Worker Honeybees Research Articles

Influence of sugary feeding with some vitamins on phenoloxidase and antioxidant activity in honeybee workers, Apis mellifera L.

Influence of sugary feeding with some vitamins on phenoloxidase and antioxidant activity in honeybee workers, Apis mellifera L.

Evaluation of acaricide toxicity to the parasitic mite (Varroa destructor), honeybee workers (Apis mellifera L.) and their residues in honey and beeswax.

Evaluation of acaricide toxicity to the parasitic mite (Varroa destructor), honeybee workers (Apis mellifera L.) and their residues in honey and beeswax.

Evaluation of acaricide toxicity to the parasitic mite (Varroa destructor), honeybee workers (Apis mellifera L.) and their residues in honey and beeswax

Evaluation of acaricide toxicity to the parasitic mite (Varroa destructor), honeybee workers (Apis mellifera L.) and their residues in honey and beeswax

Occurrence and Molecular Phylogeny of Economically Relevant Viruses Infecting Honey Bees (Apis mellifera L.) of Bingöl Province, Turkey

Abstract In this study, we conducted a six-month survey to evaluate the current status of three common honey bee viruses (black queen cell virus [BQCV], acute bee paralysis virus [ABPV], and sacbrood virus [SBV]) in Turkey’s Bingöl region and revealed their phylogenetic relationships with the same types of viruses in other parts of the world. We randomly sampled 384 worker honey bees from a total of 128 apiaries from different locations of this region. Molecular tests confirmed the presence of SBV and BQCV, with infection rates of 7.03% and 11.7%, respectively, but ABPV could not be detected in any of the surveyed apiaries. In addition, double infection was detected in an apiary with an infection rate of 0.78%. The sequences of a partial polyprotein gene region of a randomly selected isolate from each detected virus were collected and registered in GenBank under the accession numbers MZ357971 and MZ357972 for SBV and MZ357974 for BQCV. The nucleotide sequence similarity of Turkish BQCV and SBV isolates was 75.71–96.58% and 85.96–92.98%, respectively. A comparison of the phylogenetic tree of Bingöl honey bee viral genomes with other isolates from around the world revealed that Bingöl SBV isolates were closely related to another Turkey isolate while Bingöl BQCV isolate to France, Italy, Australia, and Brazil isolates. To our knowledge, the presence and phylogenetic affinity of SBV and BQCV viruses detected in the present study is the first recording for Turkey’s Bingöl province.

The effect of nutritional status on the synthesis ability, protein content and gene expression of mandibular glands in honey bee (Apis mellifera) workers

The mandibular glands (MGs) of honey bee workers are key exocrine glands responsible for the biosynthesis of multiple royal jelly acids, which have important functions within the colony. However, our knowledge about the nutrition requirement of MGs is quite limited. Here, we artificially manipulated the nutritional status of caged honey bee workers (pollen and sugar candy, sugar candy only, soybean meal and sugar candy, stearic acid supplemented sugar candy or citric acid supplemented sugar candy). Then we measured their impact on the 10-hydroxy-2-decanoic acid (10-HDA) and 10-hydroxydecanoic acid (10-HDAA) content in honey bee heads to evaluate the synthesis ability of workers’ MGs, and analyzed the protein content of MGs as well as gene expression in the MGs to reveal the possible physiological changes. Our result showed that nutrition strongly impacted the MGs acid synthesis, the 10-HDA and 10-HDAA contents were significantly higher in workers fed with pollen than with sugar candy only, while an additional supply of protein and organic acid showed no significant contribution. In addition, the 10-HDA/10-HDAA ratio was also significantly affected by the nutrition status. On the contrary, different diets showed no influence on the protein content or gene expressions of MGs, except that organic acid supplements could increase the expression of key genes in fatty acid β-oxidation pathways. Taken together, our study revealed that honey bee nutritional status is closely related to the function of worker MGs. The nutritional deficiency has a significant negative impact on the synthesis ability of worker MGs, but showed no effect on the physiology of MGs.

More Worker Capped Brood and Honey Bees with Less Varroa Load Are Simple Precursors of Colony Productivity at Beekeepers' Disposal: An Extensive Longitudinal Survey.

In response to the concerns of beekeepers on the decline of honey bee populations on lavender honey flow in the lavender fields of southeast France and the consequent decrease of honey production, our long-term survey (2009-2021) monitored the total weight gain collected by these colonies. This study shows the variations in the total weight gain according to regions, years, populations structure (bee number and quantity of capped brood) and Varroa load. Among these factors, years and regions support one third of the variations over this 13-year survey. At the beginning of the honey flow, capped brood is more important than the number of bees, whereas Varroa load severely limits the performance of the colonies. A threshold of 3 mites/100 bees seems to reflect the upper limit of the Varroa load below which the total weight gain is not affected. This survey provides useful information for the beekeepers to better prepare the colonies for this honey flow and allows them to compare their results obtained with our general description of the total weight gains by year.

Evaluation of gamma radiation–induced genotoxicity in the workers of Italian honey bees, Apis mellifera ligustica, using single cell gel electrophoresis (comet) assay

The environment exposed to radionuclide faces detrimental effects of ionizing radiations and these radiations can damage DNA by inducing genotoxicity in living organisms. The gamma radiation induced genotoxicity was evaluated by employing Single cell gel electrophoresis (comet) assay in the foragers of Apis mellifera ligustica by exposing to different doses (1 to 60 Gy) of gamma radiation. DNA damage was measured as the percentage of comet tail DNA. The results showed a dose dependent increase and post irradiation time (1-24 h) dependent decrease in % tail DNA level in bee foragers. A significant increase in DNA damage was observed in all the samples and the extent of damage was proportional to the dose of gamma radiation received by the bees except in those treated with the lower doses (1, 5 and 10 Gy) of gamma radiation. The highest amount of DNA damage was recorded at 1 h post-irradiation which decreased gradually with time, that is, at 3 h and 6 h post-irradiation. However, there were no significant differences in the % tail DNA of bees of 12 h and 24 h post irradiation. The present study shows gamma radiation induced DNA damage in foragers of A. m. ligustica and also the comet assay is a suitable technique for detection of gamma radiation induced DNA damage.

Dream Team for Honey Bee Health: Pollen and Unmanipulated Gut Microbiota Promote Worker Longevity and Body Weight

Gut microbiota are known to foster pollen digestion in honey bee workers, Apis mellifera, thereby enhancing longevity and body weight gain. However, it is currently not known how longevity and body weight gain are effected when gut microbiota are reduced in bees with or without access to pollen. Here, using a hoarding cage set-up with freshly emerged summer workers, we manipulated the gut microbiota of half the bees with the antibiotic tetracycline (ABX), and left the other half untreated on a sucrose solution diet. Afterwards, all bees were assigned to either sucrose diets or sucrose plus ad libitum access to pollen (N = 4 treatments, N = 26 bees/treatment, N = 10 replicates/treatment, N = 1,040 total workers). The data confirm that pollen has a positive effect on longevity and body weight in workers with an unmanipulated gut microbiota. Surprisingly, the antibiotics alone also improved the longevity and body weight of the workers fed a strictly sucrose diet, potentially explained by the reduction of harmful bacteria. However, this positive effect was reversed from an observed antagonistic interaction between pollen and antibiotics, underscoring the innate value of natural microbiota on pollen digestion. In conclusion, a combination of adequate pollen supply and an unmanipulated gut microbiota appears crucial to honey bee worker health, calling for respective efforts to ensure both in managed colonies.

Proteomic analysis of summer and winter Apis mellifera workers shows reduced protein abundance in winter samples

Apis mellifera workers display two stages; short lived summer bees that engage in nursing, hive maintenance and foraging, and long lived winter bees (diutinus bees) which remain within the hive and are essential for thermoregulation and rearing the next generation of bees in spring before dying. Label free quantitative proteomic analysis was conducted on A. mellifera workers sampled in June and December to compare the proteomes of summer and winter bees. Proteomic analysis was performed on head, abdominal and venom sac samples and revealed an elevated level of protein abundance in summer bees. Head and abdominal samples displayed an increased abundance in cuticular proteins in summer samples whereas an increase in xenobiotic proteins was observed in winter samples. Several carbohydrate metabolism pathways which have been linked to energy production and longevity in insects were increased in abundance in winter samples in comparison to summer samples. Proteomic analysis of the venom sacs of summer samples showed an increased abundance of bee venom associated proteins in comparison to winter workers. These data provides an insight into the adaptions of A. mellifera workers in summer and winter and may aid in future treatment and disease studies on honeybee colonies. Data are available via ProteomeXchange with identifier PXD030483.

Drone Laying Honey Bee Workers in Queen Monitoring Cages.

Techniques to monitor honey bee (Apis mellifera) egg production in cages allow researchers to study how different environmental factors contribute to reproduction. However, although the conditions required to facilitate queen egg production in a laboratory setting have been established, limited work has addressed the requirements for stimulating and monitoring worker egg laying. Here, we documented that drone laying workers will lay eggs in Queen Monitoring Cages (QMC), specialized cages designed to facilitate queen egg laying under controlled conditions. Egg production and worker mortality were compared between QMCs containing queens and those containing drone laying workers. High-definition images of the last abdominal segments of living first-instar larvae hatched from worker laid eggs and those putatively laid by queens were qualitatively compared to identify candidate characteristics to determine their sex.

꿀벌 외부 기생성 응애류 방제용 살비제의 양봉꿀벌에 대한 실내 독성평가

Two species of the mite, Varroa destructor and Tropilaelaps mercedesae, are the main ectoparasites of the honey bee, Apis mellifera, in South Korea. Mite infection deteriorates individual honey bee health and further reduces population size of the bee colonies, thereby destructing the colonies. The chemical acaricides including fluvalinate, coumaphos, amitraz and cymiazole hydrochloride are used along with the natural chemical substances to control mite species. Recently, several beekeepers have complained of honey bee damage from the cymiazole hydrochloride treatment. To evaluate the toxicity of cymiazole hydrochloride we treated it to the honey bee workers according to the recommended method and dosage. Amitraz and coumaphos, which are the main acaricides for mite control, were used as comparison groups. 48 hours after treatment, cymizaole hydrochloride, amitraz and coumaphos showed mortalities of 22.2±1.9%, 3.3±5.8% and 1.1±3.3%, respectively.

Comparing protein content of pollen and his impact on the lenght of life of honeybees

The objective of the research work was to compare the protein content of pollen from some plants visited frequently by honey bees in Bulgarian and Australian flora, and study the length of life of worker honey bees fed by pollen with different protein content. In this study the number of the same floral species, were described nine. Most number of favorite plants for honey bees are from Asteraceae – 5. The percentage of the total protein content in the compared bee-collected pollen grains ranged from: 11.5% for Chondrilla juncea to 25.1% for that of Brassica napus, and the average value was 18.5% for Bulgarian species, and 13.8% for Helianthus annuus to 25.9% for that of Trifolium repens, and the average value was 19.3% for Australian species. It is made a systematic comparison between Bulgarian and Australian protein content in pollen, but significant differences of the two groups were not found. Proteins are one of the the main components of honey bee-collected pollen, and can vary among different pollen plant species source. The very similar results in Bulgarian study compared to the published ones note the conservatism of pollen, despite the very long distance between Bulgaria and Australia, but having in mind if the Australian results come from inside country. It could be said that the honey bees in Bulgaria and Australia consume pollen with the same amount protein content from the same floral species. The length of live of worker bees ranged from 25 days when they consumed pollen from Brassica napus (25.1% protein content) to 14.3 days when they consumed pollen from Zea mays (17%). The present study was performed to make also a systematic comparison between length of life worker bees fed by pollen with different protein content and significant differences were found. The worker honey bees lived longer when they consumed pollen with higher protein content.

Extent and complexity of RNA processing in honey bee queen and worker caste development

SummaryThe distinct honeybee (Apis mellifera) worker and queen castes have become a model for the study of genomic mechanisms of phenotypic plasticity. Here we performed a nanopore-based direct RNA sequencing with exceptionally long reads to compare the mRNA transcripts between queen and workers at three points during their larval development. We found thousands of significantly differentially expressed transcript isoforms (DEIs) between queen and worker larvae. These DEIs were formatted by a flexible splicing system. We showed that poly(A) tails participated in this caste differentiation by negatively regulating the expression of DEIs. Hundreds of isoforms uniquely expressed in either queens or workers during their larval development, and isoforms were expressed at different points in queen and worker larval development demonstrating a dynamic relationship between isoform expression and developmental mechanisms. These findings show the full complexity of RNA processing and transcript expression in honey bee phenotypic plasticity.

Impacts of Natural and Supplementary Foods on Some Biochemical Activities in the Bodies of Honeybee Workers

Impacts of Natural and Supplementary Foods on Some Biochemical Activities in the Bodies of Honeybee Workers

Worker bees (Apis mellifera) deprived of pollen in the first week of adulthood exhibit signs of premature aging

Pollinator populations, including bees, are in rapid decline in many parts of the world, raising concerns over the future of ecosystems and food production. Among the factors involved in these declines, poor nutrition deserves attention. The diet consumed by adult worker honeybees (Apis mellifera) is crucial for their behavioral maturation, i.e., the progressive division of labor they perform, such as nurse bees initially and later in life as foragers. Poor pollen nutrition is known to reduce the workers’ lifespan, but the underlying physiological and genetic mechanisms are not fully understood. Here we investigate how the lack of pollen in the diet of workers during their first week of adult life can affect age-related phenotypes. During the first seven days of adult life, newly emerged workers were fed either a pollen-deprived (PD) diet mimicking that of an older bee, or a control pollen-rich (PR) diet, as typically consumed by young bees. The PD-fed bees showed alterations in their fat body transcriptome, such as a switch from a protein-lipid based metabolism to a carbohydrate-based metabolism, and a reduced expression of genes involved with immune response. The absence of pollen in the diet also led to an accumulation of oxidative stress markers in fat body tissue and alterations in the cuticular hydrocarbon profiles, which became similar to those of chronologically older bees. Together, our data indicate that the absence of pollen during first week of adulthood triggers the premature onset of an aging-related worker phenotype.

Effect of Comb Cell Width on the Activity of the Proteolytic System in the Hemolymph of Apis mellifera Workers.

Simple SummaryHoneybees are threatened by many biotic factors, e.g., microbes and parasites such as Nosema spp. and Varroa mites, or predators, as well as environmental factors such as weather conditions, pesticides, or food contaminants. Honeybee colonies have behavioral defense mechanisms against pathogens resulting from their social lifestyle. Moreover, these insects have innate immune barriers. One of the immune defense elements is the proteolytic system consisting of proteases and their inhibitors in the hemolymph (insect blood) and on the body surface. The proteolytic system is activated by both external and internal environmental factors. An important element of the nest environment is the comb. In feral bee colony nests, the bee comb cell size varies in width. In turn, bee colonies in Europe tend to be kept only on standard- (cell width approx. 5.50 mm) or small-cell (cell width approx. 4.90 mm) combs. We assessed the proteolytic system activity in the hemolymph of workers reared in a small-cell comb and a standard-cell comb in colonies kept simultaneously on standard- and small-cell combs. Simultaneous keeping of a colony on standard- and small-cell combs is a novel approach to the use of small-cell combs in beekeeping. The width of comb cells (small or standard) where workers were reared had a significant effect on the protein concentrations and the activities of proteases and protease inhibitors in hemolymph of workers. The protein concentrations in 1-day-old workers were higher in bees reared in small-cell combs than in those reared in standard-cell combs. The opposite was found in the groups of older bees (aged 7, 14 and 21 d). Moreover, the activities of proteases and their inhibitors in 1-day-old workers were always higher in bees reared in standard-cell combs, whereas opposite results were usually obtained in the group of the older workers. The differences between workers reared in the small-cell combs and those from the standard-cell combs may be associated with their different tasks. Workers reared in small-cell combs probably work outside the nest as foragers, whereas those reared in standard-cell combs work in the nest. However, this assumption requires confirmation.This study is a continuation of the innovative research of the impact of rearing of bee colonies simultaneously on standard- and small-cell combs on the traits of worker bees and bee colonies. Its aim was to compare the activities of proteases and their inhibitors in the hemolymph of workers reared in a small-cell comb (SMC) and a standard-cell comb (STC) in colonies kept simultaneously on standard- and small-cell combs. The width of comb cells in which workers are reared has a significant effect on the protein concentration and the proteolytic system in the hemolymph, which is reflected in the activities of proteases and their inhibitors. The protein concentrations in the 1-day-old workers were always higher (p ≤ 0.05) in the SMC than STC workers. The opposite was found in the older bee workers (aged 7, 14 and 21 d). The activities of proteases and their inhibitors in the 1-day-old workers were always higher (usually significantly at p ≤ 0.05) in STC than SMC workers, and opposite results were observed in the groups of the older workers (aged 7, 14 and 21 d). The differences between the workers from small-cell combs and those reared in standard-cell combs may be related to their different tasks. Workers reared in small-cell combs probably work as foragers outside the nest, whereas bees reared in standard-cell combs work in the nest. This hypothesis requires confirmation. To reduce the impact of accidental determinants on the results of single-season research on honeybees, it is advisable that such investigations should be conducted for several consecutive years.

Impact of a Microbial Pest Control Product Containing Bacillus thuringiensis on Brood Development and Gut Microbiota of Apis mellifera Worker Honey Bees

To avoid potential adverse side effects of chemical plant protection products, microbial pest control products (MPCP) are commonly applied as biological alternatives. This study aimed to evaluate the biosafety of a MPCP with the active organism Bacillus thuringiensis ssp. aizawai (strain: ABTS-1857). An in-hive feeding experiment was performed under field-realistic conditions to examine the effect of B. thuringiensis (B. t.) on brood development and the bacterial abundance of the core gut microbiome (Bifidobacterium asteroids, Gilliamella apicola, the group of Lactobacillus and Snodgrasella alvi) in Apis mellifera worker bees. We detected a higher brood termination rate and a non-successful development into worker bees of treated colonies compared to those of the controls. For the gut microbiome, all tested core members showed a significantly lower normalized abundance in bees of the treated colonies than in those of the controls; thus, a general response of the gut microbiome may be assumed. Consequently, colony exposure to B. t. strain ABTS-1857 had a negative effect on brood development under field-realistic conditions and caused dysbiosis of the gut microbiome. Further studies with B. t.–based products, after field-realistic application in bee attractive crops, are needed to evaluate the potential risk of these MPCPs on honey bees.

Unbalanced fatty acid diets impair discrimination ability of honey bee workers to damaged and healthy brood odors.

Nutrition supports social insect colonies by regulating both individual performance and colony growth. In honey bee colonies, task-related behaviors such as nursing and foraging are partially mediated by nutrition. Young workers (nurses) consume almost all of the pollen in the hive, while foragers consume mostly nectar. Pollen provides vital proteins and lipids, consumed by nurse bees for approximately 1week post-eclosion. The role that lipids play in the physiology and behavior of adult bees is gaining significant attention. Recent research suggests that diets with balanced ratios of fatty acids increase olfactory learning in honey bees. Olfaction is crucial for young worker bees to perform brood care and cell cleaning behaviors, which is important for hive health and disease control. Thus, we targeted the early adult, pollen-feeding stage to examine how fatty acids affect cognition to hive-relevant odors. We fed young workers (days 0-9) diets balanced or unbalanced in their ratio of essential fatty acids (ω-6:3) sourced from pollen or cooking oils. We then measured their ability to learn healthy and damaged brood odors, as well as their ability to discriminate between the two. Workers fed balanced diets could learn and discriminate between brood odors better than workers fed unbalanced diets. Consumption of both diet types decreased with age, but their cognitive effects remained. These results suggest that diet affects young worker cognitive development, which may affect task-related behaviors and colony hygiene.

Probiotic Potential and Effects on Gut Microbiota Composition and Immunity of Indigenous Gut Lactobacilli in Apis cerana.

This study aimed to investigate the probiotic potential of gut indigenous lactic acid bacteria (LAB) originated from Apis cerana. Six Limosilactobacillus reuteri and one Lactobacillus helveticus were isolated from gut samples of A. cerana adult worker bee. All isolates antagonized the growth of pathogens including Salmonella typhimurium, Escherichia coli, Shigella flexneri, and Flavobacterium frigidimaris, and L. helveticus KM7 showed the greatest antimicrobial activity among them. All strains were sensitive to cefotaxime, amoxicillin, cephalothin, penicillin G, kanamycin, and vancomycin, moderately sensitive to novobiocin and resistant to gentamicin. Six out of seven strains were sensitive to ampicillin. L. helveticus KM7 was chosen to evaluate in vivo probiotic effect of adult worker bees of A. cerana through fed sucrose syrup supplemented with KM7. Administration of KM7 increased survival rate and gut LAB but decreased gut fungi and Enterococcus in honeybees. Expressions of genes related to antimicrobial peptides (AMPs) including Abaecin and Defensin were also induced in the gut of honeybees. The results suggested that L. helveticus KM7 with greater probiotic properties could improve the survival rate of adult worker honeybees of A. cerana through regulating gut microbiota and AMPs genes expression.

Presence of Lotmaria passim, Crithidia mellificae and Nosema spp. in differently aged Apis mellifera brood

Infections caused by Lotmaria passim, Crithidia mellificae, Nosema spp. are frequently observed in bee colonies. The aim of this study was to determine the age at which honey bee worker larvae are most susceptible to the above parasites. Three apiaries (group C—central Poland, group E—north-eastern Poland, group S—southern Poland) with the highest number of colonies infected with Nosema spp. were chosen for the study. Six bee colonies were selected in each apiary, and bee workers of different developmental stages were sampled. The presence of parasites was determined by real-time PCR. The results were processed statistically by two-way analysis of variance (ANOVA) and the least significant difference post-hoc test. The relationship between the presence of the parasites and larval age within groups was analyzed statistically. Significant differences (p < 0.05) in the presence of L. passim were found between 10-day-old larvae vs. 4-, 8-, 12-, 16-, 21-day-old bee brood. Differences in the presence of the analyzed parasites in differently aged larvae were also determined between groups. The presence of N. apis in 10-day-old larvae differed significantly (p < 0.05) between groups C and E. The study revealed that apparently, healthy bee colonies can be a source of infection for other colonies and larvae. C. mellificae was not identified in any of the analyzed groups.