EVALUATION OF ETHOLOGICAL AND PRODUCTION TRAITS IN VARIOUS GENOTYPES OF MACEDONIAN HONEY BEE SUBSPECIES

##plugins.themes.bootstrap3.article.main##

Hrisula Kiprijanovska
Miroljub Golubovski

Апстракт

The honey bee colonony is a complex society which has a wide range of behaviors. The most
important are swarming, colony defense and hygienic behavior. These ethological traits have an
impact on the honey yields and are of significant interests of the honey bee breeders. Therefore the
ethological characteristics are recognized in selection and breeding programs. According to the
breeding programs selection is directed to reduction of swarming and colony defense behavior and
increased expression of hygienic behavior. The aim of this research was to evaluate these
characteristics in 100 honey bee colonies from four genotypes (A, B, C and D) of the autochthonous
honey bee population (Apis mellifera macedonica) in one of the registered honey bee queen
breeding stations, located in Ohrid region, during 2016.The research included: scoring of the
defensive and the swarming behavior of honey bee colonies according to four point system, testing
hygienic behavior using Pin-test method and scoring according five point system as well as
determining honey yield by weighing of extracted honey in kg per honey bee colony and scoring the
honey yield according to the four point system. The results did not show statistically significant
differences concerning swarming behavior and honey yield between colonies from the four
genotypes. The results have shown statistical significant differences in the average cleaning success
(hygienic behavior) after 24 hours, between A and B (p=0.0096) genotypes, and in the defensive
behavior, between A and D (p=0.0166) and between C and D (p=0.0333) genotypes.

Downloads

Download data is not yet available.

##plugins.themes.bootstrap3.article.details##

Рубрика
Articles

Референци

Adam, B. (1968) In search of the best strains of bees. Walmar Verlag Zell, Weierbach, Germany.
2. Антевски, В. (2015). Сезпнска динамика на развпј на македпнската медпнпсна пчела (Apis mellifera macedonica) вп пплпшкипт регипн. Магистерски труд, Факултет за земјпделски науки и храна, Скппје, Република Македпнија.
3. Bigio,G., Schurch,R., Ratnieks, FLW. (2013). Hygienic behaviourin honey bees (Hymenoptera: Apidae): effects of brood, food, and time of the year. Journal of Economic Entomology, 106(6): 2280-2285.
4. Breed, MD., Guzman-Novoa. E., Hunt, GJ. (2004). Defensive behavior of honey bees: organization, genetics, and comparisons with other bees. Annual Review of Entomology, 49:271- 298.
5. Cauia, E., Siceanu, A., Patruica, S., Bur, M., Sapcaliu A., Magdici, M. (2010). The standardization of the honeybee colonies evaluation methodology with application in honeybee breeding programs. Animal Science and Biotechnologies, 43 (2): 174-180.
6. Collins, AM., Rinderer, TE, Tucker, KW., Sylvester, HA., Lockett, JL.(1980). A model of honeybee defensive behavior. Journal of Apicultural Research, 19:224-231.
7. Goncalves, L. and Gramacho, K. P. (2003). Factores que interfieren en el comportamiento higienico de las abejas. 10° Congreso Internacional de Actualizacion. Apicola, Tlaxcala, Mexico, 80-82.3rd INTERNATIONAL
8. Gregorc,A. and Lokar, V. (2010). Selection criteria in an apiary of Carniolan honey bee (Apis mellifera carnica) colonies for queen rearing. Journal of Central European Agriculture, 11: 401- 408.
9. Kiprijanovska, H., Andonov, S., Büchler, R., Drazic, M., Hatjina, F., Kezic, N., Panasiuk, B., Le Conte, Y., Uzunov, A., Wilde, J. (2012). Assesment of the behavioural traits in the international GEI experiment of COLOSS WG4, Workshop WG4 “Honey bee vitality and diversity –Behavioral traits Final results and paper preparing“. Ohrid, Macedonia. Proceedings, 6.
10. Mŏbus, B.(1983). Bee breeding in Germany. In Mŏbus, B.and van Praagh, J. (Eds). Pedigree bee breeding in Western Europe. British Isles Bee Breeders Association, Derby, UK, 6-12.
11. Moritz, RFA, Southwick, EE., Harbo. JB.(1987). Genetic analysis of defensive behavior of honey bee colonies (Apis mellifera L.) in a field test. Apidologie, 18:27-42.
12. Moritz, RFA. and Southwick, EE. (1992). Bees as super organisms: an evolutionary reality. Springer-Verlag, 65-77.
13. Poklukar, J. (1999). Izboljašanje odbire čebel na proizvodne lastnosti z uporabo selekcijskega indeksa. Zb. Biotehniške fak, Univ. v Ljubljani, Kmetijstvo, Zootehnika, 74.
14. Ruttner,F.and Ruttner,H. (1972). Controlled mating and selection of the honey bee. Apimondia Publishing House, Bucharest, Romania, 87-92.
15. Ruttner, F. (1988a). Biogeography and taxonomy of honey bees. Springer-Verlag, Berlin, Germany.
16. Ruttner, F. (1988b). Breeding techniques and selection for breedingof the honey bee. British Isles Bee Breeders Association, Derby, UK.
17. Spivak, M. and Gilliam, M. (1998a). Hygienic behaviour of honey beesand its application for control of brood diseases and varroa mites. Part I: Hygienic behaviour and resistance to American Foulbrood. Bee World 79: 124-134.
18. Uzunov, A., Kiprijanovska, H., Andonov S. (2009). Diversity of honey bees (Apis mellifera L.) on the territory of Republic of Macedonia. 5th COLOSS Conference 2009. Montpellier, France, Proceedings, 67.
19. Узунпв, А. (2013). Биплпшки и прпизвпдни карактеристики на автпхтпната медпнпсна пчела (Apis mellifera macedonica) на теритпријата на Република Македпнија. Дпктпрска дисертација, Факултет за земјпделски науки ихрана - Скппје, Република Македпнија.
20. Uzunov, A., Costa, C., Panasiuk, B., Meixner, M., Kryger, P., Hatjina, F., Bouga, M., Andonov, S., Bienkowska, M., Le Conte, Y., Wilde, J., Gerula, D., Kiprijanovska, H., Filipi, J., Petrov, P., Ruottinen, L., Pechhacker, H., Berg, S., Dyrba, W., Ivanova, E., Büchler, R.(2014). Swarming, defensive and hygienic behaviour in honey bee colonies of different genetic origin in a panEuropean experiment. Journal of Apicultural Research, 53,2, 248-260.