Drone “quality” and caste interactions in the honey bee, Apis mellifera L.

We investigated the influence of drone size and potential reproductive quality on caste interactions by adding large drones reared in drone cells (DC drones; considered to be of higher quality) and small drones reared in worker cells (WC drones; of lower quality) to two observation colonies and monitoring worker–drone interactions and acceptance by workers. When initially introduced into the colonies more DC drones received trophallaxis, whereas more WC drones received aggression and eviction attempts from workers. Nevertheless, WC and DC drones were equally likely to be accepted by workers. For both drone types accepted individuals had slightly, but significantly greater weights than rejected males. Thus, workers discriminated between drones of different sizes and potential quality upon initial encounter, although these discriminations were not strongly associated with acceptance decisions. After drones were accepted, workers either showed no preference for interacting with WC or DC drones, or if a preference was shown it tended to favor WC drones. Compared to accepted DC drones, significantly more WC drones received grooming for longer periods of time and also spent more time engaged in all interactions with workers combined. DC and WC drones did not differ in the likelihood of receiving trophallaxis or the vibration signal, although for both interactions slightly more WC drones were recipients. Thus, workers may bias some interactions with accepted drones to favor smaller individuals with potential developmental deficiencies, in a manner that could contribute to the production of a greater total number of competitive males and increased colony reproductive output.     

意蜂（Apis mellifera）蜂王婚飞交尾机制的初探

通过氯气球悬挂意蜂（Apis mellifera）雌蜂及提取物等方法模拟蜂王婚飞交尾试验,比较不同生理状态的雌蜂及其提取物对雄蜂的性引诱力,结果表明：1．在工峰、处女王与产卵王及其提取物中,以产卵王及其提取物对雄峰性诱最大．平均分别为16只和14．3只雄蜂;2．不同数量的处女王提取物对雄蜂引诱力存在差异．以3只处女王提取物对雄蜂引诱力最大,平均引诱31.3只雄蜂;3．1000烛光以上的光照比400烛光以下的光照更有利于雄蜂的水分,且雄蜂集聚的个性体敏越多,相互激活力越强。     

意大利蜜蜂刚出房与性成熟雄蜂的蛋白质组差异分析

【目的】对意大利蜜蜂Apis mellifera ligustica刚出房雄蜂与性成熟雄蜂的蛋白质组进行比较,探讨雄蜂在性成熟过程中蛋白质表达变化,为进一步研究雄蜂发育生物学获得差异表达蛋白质方面的依据。【方法】采用双向电泳法建立意大利蜜蜂雄蜂发育过程中刚出房时与性成熟期的蛋白质表达谱,通过质谱分析与数据库检索,鉴定部分差异蛋白。【结果】在意大利蜜蜂刚出房雄蜂和性成熟雄蜂中分别检测到2 490和2 317个蛋白点,其中差异表达蛋白点有157个。在刚出房雄蜂中高度表达的蛋白点有102个;在性成熟雄蜂中高度表达的蛋白点有55个。对部分差异蛋白进行质谱分析,共鉴定了18个蛋白点,其中在刚出房雄蜂中上调表达的蛋白有肌钙蛋白、SEC13蛋白、DJ蛋白等,在性成熟雄蜂中上调表达的蛋白有副肌球蛋白、精氨酸激酶、肌动蛋白解聚因子等。【结论】意大利蜜蜂雄蜂在性成熟发育过程中,其体内大量蛋白表达发生了变化,其差异表达的蛋白质可能与骨骼、飞行肌以及精子发育等机能有关。     

利用VNTR分子标记鉴定蜜蜂群内蜂王交配次数和雄蜂母系来源

如何准确测定蜂王交配次数和雄蜂母系来源,是研究蜜蜂亚家系行为生物学的关键。本研究利用王浆主蛋白（MRJPs）的串联重复序列多态性（VNTR）分子标记分别鉴定了蜂王单雄人工授精、双雄人工授精和自然交尾的中华蜜蜂Apis cerana cerana蜂群中的蜂王交配次数和雄蜂母系来源。结果表明： 在蜂王单雄人工授精和双雄人工授精蜂群中,蜂王的交配次数分别为1和2;在蜂王自然交尾的2个蜂群中,蜂王的交配次数分别为8和5。另外,经鉴定发现：在以上实验蜂群中,所有雄蜂都是由蜂王产的未受精卵发育而来。因此,作为一种分子标记,蜜蜂MRJPs VNTR能简单、有效地鉴定蜂群内蜂王的交配次数和雄蜂母系来源。     

Influence of age and juvenile hormone on brain dopamine level in male honeybee (Apis mellifera): association with reproductive maturation

Dopamine (DA) is a major functional biogenic amine in insects and has been suggested to regulate reproduction in female honeybees. However, its function has not been investigated in male drones. To clarify developmental changes of DA in drones, brain DA levels were investigated at various ages and showed a similar pattern to the previously reported juvenile hormone (JH) hemolymph titer. The DA level was lowest at emergence and peaked at day 7 or 8, followed by decline. Application of JH analog increased brain DA levels in young drones (2-4-days-old), suggesting regulation of DA by JH in drones. In young drones, maturation of male reproductive organs closely matched the increase in brain DA. The dry weight of testes decreased and that of seminal vesicles increased from emergence to day 8. The dry weight of mucus glands increased up to day 4. Consequently, DA regulated by JH might have reproductive behavior and/or physiological functions in drones.     

Age and Behavior of Honey Bee Workers,Apis mellifera,that Interact with Drones

Colony reproduction in honey bees involves complex interactions between sterile workers and reproductive castes. Although worker–queen interactions have been studied in detail, worker–drone interactions are less well understood. We investigated caste interactions in honey bees by determining the age and behavior of workers that perform vibration signals, trophallaxis, and grooming with drones. Workers of all ages could engage in the different interactions monitored, although workers that performed vibration signals on drones were significantly older than those engaging in trophallaxis and grooming. Only 3–8% of workers engaged in the different behaviors were monitored. Compared with workers that performed vibration signals only on workers (‘worker vibrators’), those that performed signals on both workers and drones (‘drone vibrators’) had greater movement rates inside the nest, higher vibration signaling rates, and were more likely to have an immediate association with foraging. Both worker vibrators and drone vibrators contacted drones of all ages as they moved through the nest. However, drone vibrators contacted drones at higher rates, contacted slightly, but significantly younger drones, and were more likely to engage in trophallaxis and grooming with drones, in addition to vibrating them. Taken together, our results suggest that tiny proportions of workers belonging to separate, but overlapping age groups provide most of the care received by adult drones, and that drone vibrators comprise a subset of signalers within a colony that have an increased tendency to contact and interact with drones. Vibratory, tactile signals are involved in colony reproductive and movement decisions in a number of species of bees, wasps and ants, and may provide valuable tools for investigating caste interactions in many insect societies.     

Some reproductive characteristics of honeybee drones in relation to their ages

The number of spermatozoa, length of testis, length of mucus gland and weights of drones were estimated in caged and free honeybee drones in relation to their ages. For this purpose, three Carniolan colonies were used as sources of drones and two were used as nursery colonies. The drones were held either in cages or freely in the queenless part of the nursery colonies. Measurements were carried out on samples of drones taken at 3-day intervals from 1–3, 4–6, 7–9, 10–12 and 13–15 days old. While the number of spermatozoa in drone testes decreased in both caged and free drones as the drone age increased, it increased gradually in the seminal vesicles. The results also showed that weight of drones and length of testes decreased, but the length of the mucus gland did not significantly differ with age. Further, the drones' weight, length of mucus gland and total number of spermatozoa tend to be slightly larger in the caged than in free drones. The total number of spermatozoa in all parts of the reproductive organs was lower in the older than younger drones; thus, the number of spermatozoa in the newly emerged drones does not help to predict the real number reaching the queen during mating.     

Approaching birds with drones: first experiments and ethical guidelines

Unmanned aerial vehicles, commonly called drones, are being increasingly used in ecological research, in particular to approach sensitive wildlife in inaccessible areas. Impact studies leading to recommendations for best practices are urgently needed. We tested the impact of drone colour, speed and flight angle on the behavioural responses of mallards Anas platyrhynchos in a semi-captive situation, and of wild flamingos (Phoenicopterus roseus) and common greenshanks (Tringa nebularia) in a wetland area. We performed 204 approach flights with a quadricopter drone, and during 80% of those we could approach unaffected birds to within 4 m. Approach speed, drone colour and repeated flights had no measurable impact on bird behaviour, yet they reacted more to drones approaching vertically. We recommend launching drones farther than 100 m from the birds and adjusting approach distance according to species. Our study is a first step towards a sound use of drones for wildlife research. Further studies should assess the impacts of different drones on other taxa, and monitor physiological indicators of stress in animals exposed to drones according to group sizes and reproductive status.     

Mimicking a Honeybee Queen?Vespa affinis indosinensis Pérez 1910 Hunts Drones of Apis cerana F. 1793

Hornets (Vespa affinis) flying in a drone congregation area attracted drones of Apis cerana. The drones followed the hornet and were ‘manoeuvred’ towards a leaf or a tree. The hornet then rushed at one of the drones. Many attempts by the hornet to catch a drone were unsuccessful and all drones fled. After failing, the hornet returned to centre of the drone congregation area and repeated the behaviour. Only after successfully seizing of a drone did the hornet leave the drone congregation area carrying its prey. In a two-choice test in the centre of the drone congregation area, free-flying A. cerana drones preferred a hornet model to a live A. cerana queen. V. affinis apparently ‘exploits’ the intraspecific communication between queen and drones of A. cerana. Hunting of drones in the drone congregation area by V. affinis may be an example of predatory mimicry.     

Effects of various breeding strategies on diploid drone frequency and quantitative traits in a honey bee population

When selecting in a finite population of honeybees there is a conflict between gain in a quantitative trait and increasing homozygosity, and therefore the frequency of inviable diploid drones. The consequences when using different mating, import, and selection strategies on diploid drone frequency and genetic gain, was explored with Monte Carlo computer simulations.Within a closed population breeding structure, mass selection gave the highest genetic gain in the quantitative trait, but also the largest increase in percentage diploid drones and queens with unacceptably-low brood viability. Mass selection combined with truncation selection against queens having more than 15% diploid drones gave a comparable genetic gain and was the best strategy of the ones studied to avoid diploid drones. Within-family selection (one replacement per sib group) gave the least genetic gain, and a frequency of diploid drones comparable to random (no) selection. It was intermediate between mass selection and mass selection combined with viability selection concerning the frequency of diploid drones.Insemination with pooled and homogenized semen originating from all breeder queens (30), as compared to natural mating with 12 randomly-selected drones, had little effect on the genetic gain and on the overall frequency of diploid drones (10 to 15% by generation 20).The effect of opening the closed breeding population for the import of external queens every generation, by exchanging breeder queens of lowest performance with a corresponding number of new queens (5, 10and 15 out of 30), was also investigated. Under mass selection (natural mating as well as artificial insemination) the frequency of diploid drones and the proportion of queens discarded were reduced because of low brood viability. However, artificial insemination was superior to natural mating considering the latter criterion. If the imported queens were at the same genetic level for the quantitative trait under selection as the whole breeding population at that generation, or 10% better, the genetic gain was respectively slightly reduced and approximately maintained. If the imported queens were of inferior quality (equal to the initial population) the import of queens slowed genetic progress considerably.     

蜂王上颚腺信息素对雄蜂候选性信息素受体基因表达的影响

【目的】性信息素受体(sex pheromone receptors, PRs)是雄蜂感受蜂王上颚腺信息素(queen mandibular pheromone, QMP)的重要受体。本研究分析中华蜜蜂Apis cerana cerana(简称"中蜂")和意大利蜜蜂Apis mellifera ligustica(简称"意蜂")雄蜂触角和大脑中候选性信息素受体基因Prs受QMP刺激下的表达特征,为探索蜜蜂气味受体(OR)基因的功能研究提供理论依据。【方法】利用qRT-PCR技术检测分析分别用10μL QMP[7.04μg/μL反式-9-氧代-2-癸烯酸(9-ODA)+1.26μg/μL 9-羟基-2-癸烯酸(9-HDA)+0.03μg/μL对羟基苯甲酸甲酯(HOB)]和10μL 7.04μg/μL 9-ODA处理对飞行状态和爬行状态下的中蜂雄蜂和意蜂雄蜂触角和大脑中4个气味受体基因(Or10,Or11,Or18和Or170)的mRNA表达量的影响。【结果】与空白对照组相比,QMP及9-ODA均能显著下调中蜂雄蜂和意蜂雄蜂触角与大脑中Or11的mRNA表达量;中蜂雄蜂触角中AcOr18和AcOr170基因受QMP及9-ODA刺激后mRNA表达量显著下调;QMP与9-ODA均能显著降低中蜂雄蜂和意蜂雄蜂大脑中Or170的mRNA表达量。在QMP或9-ODA刺激下,飞行中蜂雄蜂大脑中AcOr11的mRNA表达量显著高于爬行中蜂雄蜂大脑中的,而飞行与爬行中蜂雄蜂触角中AcOr11的mRNA表达量没有显著差异。【结论】中蜂和意蜂雄蜂触角与大脑中气味受体基因Or11均能应答蜂王上颚腺信息素9-ODA,且受9-ODA刺激后Or11的mRNA表达下调。     

Genetic Analysis of the Drifting of Drones in Apis mellifera Using Multilocus DNA Fingerprinting

The presence of non-native drones in colonies of Apis mellifera was studied using multilocus DNA fingerprinting. Drones revealing a fingerprinting DNA banding pattern that did not correspond to the queen's genotype were classified as non-native animals. As previously reported for the drifting of workers, the position of the hive in relation to neighbouring colonies and the orientation of the flight entrance towards the sun showed significant correlations to the number of drifted drones in a colony. The frequency of non-native drones was low in central colonies (13 %) but high in marginal colonies (24 %). Furthermore, there was a significant correlation (r = 0.56) between the band-sharing coefficient of the non-native drones and the queen, and the number of drifted drones in the colony, which might indicate that genetically based nestmate recognition is involved in the drifting and/or acceptance of foreign drones in the colony.     

Male fitness of honeybee colonies (Apis mellifera L.)

Honeybees (Apis mellifera L.) have an extreme polyandrous mating system. Worker offspring of 19 naturally mated queens was genotyped with DNA microsatellites, to estimate male reproductive success of 16 drone producing colonies. This allowed for estimating the male mating success on both the colony level and the level of individual drones. The experiment was conducted in a closed population on an isolated island to exclude interferences of drones from unknown colonies. Although all colonies had produced similar numbers of drones, differences among the colonies in male mating success exceeded one order of magnitude. These differences were enhanced by the siring success of individual drones within the offspring of mated queens. The siring success of individual drones was correlated with the mating frequency at the colony level. Thus more successful colonies not only produced drones with a higher chance of mating, but also with a significantly higher proportion of offspring sired than drones from less successful colonies. Although the life cycle of honeybee colonies is very female centred, the male reproductive success appears to be a major driver of natural selection in honeybees.     

Glycogen in honeybee queens,workers and drones (Apis mellifera carnica Pollm.)

Honey bees (Apis mellifera carnica Pollm.) have low glycogen reserves in summer. Upon emergence drones have significantly larger amounts per unit weight when emerging, than workers; perhaps as adaption to the risk of not being fed as intensely as young workers. Maximum content was 0.23mg for workers (28d), and 0.59mg for drones (after emergence). Workers have relatively constant glycogen contents during their life, and very young drones have more glycogen than older ones. Young queens are similar to workers. In workers and queens in summer the greatest amounts of glycogen are found in the thorax. When the bees start flying (6th-8th day of life), drones have the highest amounts in the head (probably to supply their eyes), and upon maturity, drones have the least glycogen in the abdomen.Workers in winter show different glycogen values depending on whether they are active bees from the core area (0.23mg) or inactive ones from the outer surface of the winter cluster (0.37mg). They use glycogen from the thorax and the abdomen for their ongoing energy need.     

Differences in nestmate recognition for drones and workers in the honeybee, Apis mellifera (L.)

Nestmate recognition is the basic mechanism for rejecting foreign individuals and is essential for maintaining colony integrity in insect societies. However, in honeybees, Apis mellifera, both workers and males occasionally gain access to foreign colonies in spite of nest guards (=drifting). Instead of conducting direct behavioural observations, we inferred nestmate recognition for males and workers from the genotypes of naturally drifting individuals in honeybee colonies. We evaluated the degree of polyandry of the resident queens, because nestmate recognition theory predicts that the genotypic composition of insect colonies may affect the recognition precision of guards. Workers (N=1346) and drones (N=407) from 38 colonies were genotyped using four DNA microsatellite loci. Foreign bees were identified by maternity testing. The proportion of foreign individuals in a host colony was defined as immigration. Putative mother queens were identified if a queen's genotype corresponded with the genotype of a drifted individual. The proportion of a colony's individuals in the total number of drifted individuals was defined as emigration. Drones immigrated significantly more frequently than workers. The impact of polyandry was significantly different between drones and workers. Whereas drones immigrated more readily into less polyandrous colonies, worker immigration was not correlated with the degree of polyandry of the host colony. Furthermore, colonies with high levels of emigrated drones did not show high levels of emigration for workers, and colonies that adopted many workers did not adopt many foreign drones. Our data indicate that genetically derived odour cues are important for honeybee nestmate recognition in drones and show that different nestmate recognition mechanisms are used to identify drones and workers.     

Return of Drones: Flight Experience Improves Returning Performance in Honeybee Drones

The effect of experience on the behavior of worker bees has been extensively investigated; however, few such studies have been conducted on male bees. Honeybee (Apis mellifera) males (drones), unlike the males of other social hymenopterans, return to their nest after performing a mating flight and have, therefore, an opportunity to learn from their experiences. This provides a chance to understand the significance of experience in social hymenopteran males. Here, we investigated whether experience improves the returning performance in drones (rate and time of return to the hive). We compared the returning performance of “Experienced” drones that were allowed to fly freely and thus had an opportunity to learn the position of the hive before the experiment with “Naive” drones that were not allowed to fly and therefore, had no opportunity to learn. We found that Experienced drones returned to the hive after a displacement, whereas Naive drones did not. Furthermore, time to return decreased with the age of drones. These results suggest that flight experience improves the returning performance, which should increase the possibility of mating success and overall colony fitness.     

The influence of drone physical condition on the likelihood of receiving vibration signals from worker honey bees, <Emphasis Type="Italic">Apis mellifera</Emphasis>

Honey bee workers will perform vibration signals on adult drones, which respond by increasing the time spent receiving trophallaxis. Because trophallaxis provides the proteins for sexual maturation, workers could direct vibration signals towards drones showing certain physical characteristics, potentially influencing drone development and colony reproductive output. We examined the influence of drone condition on the likelihood of receiving vibration signals by comparing body weight, protein concentrations, and hemolymph juvenile hormone (JH) titers between drones that received the vibration signal and same-age, non-vibrated controls. Vibrated and control drones did not differ in total body weight, abdomen weight, abdomen-to-body weight ratio, total protein concentrations, or hemolymph JH titers. In contrast, vibrated drones had significantly lower thorax weight and smaller thorax-to-body weight ratios compared with controls. Because relative thorax weight may affect flight ability and mating success, workers could use the vibration signal to increase the care received by less developed drones, potentially contributing to the production of greater numbers of competitive males. However, the differences in thorax weights, while significant, were very small, and it is unknown how such slight differences might be assessed by workers or affect drone performance. Nevertheless, vibration signals performed on drones may provide opportunities for exploring the effect of the quality of reproductive individuals on caste interactions in honey bees.     

Decreased flight performance and sperm production in drones of the honey bee (Apis mellifera) slightly infested by Varroa destructor mites during pupal development

We developed a bioassay to measure the flying power of drone, in order to determine which drones could reach a drone congregation area. A wind tunnel was used to test unparasitized drones and drones slightly parasitized by one or two mites during pupal development, and counts were made of the number of spermatozoa that they produced. Drones parasitized with one mite flew as long as control drones (x= 6'55" and 6'48", respectively, P = 0.512); however, those that had been infested by two mites flew significantly less (x= 2'16", P<0.001). There was a significant positive correlation (P<0.01) between flight duration and the number of spermatozoa per drone in control group (r = 0.53), and in both the one mite (r = 0.43) and two mite (r = 0.54) groups. Drones infested during development with one or two mites produced 24 and 45% fewer sperm, respectively.     

Discrimination of nestmate workers and drones in honeybees

Summary Discrimination of nestmates from non-nestmates has mainly been investigated in female social insects. Little is known about discrimination of males. Here we show that under natural conditions at the nest entrance, honeybee workers can discriminate nestmate drones from non-nestmate drones as effectively as they can discriminate nestmate workers from non-nestmate workers.     

Muscle potentials and temperature acclimation and acclimatization in flight muscles of workers and drones of Apis mellifera

1. 1.Muscle potentials in fibrillar flight muscles of worker and drone honeybees were recorded extracellularly at thoracic temperatures from 30 to 10°C.

2. 2.Extinction temperatures for muscle potentials were higher in drones for all treatments.

3. 3.Cold acclimation (15°C) lowered extinction temperatures significantly in workers and drones. Acclimitization changed extinction temperatures significantly only in drones.

4. 4.Cold acclimitization had a bigger effect on the rate of muscle potential amplitude decline with decreasing temperature than acclimation.

5. 5.Acclimation and acclimitization had no effect on the increase of muscle potential duration with falling temperature.

6. 6.Muscle potential frequency during shivering was not much different between cold and warm treated bees.