| Autor: | Le Quang Trung, Nguyen Kim Lan, J. Beetsma, Johan N. M. Calis, Willem J. Boot, Dong Minh Hai, Nguyen Hung Minh, Tran Van Toan |
|---|---|
| Rok vydání: | 1999 |
| Předmět: |
education.field_of_study
integumentary system Ecology biology Apidae fungi Population Zoology General Medicine Honey bee biology.organism_classification Brood respiratory tract diseases Animal ecology Insect Science parasitic diseases Botany behavior and behavior mechanisms Mite education Apis cerana Varroa jacobsoni |
| Zdroj: | Experimental & Applied Acarology. 23:133-144 |
| ISSN: | 0168-8162 |
| DOI: | 10.1023/a:1006050527004 |
| Popis: | In colonies of European Apis mellifera, Varroa jacobsoni reproduces both in drone and in worker cells. In colonies of its original Asian host, Apis cerana, the mites invade both drone and worker brood cells, but reproduce only in drone cells. Absence of reproduction in worker cells is probably crucial for the tolerance of A. cerana towards V. jacobsoni because it implies that the mite population can only grow during periods in which drones are reared. To test if non-reproduction of V. jacobsoni in worker brood cells of A. cerana is due to a trait of the mites or of the honey-bee species, mites from bees in A. mellifera colonies were artificially introduced into A. cerana worker brood cells and vice versa. Approximately 80% of the mites from A. mellifera colonies reproduced in naturally infested worker cells as well as when introduced into worker cells of A. mellifera and A. cerana. Conversely, only 10% of the mites from A. cerana colonies reproduced, both in naturally infested worker cells of A. cerana and when introduced into worker cells of A. mellifera. Hence, absence of reproduction in worker cells is due to a trait of the mites. Additional experiments showed that A. cerana bees removed 84% of the worker brood that was artificially infested with mites from A. mellifera colonies. Brood removal started 2 days after artificial infestation, which suggests that the bees responded to behaviour of the mites. Since removal behaviour of the bees will have a large impact on fitness of the mites, it probably plays an important role in selection for differential reproductive strategies. Our findings have large implications for selection programmes to breed less-susceptible bee strains. If differences in non-reproduction are mite specific, we should not only look for non-reproduction as such, but for colonies in which non-reproduction in worker cells is selected. Hence, in selection programmes fitness of mites that reproduce in both drone and worker cells should be compared to fitness of mites that reproduce only in drone cells. © Rapid Science Ltd. 1998 |
| Databáze: | OpenAIRE |
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