Africanized honey bees (Apis mellifera L.) are more efficient at removing worker brood artificially infested with the parasitic mite Varroa jacobsoni Oudemans than are Italian bees or Italian/Africanized hybrids

Guerra Jr., José Carlos Vieira; Gonçalves, Lionel Segui; Jong, David De

doi:10.1590/S1415-47572000000100016

Abstracts

Africanized honey bees are more tolerant of infestations with the mite Varroa jacobsoni than are honey bees of European origin. The capacity of these bees to detect and react to brood infested with this mite could be one of the factors determining this tolerance. We tested colonies of Africanized bees headed by queens from swarms collected in Ribeirão Preto, São Paulo State. The Italian colonies had queens imported directly from the USA, or from the Brazilian Island of Fernando de Noronha, where varroa-infested Italian colonies have been maintained, untreated, since 1984. Recently sealed worker brood cells were artificially infested by opening the cell capping, inserting live adult female mites and resealing the cells. Control cells were treated in the same way, but without introducing mites. The ability of the Africanized honey bees to recognize and remove this artificially infested brood was compared with that of first generation Italian/Africanized hybrid bees, and with the two groups of "pure" Italian bees, in three separate experiments. Africanized colonies removed a mean of 51% of the infested brood, while Italian/Africanized hybrid colonies removed 25%. Africanized colonies also removed a significantly greater proportion of infested brood than did Italian colonies, headed by queens from the USA (59 vs. 31%, respectively). Similarly, when Africanized colonies were compared with colonies of Italian bees from Fernando de Noronha, the former were found to be significantly more efficient at removing infested brood (61 vs. 35%, respectively), even though the population of Italian bees on this island has been exposed to and survived varroa infestations (without treatment) for more than 12 years. Only the Africanized honey bees removed a significant proportion of varroa-infested brood, when the data was corrected for brood removal from control cells.

Abelhas africanizadas são mais tolerantes à infestação com o ácaro Varroa jacobsoni do que abelhas de origem européia. A capacidade destas abelhas de detectar e reagir à cria infestada com este ácaro pode ser um dos fatores chaves que determina esta tolerância. Células de cria de operária foram infestadas artificialmente, abrindo o opérculo, inserindo ácaros fêmeas adultas vivas e selando as células. A habilidade das abelhas africanizadas de reconhecer e remover esta cria infestada artificialmente foi comparada com a de abelhas híbridas italianas/africanizadas e com dois grupos de abelhas italianas "puras", em três experimentos distintos. Rainhas italianas já fecundadas foram importadas dos EUA ou foram obtidas da ilha de Fernando de Noronha, Brasil, onde abelhas italianas são mantidas desde 1984. Colmeias africanizadas removeram em media 51% da cria infestada, enquanto colmeias híbridas italianas/africanizadas removeram 25%. Colmeias africanizadas também removeram uma proporção significativamente maior de cria infestada do que colmeias "puras" italianas com rainhas dos EUA (59 vs. 31%, respectivamente). Da mesma maneira, quando colmeias africanizadas foram comparadas com colmeias de abelhas italianas da ilha de Fernando de Noronha, as africanizadas foram significativamente mais eficientes na remoção de cria infestada (61 vs. 35%, respectivamente), apesar de que a população de abelhas italianas desta ilha foi exposta a varroa e elas sobreviveram sem tratamento durante mais de 12 anos. Somente as abelhas africanizadas removeram uma proporção significante da cria infestada com V. jacobsoni, quando os dados foram corrigidos pela taxa de remoção da cria das células controles.

AFRICANIZED HONEY BEES (APIS MELLIFERA L.) ARE MORE EFFICIENT AT REMOVING WORKER BROOD ARTIFICIALLY INFESTED WITH THE PARASITIC MITE VARROA JACOBSONI OUDEMANS THAN ARE ITALIAN BEES OR ITALIAN/AFRICANIZED HYBRIDS

José Carlos Vieira Guerra Jr.¹, Lionel Segui Gonçalves² and David De Jong¹

¹ Departamento de Genética, Faculdade de Medicina de Ribeirão Preto, USP, 14049-900 Ribeirão Preto, SP, Brasil. Send correspondence to J.C.V.G. Jr.

² Departamento de Biologia, Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, USP, 14049-901 Ribeirão Preto, SP, Brasil.

ABSTRACT

Africanized honey bees are more tolerant of infestations with the mite Varroa jacobsoni than are honey bees of European origin. The capacity of these bees to detect and react to brood infested with this mite could be one of the factors determining this tolerance. We tested colonies of Africanized bees headed by queens from swarms collected in Ribeirão Preto, São Paulo State. The Italian colonies had queens imported directly from the USA, or from the Brazilian Island of Fernando de Noronha, where varroa-infested Italian colonies have been maintained, untreated, since 1984. Recently sealed worker brood cells were artificially infested by opening the cell capping, inserting live adult female mites and resealing the cells. Control cells were treated in the same way, but without introducing mites. The ability of the Africanized honey bees to recognize and remove this artificially infested brood was compared with that of first generation Italian/Africanized hybrid bees, and with the two groups of "pure" Italian bees, in three separate experiments. Africanized colonies removed a mean of 51% of the infested brood, while Italian/Africanized hybrid colonies removed 25%. Africanized colonies also removed a significantly greater proportion of infested brood than did Italian colonies, headed by queens from the USA (59 vs. 31%, respectively). Similarly, when Africanized colonies were compared with colonies of Italian bees from Fernando de Noronha, the former were found to be significantly more efficient at removing infested brood (61 vs. 35%, respectively), even though the population of Italian bees on this island has been exposed to and survived varroa infestations (without treatment) for more than 12 years. Only the Africanized honey bees removed a significant proportion of varroa-infested brood, when the data was corrected for brood removal from control cells.

INTRODUCTION

In Brazil the mite parasite Varroa jacobsoni does not cause serious damage to apiculture (Shimanuki et al., 1991). The infestations are so low, usually less than 3% of adult worker bees infested, that no treatment is necessary. Initially, when the mite was first discovered in many regions of this country in the early 1980s, infestations were considerably higher. So it appears that Africanized honey bees have adapted to this mite (De Jong, 1997). The (Africanized) honey bees used commercially in Brazil are more resistant to varroa than are the European races or hybrids between these two types of bees (Moretto et al., 1991b; Guerra Jr. and Gonçalves, 1992). Climate is also an important factor. In tropical and subtropical regions of South America, the varroa infestation levels are lower than in cooler regions (De Jong et al., 1982, 1984; Moretto et al., 1991b).

Several apparent resistance factors have been found in honey bees. The reproductive rate of this mite is lower in Africanized bees in Brazil than in European bees (Ritter and De Jong, 1984; Camazine, 1986; Issa et al., 1993). Africanized bees also have a greater ability to remove the mites from their bodies (Moretto et al., 1991a, 1993).

Even though they cannot survive infestations by this mite in Europe and North America (De Jong, 1997), Italian bees can survive varroa infestations under tropical conditions in Brazil. A small population of Italian colonies was established in 1984 on Fernando de Noronha Island, near Recife, Brazil. The colonies there survive V. jacobsoni parasitism without the need for treatment, and infestation levels have steadily decreased (De Jong and Soares, 1997). Possibly these Italian bees have some of the tolerance mechanisms we find in Africanized bees.

The original host of V. jacobsoni, Apis cerana, can selectively remove varroa-infested worker brood, and thus greatly reduce the reproduction of this mite (Peng et al., 1987; Rath and Drescher, 1990; Rosenkranz et al., 1993). Similar brood nest cleaning behaviors have also been found, to a lesser degree, in Apis mellifera (Boecking and Drescher, 1991; Boecking et al., 1992; Ruttner and Hänel, 1992). The removal of infested brood could limit the growth of varroa populations in the colonies by mortality of immature mites, interruption of mite brood production and/or mortality of the original breeding females (Fries et al., 1994). It is not known how the bees determine that brood is infested, inside the wax-capped brood cells. Acoustical signals may be involved (Boecking, 1994). There is also evidence that hygienic bees are more responsive to olfactory signals associated with diseased brood (Masterman et al., 1998). The high degree of tolerance of Africanized bees in Brazil to varroa disease prompted us to determine if they have an enhanced capability to remove mite-infested brood, in comparison with European (Italian) honey bees, and with Italian/Africanized hybrids.

MATERIAL AND METHODS

Africanized bee colonies originated from natural swarms were maintained in the university apiary in Ribeirão Preto, SP, Brazil. Observations were made on Africanized and hybrid Italian/Africanized colonies (N = 9, each) from May to October 1991 and on Africanized and "pure" Italian colonies (N = 6, each) from January to May 1992. The bees were kept in standard Langstroth four-frame nucleus colonies, containing three frames with brood, honey and pollen, and an internal feeder supplied occasionally with sugar syrup. Italian queens, instrumentally inseminated with Africanized drones, headed the hybrid colonies. The original queen mothers were from commercial stocks imported from the USA. Imported queens headed the "pure" Italian colonies (also from the USA). A third series of tests was made in 1997 with three Africanized colonies, tested twice each, in comparison with three Italian colonies, headed by queens from Fernando de Noronha island, PE, Brazil (De Jong and Soares, 1997).

Sealed worker brood cells in the prepupal or last larval phase were selected. Live adult female mites were removed from infested brood cells, maintained on worker pupae in an incubator at 34^oC for 24-48 h, and then used in the experiment. A small opening in the edge of the cell capping was made with an insect pin and a live mite introduced with the aid of a fine-tipped brush. A piece of capping from a neighboring brood cell was then removed with a forceps and immediately pressed over the opening in order to reseal the perforated brood cell. The control cells (in the second and third experiments) were treated in the same way, but without introducing a mite. The cells were marked by placing a pin in the brood cell immediately to the right. Eight days after introduction the combs were examined to determine if the artificially infested brood was differentially removed. Data analysis was done using a median test (a = 0.05; Daniel, 1978).

RESULTS AND DISCUSSION

In the first experiment, in 1991, the Africanized colonies removed the infested brood at about double the rate of the Italian/Africanized hybrids (Table I). The Africanized bees were significantly more efficient than the hybrid Italian/Africanized bees at removing the infested brood.

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In the comparison between Africanized colonies and Italian bees from the USA, the former removed a significantly greater proportion of infested brood than the latter (Table II). Thakur et al. (1997) found that Carniolan bees in Germany removed 26-30% of varroa-infested worker brood, which is similar to our findings for Italian bees (Table II). The Africanized colonies in our experiment also removed a greater proportion of the control (opened, resealed, but not artificially infested) pupae, than did the Italian colonies, though this difference was not significant. When the rates at which bees removed pupae from infested cells were corrected for the rate of removal of the control pupae in each colony (Table II), the resultant figures were also significantly greater for the Africanized bee colonies compared to the Italian colonies. The Africanized bees removed significantly more infested than control pupae. However, in the Italian colonies, there was no significant difference between the rates with which bees removed infested vs. control pupae (P > 0.25).

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Africanized bees were also significantly more efficient at removing varroa-infested brood than the Italian bees from Fernando de Noronha (Table III). Even though these Italian bees have survived varroa infestations on the island for many generations (De Jong and Soares, 1997), they were significantly inferior in their capacity to react to varroa-infested brood, when compared to Africanized honey bees, kept under the same conditions. The Africanized colonies also removed a greater proportion of the control (opened, resealed, but not artificially infested) pupae, than did the Italian colonies, though this difference was not significant (Table III). When the rates at which bees removed pupae from infested cells were corrected for the rate of removal of the control pupae, the resultant figures were also significantly greater for the Africanized bee colonies (26%), compared to the Italian colonies (12%). The Africanized bees removed significantly more infested than control pupae. In the Italian colonies, there was no significant difference between the rates with which bees removed infested vs. control pupae (P > 0.20).

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The Africanized colonies were able to selectively remove brood infested with V. jacobsoni, and were significantly more efficient at this task than the Italian colonies and the Italian/Africanized hybrid colonies, kept under the same conditions. Moreover, only the Africanized honey bees removed a significant percentage of varroa-infested brood, when the data was corrected for brood removal from control cells (opened and resealed, without introducing mites). Increased efficiency in the removal of infested brood could be one of the mechanisms which has permitted Africanized honey bee colonies in Brazil to maintain low, stable infestation rates without interference by the beekeepers (De Jong, 1997; Corrêa-Marques and De Jong, 1998).

ACKNOWLEDGMENTS

The authors thank Dr. Ademilson E.E. Soares and Dr. Regina B.R. de Almeida for making the artificial inseminations, and Luis Aguiar for technical assistance. Beekeepers from the USA and Fernando de Noronha, PE, Brazil, donated the Italian queens. Research supported by CNPq and CAPES. Publication supported by FAPESP.

RESUMO

Abelhas africanizadas são mais tolerantes à infestação com o ácaro Varroa jacobsoni do que abelhas de origem européia. A capacidade destas abelhas de detectar e reagir à cria infestada com este ácaro pode ser um dos fatores chaves que determina esta tolerância. Células de cria de operária foram infestadas artificialmente, abrindo o opérculo, inserindo ácaros fêmeas adultas vivas e selando as células. A habilidade das abelhas africanizadas de reconhecer e remover esta cria infestada artificialmente foi comparada com a de abelhas híbridas italianas/africanizadas e com dois grupos de abelhas italianas "puras", em três experimentos distintos. Rainhas italianas já fecundadas foram importadas dos EUA ou foram obtidas da ilha de Fernando de Noronha, Brasil, onde abelhas italianas são mantidas desde 1984. Colmeias africanizadas removeram em media 51% da cria infestada, enquanto colmeias híbridas italianas/africanizadas removeram 25%. Colmeias africanizadas também removeram uma proporção significativamente maior de cria infestada do que colmeias "puras" italianas com rainhas dos EUA (59 vs. 31%, respectivamente). Da mesma maneira, quando colmeias africanizadas foram comparadas com colmeias de abelhas italianas da ilha de Fernando de Noronha, as africanizadas foram significativamente mais eficientes na remoção de cria infestada (61 vs. 35%, respectivamente), apesar de que a população de abelhas italianas desta ilha foi exposta a varroa e elas sobreviveram sem tratamento durante mais de 12 anos. Somente as abelhas africanizadas removeram uma proporção significante da cria infestada com V. jacobsoni, quando os dados foram corrigidos pela taxa de remoção da cria das células controles.

(Received August 21, 1999)

Boecking, O. (1994). The removal behavior of Apis mellifera L. towards mite-infested brood cells as a defense mechanism against the ectoparasitic mite Varroa jacobsoni Oud. Ph.D. thesis, Rheinische-Friedrich-Wilhelms-Universitat, Bonn.
Boecking, O. and Drescher, W. (1991). Response of Apis mellifera colonies infested with Varroa jacobsoni Oud. Apidologie 22: 237-241.
Boecking, O., Rath, W. and Drescher, W. (1992). Apis mellifera removes Varroa jacobsoni from sealed brood cells in the tropics. Am. Bee J. 132: 732-734.
Camazine, S. (1986). Differential reproduction of the mite Varroa jacobsoni (Mesostigmata: Varroidae) on Africanized and European honey bees (Hymenoptera: Apidae). Ann. Entomol. Soc. Am. 79: 801-803.
Corręa-Marques, M.H. and De Jong, D. (1998). Uncapping of worker bee brood, a component of the hygienic behavior of Africanized honey bees against the mite Varroa jacobsoni Oudemans. Apidologie 29: 283-289.
Daniel, W.W. (1978). Applied Nonparametric Statistics. Houghton Mifflin Company, Boston. pp. 503.
De Jong, D. (1997). Mites: Varroa and other parasites of brood. In: Honey Bee Pests, Predators, and Diseases (Morse, R.A. and Flottum, K., eds.). 3rd edn. Root Publishing, Medina, OH, pp. 279-327.
De Jong, D. and Soares, A.E.E. (1997). An isolated population of Italian bees that has survived Varroa jacobsoni infestation without treatment for over 12 years. Am. Bee J. 137: 742-745.
De Jong, D., Morse, R.A. and Eickwort, G.C. (1982). Mite pests of honey bees. Ann. Rev. Entomol. 27: 229-252.
De Jong, D., Gonçalves, L.S. and Morse,R.A. (1984). Dependence on climate of the virulence of Varroa jacobsoni Bee World65: 117-121.
Fries, I., Camazine, S. and Sneyd, J. (1994). Population dynamics of Varroa jacobsoni: a model and a review. Bee World 75: 5-28.
Guerra, Jr., J.C. and Gonçalves, L.S. (1992). Estudo da resistęncia de abelhas africanizadas, italianas híbridas F1 e híbridas F2 (retrocruzamentos) ŕ infestaçăo pelo ácaro Varroa jacobsoni Oud. Anais do Primeiro Encontro Brasileiro de Biologia de Abelhas e outros Insetos Sociais. Ribeirăo Preto, SP, Naturalia, Número Especial Editora UNESP, Săo Paulo, Brasil, p. 158.
Issa, M.R.C., De Jong, D. and Gonçalves, L.S. (1993). Reproductive strategies of the mite Varroa jacobsoni (Mesostigmata, Varroidae): Influence of larva type and comb cell size on honey bee brood infestation rates. Rev. Bras. Genet. 16: 219-224.
Masterman, R., Mesce, K.A., Smith, B.H. and Spivak, M. (1998). Odor discrimination by hygienic honey bees using proboscis-extension conditioning. Am. Bee J. 138: 297-298.
Moretto, G., Gonçalves, L.S. and De Jong, D. (1991a). Africanized bees are more efficient at removing Varroa jacobsoni - Preliminary data. Am. Bee J. 131: 434.
Moretto, G., Gonçalves, L.S., De Jong, D. and Bichuette, M.Z. (1991b). The effects of climate and bee race on Varroa jacobsoni Oud. infestations in Brazil. Apidologie 22: 197-203.
Moretto, G., Gonçalves, L.S. and De Jong, D. (1993). Heritability of Africanized and European honey bee defensive behavior against the mite Varroa jacobsoni: A criterion for resistance selection programs. Rev. Bras. Genet. 16: 71-77.
Peng, Y.-S.C., Fang, Y., Xu, S., Ge, L. and Nasr, M.E. (1987). Response of foster Asian honey bee (Apis cerana Fabr.) colonies to the brood of European honey bees (Apis mellifera L.) infested with the parasitic mite, Varroa jacobsoni Oudemans. J. Invertebr. Pathol. 49: 259-264.
Rath, W. and Drescher, W. (1990). Response of Apis cerana Fabr. towards brood infested with Varroa jacobsoni Oud. and infestation rate of colonies in Thailand. Apidologie 21: 311-321.
Ritter, W. and De Jong, D. (1984). Reproduction of Varroa jacobsoni O. in Europe, the Middle East and tropical South America. Z. Angew. Entomol 98: 55-57.
Rosenkranz, P., Tewarson, N.C., Singh, A. and Engels, W. (1993). Differential hygienic behaviour towards Varroa jacobsoni in capped worker brood of Apis cerana depends on alien scent adhering to the mites. J. Apic. Res. 32: 89-93.
Ruttner, F. and Hänel, H. (1992). Active defense against Varroa mites in a carniolan strain of honey bee (Apis mellifera carnica Polmann). Apidologie 23: 173-187.
Shimanuki, H., Knox, D. and De Jong, D. (1991). Bee diseases, parasites and pests. In: The African Honey Bee (Spivak, M., Fletcher, D.J.C. and Breed, M.D., eds.). Westview Press, Boulder, CO, pp. 283-296.
Thakur, R.K., Bienefeld, K. and Keller, R. (1997). Varroa defense behavior in Apis mellifera carnica Am. Bee J. 137: 143-148.

Publication Dates

Publication in this collection
25 Aug 2000
Date of issue
Mar 2000

History

Received
21 Aug 1999

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Boecking, O. (1994). The removal behavior of Apis mellifera L. towards mite-infested brood cells as a defense mechanism against the ectoparasitic mite Varroa jacobsoni Oud. Ph.D. thesis, Rheinische-Friedrich-Wilhelms-Universitat, Bonn.

[2] Boecking, O. and Drescher, W. (1991). Response of Apis mellifera colonies infested with Varroa jacobsoni Oud. Apidologie 22: 237-241.

[3] Boecking, O., Rath, W. and Drescher, W. (1992). Apis mellifera removes Varroa jacobsoni from sealed brood cells in the tropics. Am. Bee J. 132: 732-734.

[4] Camazine, S. (1986). Differential reproduction of the mite Varroa jacobsoni (Mesostigmata: Varroidae) on Africanized and European honey bees (Hymenoptera: Apidae). Ann. Entomol. Soc. Am. 79: 801-803.

[5] Corręa-Marques, M.H. and De Jong, D. (1998). Uncapping of worker bee brood, a component of the hygienic behavior of Africanized honey bees against the mite Varroa jacobsoni Oudemans. Apidologie 29: 283-289.

[6] Daniel, W.W. (1978). Applied Nonparametric Statistics. Houghton Mifflin Company, Boston. pp. 503.

[7] De Jong, D. (1997). Mites: Varroa and other parasites of brood. In: Honey Bee Pests, Predators, and Diseases (Morse, R.A. and Flottum, K., eds.). 3rd edn. Root Publishing, Medina, OH, pp. 279-327.

[8] De Jong, D. and Soares, A.E.E. (1997). An isolated population of Italian bees that has survived Varroa jacobsoni infestation without treatment for over 12 years. Am. Bee J. 137: 742-745.

[9] De Jong, D., Morse, R.A. and Eickwort, G.C. (1982). Mite pests of honey bees. Ann. Rev. Entomol. 27: 229-252.

[10] De Jong, D., Gonçalves, L.S. and Morse,R.A. (1984). Dependence on climate of the virulence of Varroa jacobsoni Bee World65: 117-121.

[11] Fries, I., Camazine, S. and Sneyd, J. (1994). Population dynamics of Varroa jacobsoni: a model and a review. Bee World 75: 5-28.

[12] Guerra, Jr., J.C. and Gonçalves, L.S. (1992). Estudo da resistęncia de abelhas africanizadas, italianas híbridas F1 e híbridas F2 (retrocruzamentos) ŕ infestaçăo pelo ácaro Varroa jacobsoni Oud. Anais do Primeiro Encontro Brasileiro de Biologia de Abelhas e outros Insetos Sociais. Ribeirăo Preto, SP, Naturalia, Número Especial Editora UNESP, Săo Paulo, Brasil, p. 158.

[13] Issa, M.R.C., De Jong, D. and Gonçalves, L.S. (1993). Reproductive strategies of the mite Varroa jacobsoni (Mesostigmata, Varroidae): Influence of larva type and comb cell size on honey bee brood infestation rates. Rev. Bras. Genet. 16: 219-224.

[14] Masterman, R., Mesce, K.A., Smith, B.H. and Spivak, M. (1998). Odor discrimination by hygienic honey bees using proboscis-extension conditioning. Am. Bee J. 138: 297-298.

[15] Moretto, G., Gonçalves, L.S. and De Jong, D. (1991a). Africanized bees are more efficient at removing Varroa jacobsoni - Preliminary data. Am. Bee J. 131: 434.

[16] Moretto, G., Gonçalves, L.S., De Jong, D. and Bichuette, M.Z. (1991b). The effects of climate and bee race on Varroa jacobsoni Oud. infestations in Brazil. Apidologie 22: 197-203.

[17] Moretto, G., Gonçalves, L.S. and De Jong, D. (1993). Heritability of Africanized and European honey bee defensive behavior against the mite Varroa jacobsoni: A criterion for resistance selection programs. Rev. Bras. Genet. 16: 71-77.

[18] Peng, Y.-S.C., Fang, Y., Xu, S., Ge, L. and Nasr, M.E. (1987). Response of foster Asian honey bee (Apis cerana Fabr.) colonies to the brood of European honey bees (Apis mellifera L.) infested with the parasitic mite, Varroa jacobsoni Oudemans. J. Invertebr. Pathol. 49: 259-264.

[19] Rath, W. and Drescher, W. (1990). Response of Apis cerana Fabr. towards brood infested with Varroa jacobsoni Oud. and infestation rate of colonies in Thailand. Apidologie 21: 311-321.

[20] Ritter, W. and De Jong, D. (1984). Reproduction of Varroa jacobsoni O. in Europe, the Middle East and tropical South America. Z. Angew. Entomol 98: 55-57.

[21] Rosenkranz, P., Tewarson, N.C., Singh, A. and Engels, W. (1993). Differential hygienic behaviour towards Varroa jacobsoni in capped worker brood of Apis cerana depends on alien scent adhering to the mites. J. Apic. Res. 32: 89-93.

[22] Ruttner, F. and Hänel, H. (1992). Active defense against Varroa mites in a carniolan strain of honey bee (Apis mellifera carnica Polmann). Apidologie 23: 173-187.

[23] Shimanuki, H., Knox, D. and De Jong, D. (1991). Bee diseases, parasites and pests. In: The African Honey Bee (Spivak, M., Fletcher, D.J.C. and Breed, M.D., eds.). Westview Press, Boulder, CO, pp. 283-296.

[24] Thakur, R.K., Bienefeld, K. and Keller, R. (1997). Varroa defense behavior in Apis mellifera carnica Am. Bee J. 137: 143-148.