pp. 197–204. Available at: https://doi. org/10.3377/004. 046.0201.
  10. Mohammad, S. M., Zawawi, N., Nor-Khaizura, M.A.R. (2021). Stingless Bee-Collected Pollen (Bee Bread): Chemical and Microbiology Properties and Health Benefits. Molecules. 26, 957 p. Available at: https://doi.org/10.3390/ molecules26040957.
  11. Kieliszek, M., Piwowarek, K., Kot, A., Błażejak, S., Chlebowska-Śmigiel, A., Wolska, I. (2018). Pollen and bee bread as new health-oriented products: A review. Trends in Food Science & Technology. 71, pp. 170–180. Available at: https://doi.org/ 10.1016/j.tifs.2017.10.021.
  12. Adgaba, N., Al-Ghamdi, A., Tadesse, Y., Eldin, S., Mohammed, A., Alattal, Y. (2020). Brood-Rearing Enhancing Potential of Manually Packed Pollen Feeding in Comparison with Pollen and Pollen Supplements in Patty Forms. Jour[1]nal of Apicultural Science. 64, 1. Available at: https:// doi. org/10.2478/JAS-2020-0023.
  13. Requier, F., Jowanowitsch, K., Kallnik, K., Stef[1]fan-Dewenter, I. (2019). Limitation of complementary re[1]sources affects colony growth, foraging behavior, and repro[1]duction in bumble bees. Ecology. 101. Available at: https://doi. org/10.1002/ecy. 2946.
  14. Chakrabarti B., Priyadarshini M., Jeffery L., Hannah M., Claudia Sagili, R. (2019). The omics approach to bee nutritional landscape. Metabolomics. 15, 127 p. Available at: https://doi.org/ 10.1007/s11306-019-1590-6.
  15. Martseniuk, N., Adamchuk, L., Akulonok, O. (2020). Flight activity of bee colonies at Acer spp. bee pollen collec[1]tion. The Animal Biology. 22, pp. 36–40. Available at: https:// doi.org/ 10.15407/animbiol22.01.036.
  16.  Baird, E., Tichit, P., Guiraud, M. (2020). The neuroecol[1]ogy of bee flight behaviours. Current Opinion in Insect Science. 42. Available at: https://doi.org/ 10.1016/j.cois.2020.07.005.
  17. Prado, A., Requier, F., Crauser, Didier Le Conte., Yves B., Vincent & Alaux, C. (2020). Honeybee lifespan: the criti[1]cal role of pre-foraging stage. Royal Society Open Science. 7, 200998. 10.1098/rsos.200998.
  18. Mischenko, O. & Lytvynenko, O. & Afara, K. & Kryvoruchko, D.. (2020). Influence of nest structure and age of the bee queen on preparation of protein feed by bees. Visnyk agrarnoi nauky. 98. pp. 27–32. Available at: https://doi. org/10.31073/ agrovisnyk202010-04.
  19. Liolios, V., Tananaki, C., Dimou, M., Kanelis, D., Goras, G., Karazafiris, E., Thrasyvoulou, A. (2016). Ranking pollen from bee plants according to their protein contribution to honey bees. Journal of Apicultural Research. 54, pp. 1–11. Available at: https://doi.org/10.1080/00218839. 2016.1173353.
  20. Borodachev, A.V., Burmistrov, A.N., Kas'yanov, A.I. (2006). Metody provedeniya nauchno-issledovatel'skih rabot v pchelovodstve. Ryboe, NIIP, pp. 4–11.
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2021
BTF №1 2021