Tropilaelapidosis on Apis mellifera

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Tropilaelapidosis on Apis mellifera Colin M.E. in Colin M.E. (ed.), Ball B.V. (ed.), Kilani M. (ed.). Bee disease diagnosis Zaragoza : CIHEAM Options Méditerranéennes : Série B. Etudes et Recherches; n. 25 1999 pages 143-146 Article available on line / Article disponible en ligne à l adresse : http://om.ciheam.org/article.php?idpdf=99600244 To cite this article / Pour citer cet article Colin M.E. Tropilaelapidosis on Apis mellifera. In : Colin M.E. (ed.), Ball B.V. (ed.), Kilani M. (ed.). Bee disease diagnosis. Zaragoza : CIHEAM, 1999. p. 143-146 (Options Méditerranéennes : Série B. Etudes et Recherches; n. 25) http://www.ciheam.org/ http://om.ciheam.org/

Tropilaelapidosis on Apis mellifera M.E. Colin INRA - Zoologie et Apidologie, Site Agroparc, 84914 Avignon Cedex 9, France Definition Tropilaelapidosis is due to a haemophagous ectoparasitic mite Tropilaelaps clareae. After a short phoretic period on the adult bee, it enters the brood cell just before capping, where it reproduces. It causes a rapid decline of colonies of Apis mellifera. General epidemiology The mite was first described on A. mellifera in the Philippines by Delfinado and Baker (1961). Later, it was described on the other species of the genus Apis (Table 1). Table 1. Distribution of Tropilaelaps clareae on its known Apis hosts (after Aggarwal, 1988) Host dorsata A. A. mellifera A. cerana A. florea Infested India countries India India India Philippines Philippines Burma Nepal Burma Malaya Burma Malaya Java Pakistan Vietnam Thailand China Taiwan Pakistan Afghanistan Papua N.G.?Ad = adult bees; drb = drone brood; WB = worker brood. In India,themite was responsiblefortheloss of 50% of thebroodin A.mellifera colonies, introduced six years earlier (Atwal and Goyal, 1971). The same situation was observed in the Philippines (Laigo and Morse, 1968). In other countries, where A. mellifera is native, T. clareae is considered a serious pest, making control treatments necessary. Etiology Classification, anatomy, biology, The genus Tropilaelaps belongs to the Laelapidae family. It includes two species: T. clareae and T. koenigerum. The latter has only been described on Apis dorsata in Sri Lanka. 143

Description For the external anatomy, see Fig. 1 of the Chapter on "Generalities on the mites present on honeybees". Tropilaelaps clareae is primarily a parasite of the bee brood; it is probably only phoretic on adult bees. Only the immature stages and adult females are haemophagous. The parasite reproduces on bothdroneandworkerbrood,althoughthedronebroodispreferentially infested (ratio 3:l). The parasitism level can reach a maximum of 90% in the drone brood and in the worker brood (Burgett et al., 1983). Typically 1 to 4 mated femalesenterabroodcell when it isapproximatelytwothirdssealed (Burgett et al., 1983; Ritter and Schneider-Ritter, 1986). The latter authors distinguish five stages in the growth of the body size of female mites, correlated with the feeding behaviour, before egg-laying commences. The first egg is laid 50 hours after the cell has been capped and the majority of the eggs are laid before 110 hours. A female can produce up to six eggs (Feng, 1990). According to Kitprasert (1984), the mean duration of the mite progeny stages are: 1.O5 days for the egg, 1.85 days for the larva, 2.11 days for the protonymph and 3.75 days for the deutonymph. Using these developmental times the first young adult mite appears about 18 days after the honeybee egg is laid, which is not in exact agreement with the maturation time of 16 days given by Woyke (1987). Malesandfemalesareproducedinaboutthesameproportion. When the bee emerges, by removing the cell capping, the adult female mites are released and start to move freely on the comb surface. The remaining few nymphal stages and the males in the cells do not survive after the bee has emerged. The adult female mites do not stay on the adult bees for longer than 1.4 days (Kitprasert, 1984). Comparing the data of this author to that of Woyke (1987) we can assume that more than 50% of the females are able to produce two viable offspring. It was reported that in Thailand approximately 27% of the females entering brood cells did not reproduce and 2% of them give birth only to males (Ritter and Schneider-Ritter, 1986). In Afghanistan, Woyke (1987) found that only 18% of female mites were non-reproducing. Approximately 64% of the females produce one descendant and 33% produce two descendants (Ritter and Schneider-Ritter, 1986). In colonies where Varroa jacobsoni is also present the ratio V, jacobsoni to T. clareae is 1:25, probably because only T. clareae produces viable progeny when it is in competition with V. jacobsoni (Burgett et al., 1983). Spread and transmission The adult female mite is the only stage responsible for the establishment and spread of infestation. A proportion of the adult female population remains the colony where the mites can move with great agility, freely on the combs. Others are phoretic on the adult bee, often taking up a position between the thorax and the abdomen. According to De Jong et al. (1 982), they feed on the haemolymph of the adult bee, which is contrary to the assertion of Ritter and Schneider-Ritter (1986). The survival of the mite on worker bees maintained in an incubator at 35 C and 60% RH is a maximum of three days (Rinderer et al., 1994; Kitprasert, 1984). Without food, mite survival is two days (Aggarwal, 1988; Koeniger and Muzaffar, 1988). The survival time does not seem to be closely correlated with the presence of adult bees, which is an argument in favour of mere phoresy. The main means of spread of the mites between colonies are robbing, drifting and absconding. Pathogenesis No information is available at the present time. 144

Clinical diagnosis According to Rinderer et al. (1994), if the population of T. clareae is allowed to develop unchecked the mite can rapidly cause the death of the colony. When the colony collapses, severely infested bee larvae and pupae are often seen at the hive entrance. Newly emerged adult bees often have vestigial or deformed wings or legs. The abdomencanalso be malformed. The brood combs display an irregular pattern with dead or malformed immature bees. Pupae in infested cells often have darkly coloured spots, mainly on their extremities. At this stage, infestation in brood cells could be recognized by the adult bees (Ritter and Schneider-Ritter, 1986). Queenless colonies have more severe infestations than queenright colonies (De Jong et al., 1982). Differential diagnosis consists of distinguishing T. clareae from T. koenigerum although the latter has not been found on A. mellifera. Treatment, prophylaxis A biological method, consisting of caging the queen for 9 days and removing the sealed brood at the same time, is sufficient to eliminate the mite (Tangkanasing et al., 1988). Garg ef al. (1984) used 85% formic acid as acaricide. By means of a wick of gauze of a defined length inserted through a cork, 5 ml of formic acid is left to evaporate inside the colon for 14 days. The use of an absorbent J plate impregnated with formic acid (Illertissen Milben Platten ), is also effective and more successful than in the treatment of varroosis. Cymiazol (Apitol@) is also very effective (Ritter and Schneider-Ritter, 1986). Concerning prophylaxis, we have to keep in mind that others tropical mites (Euvarroa wongsirii, Varroa underwood/) are good candidates to adapt to A. mellifera (Akratanakul and Burgett, 1976; Aggarwal and Kapil, 1988; Delfinado-Baker and Aggarwal, 1987; Morin and Otis, 1993). References Aggarwal,K. (1988). Incidence of Tropilaelapsclareae on three Apis species in Hisar (India).In Africanized Honey Bees and Bee Mites, Needham, Page, R.E., Delfinado-Baker, M. and Bowman, (eds). Ellis Horwood Ltd, Chichester, pp. 397-403. Aggarwal, K. and Kapil, R.P. (1988). Observations on effect of queen cell construction on Euvarroa sinhai infestation in drone brood of Apis florea. In Africanized Honey Bees and Bee Mites, Needham, G.R., Page,R.E., Delfinado-Baker, M.andBowmanC.E. (eds). Ellis Horwood Ltd, Chichester, pp. 404-408. Akratanakul, P. and Burgett, M. (1976). Euvarroa sinhai Delfinado and Baker (Acarina: Mesostigmata): A parasitic mite of Apis florea. J. Apic. 15: 11-13. Atwal, A.S. and Goyal, N.P. (1971). Infestation of honeybee colonies with Tropilaelaps, and its control. J. Apic. 1 O: 137-1 42. Burgett, M., Akratanakul, P. and Morse, R.A. (1983). Tropilaelaps clareae: A parasite of honeybees in south east Asia. Bee World, 64: 25-28. De Jong, D., Morse, R.A. and Eickwort, G.C. (1982). Mite pests of honeybees. Ann. Rev. Entomo/., 27: 229-252. Delfinado, M.D. and Baker, E.W. (1961). Tropilaelaps, a new genus of mite from Philippines (Laelaptidae: Acarina). Fieldiana Zoo/., 44: 53-56. Delfinado-Baker, M. and Aggarwal, K. (1987). A new Varroa (Acari: Varroidae) from the nest cerana (Apidae). lnfernaf. J. Acarol., 13: 233-237. of Apis l,

Feng, F. (1990). Apiculture and diseases of honeybees in China. In Proceedings of the lnternational Symposium on Recent Research on Bee Pathology, Gent, Belgium, September 5-7 1990, Ritter, W. (ed.). Apimondia, Beerse, Belgium, pp. 220-222. Garg, R., harma, O.P. and Dogra, G.S. (1984). Formic acid: An effective acaricide against Tropilaelaps clareae Delfinado and Baker (Laelaptidae: Acarina) and its effect on brood and longevity of honey bees. Am. Bee J., 124: 736-738. Kiprasert, C. (1984). Biology and systematics of the parasitic bee mite, Tropilaelaps clareae Delfinado and Baker (Acarina: Laelapidae). Apicultura/ Abstracts, 36: 320. Koeniger, N. and Muzaffar, (1988). Lifespan of the parasitic honeybee mite, Tropilaelaps clareae, on Apis cerana, dorsata and mellifera. J. Apic. 27: 207-212 Laigo, F.M. and Morse, R.A. (1968). The mite Tropilaelaps clareae in Apis dorsata colonies in the Philippines. Bee World, 49(3): 1 16-18. Morin, C.E. and Otis, G.W. (1993). Observations on the morphology and biology of Euvarroa wongsirii (Mesostigmata: Varroidae), a parasite of Apis andreniformis (Hymenoptera: Apidae). Internat. J. Acarol., 19: 167-172. Rinderer,T.E.,Oldroyd,B.P.,Lekprayoon, C., Wongsiri, S., Boonthai, C. and Thapa, (1994). Extended survival of the parasitic honeybee mite Tropilaelaps clareae on adult workers of Apis mellifera and Apis dorsata. J. Apic. 33: 171-174. Ritter, W. and Schneider-Ritter, U. (1 986). Varroa jacobsoni und in Bienenvölkern von Apis mellifera in Thailand. Apidologie, 17: 384-386. Tangkanasing, P., Wongsiri, S. and Vongsamanode, S. (1988). Integrated control of Varrsa jacobsoni and Tropilaelaps clareae in bee hives in Thailand. In Africanized Honey Bees and Bee Mites, Needham, G.R., Page,R.E., Delfinado-Baker, M. andbowman,c.e. (eds). Ellis Horwood Ltd, Chichester, pp 409-412. Woyke, J. (1987). Comparative population dynamics mites on honeybees. J. Apic. 26: 196-202. of Tropilaelaps clareae and Varroa jacobsoni 146

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