Juvenile hormone titer and reproduction of Varroa jacobsoni in capped brood stages of Apis cerana indica in comparison to Apis mellifera ligustica P Rosenkranz, Nc Tewarson, A Rachinsky, A Strambi, C Strambi, W Engels To cite this version: P Rosenkranz, Nc Tewarson, A Rachinsky, A Strambi, C Strambi, et al.. Juvenile hormone titer and reproduction of Varroa jacobsoni in capped brood stages of Apis cerana indica in comparison to Apis mellifera ligustica. Apidologie, Springer Verlag, 1993, 24 (4), pp.375-382. hal-00891081 HAL Id: hal-00891081 https://hal.archives-ouvertes.fr/hal-00891081 Submitted on 1 Jan 1993 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. 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Original article Juvenile hormone titer and reproduction of Varroa jacobsoni in capped brood stages of Apis cerana indica in comparison to Apis mellifera ligustica P Rosenkranz NC Tewarson A Rachinsky A Strambi C Strambi W Engels 1 LS Entwicklungsphysiologie, Zoologisches Institut der Universität, Auf der Morgenstelle 28, D-72076 Tübingen, Germany; 2 Department of Zoology, Ewing Christian College, Allahabad-211003, India; 3 Laboratoire de Neurobiologie, CNHS, BP 71, F-13402 Marseille Cedex 9, France (Received 24 November 1992; accepted 19 February 1993) Summary &mdash; The juvenile hormone (JH) III hemolymph titer of late larval and early pupal stages as determined by radioimmunoassay (RIA) does not differ significantly in Apis cerana and Apis mellife- ra, particularly in freshly-sealed worker brood. In drone brood, slightly higher JH III hemolymph con- centrations were recorded. These results do not agree with the hypothesis that reproduction of the parasitic bee mite Varroa jacobsoni is regulated by host-derived JH. After checking over a thousand capped brood cells containing pupae, it was confirmed that in Apis cerana colonies fertility of female mites is restricted to drone hosts. Apis cerana indica / Apis mellifera ligustica / juvenile hormone titer / reproduction / Varroa ja- cobsoni INTRODUCTION Modern analytical techniques allow the de- termination of hemolymph titer (Rachinsky In honey bees, juvenile hormone (JH) has et al, 1990) and rate of synthesis (Rachin- been studied mostly under aspects of sky and Hartfelder, 1990) even in individu- caste development (Hartfelder, 1990; al bees. Since in arthropods (Downer and Rembold et al, 1992), control of fertility Laufer, 1983) and also in acarids, ticks (Engels et al, 1990), and recently also (Pound and Oliver, 1979; Connat et al, polyethism regulation (Robinson, 1992). 1983) as well as mites (Oliver et al, 1985) * Present address: Bayerische Landesanstalt für Bienenzucht, Burgbergstr 70, D-91054 Erlangen, Germany exogenous JH was generally found to af- The time of brood cell capping was recorded fect reproduction, it was hypothesized that with the help of transparent sheets. Subsequent- ly larvae were at first taken at 6-h intervals, and this hormone could also regulate oogene- later on less frequently. For each sample 40- sis in the parasitic bee mite Varroa jacob- 120 &mu;l hemolymph from non-parasitized speci- soni, and, in addition, that host-derived JH mens were collected from 3-9 individuals, could be responsible for initiation of repro- pooled, extracted with hexane, coded and duction (Hänel, 1983). Particularly, a high stored at -20°C. After being transported to Eu- JH III hemolymph titer in drone larvae of rope on dry ice, JH III titer determinations were carried out after diol derivatization by radioim- the was consid- early postcapping phase munoassay (Strambi et al, 1981; Rosenkranz et ered to stimulate Varroa vitellogenesis in al, 1990). In the Apis mellifera ligustica colony the original host species, Apis cerana, and only little drone brood was present and was in- likewise in worker larvae of the western sufficient for sampling all required stages, prob- honey bee, Apis mellifera (Hänel and Koe- ably due to high ambient temperatures. niger, 1986). Thus a low JH III titer in late In order to evaluate the actual reproduction of Varroa in the cerana indica 5th instar worker larvae would be a resist- jacobsoni Apis colonies, = 1 100 capped brood cells containing ant factor, mite to restricting reproduction pupae were opened and checked for female drone brood. mites and their offspring. Because of severe However, in the only known case of var- brood infestation with Tropilaelaps clarae, no roatosis tolerance in mellifera, the Af- comparative data could be sampled from the Apis Apis mellifera ligustica colony. ricanized honey bees of Brazil (Engels et al, 1986), fertility of female mites in worker brood is also reduced (Ritter and De Jong, RESULTS 1984) but was not found to be correlated with a low JH III hemolymph titer in worker larvae (Rosenkranz et al, 1990). These Juvenile hormone hemolymph titer data already contradicted the hypothesis in postcapping stages of worker brood of a possible regulation of Varroa repro- duction by the host’s JH. Because detailed At the time of brood cell sealing in worker JH III titer measurements were in lacking larvae, the JH III hemolymph titer was cerana larvae, we hemo- Apis analyzed found to be low, ranging < 10 pmol/ml (fig collected from Indian eastern lymph honey 1 a). However, soon after cell capping a bees with mellifera together Apis ligustica steady increase was measured. Peak val- at the same site. The fertili- samples study ues of 70-100 pmol/ml were reached of Varroa females on drone and worker ty &ap; 30-48 h post cell operculation. There hosts of cerana indica was also eval- Apis was not much variation in the different pool uated. data sampled during that period after capping. On average, in 5th instar larvae of Apis cerana indica slightly higher JH MATERIALS AND METHODS concentrations were determined than in Apis mellifera ligustica, but the differences Hemolymph samples were collected during the were statistically insignificant (P > 0.7; spring season, March 1991, from 4 colonies of Friedman test) even around the peak val- cerana indica in Newton hives Apis kept (Tewar- ues. The duration of the JH III maximum son et al, 1992) and 1 colony of Apis mellifera li- was &ap; 24 h, followed by a decrease in titer gustica originating from the US in a Langstroth hive. All experimental colonies had 5 brood reached &ap; 96 h after cell capping, and combs or more and were kept on the campus of again by another increase in the pupal Ewing Christian College, Allahabad, north India. stages (fig 1 a). Juvenile hormone hemolymph titer in postcapping stages of drone brood Within the first 48 h after brood cell opercu- lation in drone larvae of Apis cerana indica the JH III hemolymph titer varied around 50 pmol/ml (fig 1b) which is clearly more than in worker larvae (fig 1 a). An increase was observed with peak values up to 170 pmol/ml only = 84 h after cell capping. The subsequent decrease before the prepupal/ pupal moult and later reincrease resemble the titer pattern as determined for workers. The few available data for Apis mellifera li- gustica drones fall into the range described for Apis cerana indica males. Whether in drone L5 larvae of the western honey bee the JH peak is reached a little earlier has not yet been determined. Fertility of Varroa jacobsoni in Apis cerana indica brood Because the first Varroa egg is usually laid = 3 d after brood cell capping, an evalua- tion of the reproductivity of female mites at pupal stages of the host allows a distinct discrimination to be made between fertile and infertile parasite individuals. This was analyzed in several hundred Apis cerana indica worker and drone brood cells = 1 wk after sealing. The results (table I) demon- lymph titer in postcapping stages of drones strate a much lower level of brood infesta- has not been published previously, where- tion in worker than in drone cells. Further- as such data are already known for work- more, no fertile Varroa female was ers and queens (Rachinsky et al, 1990). In detected in the worker brood at all, where- both female castes of Apis mellifera carni- as most of the mites found in drone brood ca the JH III content has also been report- were reproducing. ed recently for the complete period of pre- adult development (Rembold et al, 1992) with similar worker values for all postcap- DISCUSSION ping stages. The regulation of metamorphosis and From the point of view of development, it the involvement in sex- and caste-specific is not surprising that the JH III hemolymph control of JH III production (Hartfelder et titer was found to be almost identical in al, 1993) probably existed long before the of the occurred preimaginal stages of Apis cerana indica splitting genus Apis and A mellifera ligustica. JH III titer data (Ruttner, 1988, 1992). The control of poly- in the duration of the for Apis cerana obtained by radioimmu- morphic patterns in bees noassay (RIA) are presented here for the postcapping period honey appar- first time. Similar results have recently ently allows some variation (Moritz, 1985), been reported for Apis mellifera carnica but this concerns the moment of cell oper- and Africanized bees (Rachinsky et al, culation in particular and not the hormone 1990; Rosenkranz et al, 1990). All these titer peaks correlated with the initiation of and the switch from larval data are in good agreement. metamorphosis to Little is known about JH III in drone de- prepupal-pupal developmental pro- velopment (Hartfelder et al, 1993).
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