Sex ratio variation in the bumblebee Bombus terrestris

Patterns of sex allocation in bumblebees have been enigmaticand difficult to interpret in either a Fisherian context orin a kin-selection perspective. We gathered data on severalhundred laboratory-reared colonies of the bumblebee Bombus terrestrisand analyzed sex allocation as a function of diapause durationand a series of variables describing colony development. Ouranalyses addressed both sex allocation patterns across differentcohorts of laboratory colonies reared at different times andsex allocation patterns across individual colonies within thesecohorts. We used path analysis to test a hypothetical modellinking a sequence of colony-development variables to the crucialreproductive parameters at the end of the colony life cycle.We show that (1) population-wide patterns of sex allocationshow equal investment in the sexes and are thus consistent withqueen control, but not with worker control. (2) A significantpart of the colony-level and cohort-specific variation in sexallocation is related to the hibernation conditions of foundingqueens: Queens with longer than average winter diapause producelarger cohorts of first and second brood workers, switch tohaploid eggs early, and produce colonies that raise mostly malesand few new queens and vice versa. (3) Colony-level sex allocationis significantly related to the time span between the switchpoint (date of first haploid egg laid by the queen) and thecompetition point (date of first haploid egg laid by one ofthe workers): the longer this period, the more male biased thesex ratio. (4) The breeding constraints of an annual life cycle,the short reproductive season, and the presumably high premiumon early produced males imply that bumblebee workers have norealistic options to capitalize on their relatedness asymmetrytoward the different kinds of reproductive brood by biasingthe sex ratio.     

Natural variation in the genetic architecture of a host-parasite interaction in the bumblebee Bombus terrestris

The genetic architecture of fitness-relevant traits in natural populations is a topic that has remained almost untouched by quantitative genetics. Given the importance of parasitism for the host's fitness, we used QTL mapping to study the genetic architecture of traits relevant for host-parasite interactions in the trypanosome parasite, Crithidia bombi and its host, Bombus terrestris. The three traits analysed were the parasite's infection intensity, the strength of the general immune response (measured as the encapsulation of a novel antigen) and body size. The genetic architecture of these traits was examined in three natural, unmanipulated mapping populations of B. terrestris. Our results indicate that the intracolonial phenotypic variation of all three traits is based on a network of QTLs and epistatic interactions. While these networks are similar between mapping populations in complexity and number of QTLs, as well as in their epistatic interactions, the variability in the position of QTL and the interacting loci was high. Only one QTL for body size was plausibly found in at least two populations. QTLs for encapsulation and Crithidia infection intensity were located on the same linkage groups.     

Heritability of sperm length in the bumblebee Bombus terrestris

Sperm length is highly variable, both between and within species, but the evolutionary significance of this variation is poorly understood. Sexual selection on sperm length requires a significant additive genetic variance, but few studies have actually measured this. Here we present the first estimates of narrow sense heritability of sperm length in a social insect, the bumblebee Bombus terrestris. In spite of a balanced and straightforward rearing design of colonies, and the possibility to replicate measurements of sperm within single males nested within colonies, the analysis proved to be complex. Several appropriate statistical models were derived, each depending on different assumptions. The heritability estimates obtained ranged from h ² = 0.197 ± 0.091 to h ² = 0.429 ± 0.154. All our estimates were substantially lower than previous estimates of sperm length heritability in non-social insects and vertebrates.     

Respiration and energetics of the bumblebee Bombus terrestris queen

Carbon dioxide production by the Bombus terrestris queen was measured at different temperatures (10–30°C) and during different activities of the bumblebee. During flight the CO₂ production averaged 50 ml g⁻¹ (fresh weight) h⁻¹ and was only slightly affected by temperature. During rest (with a readiness to fly) and incubation the respiration rate clearly increased with decreasing temperature (5–40 and 13–56 ml g⁻¹ h⁻¹, respectively), whilst during torpor it increased with temperature (0.1–1.7 ml g⁻¹ h⁻¹ at temperatures from 10 to 30°C).
The expenditure of energy as calculated from the continuous respiration measurements agreed well with the amount of energy obtained from food (discrepancy 6–19%). The energy budget of an incubating queen was correctly predicted using the measured respiratory functions, prevailing temperatures, and the behaviour of the queen. The number of flower visits needed to fulfil the daily energy requirements of an incubating queen is discussed.     

A larval hunger signal in the bumblebee Bombus terrestris

Larvae of Bombus terrestris, a pollen-storing bumblebee, are dependent on progressive provisioning by workers. We test the hypothesis that larval cuticular chemicals can act as a hunger signal. We first show with a new classical conditioning experiment, using a Y-shaped tube, that workers can be trained to prefer the extracts of normally fed larvae over those of starved larvae. This proves the ability of workers to discriminate between larval extracts. Second, we show in a bioassay that workers also use these perceived differences to feed larvae according to their nutritional status. Larval broods sprayed with the extracts of the starved larvae were fed significantly more than larval broods sprayed with the extracts of normally fed larvae or with the solvent (n-pentane) only. We therefore conclude that B. terrestris larvae signal their need for food via their cuticular chemicals, and discuss the extent to which this form of communication could give larvae some control over their development. Received 2 September 2005; revised 11 April; accepted 24 April 2006.     

Specific versus nonspecific immune defense in the bumblebee,Bombus terrestris L

Abstract.— Hosts vary in both their strength of response to a general immunological insult and in their specific susceptibility to different parasite species or different strains of the same parasite. The variation in the general immune response is considered a result of the costs imposed by selection on defended individuals. The variation in the specific response may originate from variation in host and parasite genotypes and is a requirement for frequency-dependent selection. The relationship between these two fundamental aspects of defense has only rarely been studied. Using the bumblebee Bombus terrestris and its gut trypanosomal parasite Crithidia bombi we found that the host's specific response profile toward different strains correlates negatively with its level of response to a general insult. This is the opposite result one would expect if the level of general response were simply a measure of immunological quality (immunocompetence). Rather, it suggests that there is some form of a trade-off between these two fundamental aspects of the immune system. These results, therefore, shed an important light on the possible constraints that affect the evolution of the immune system and particularly the trade-off between different arms of the immune system.     

Behavioural interactions, kin and disease susceptibility in the bumblebee Bombus terrestris

Behavioural interactions are often analysed in terms of their costs and benefits to the actors [Hamilton, (1964) J. Theor. Biol.7 1-16; Gadagkar, (1993) Trends Ecol. Evol.8 232-234; Foster et al., (2001) Ann. Zool. Fenn.38 229-238]. Using the bumblebee Bombus terrestris, we wish to distinguish between two possible determinants of interaction behaviour between conspecifics, namely kin-directed behaviour that reflects genetic distance between individuals, or, alternatively, interactions guided by a functional distance between individuals, specifically, with respect to disease susceptibility. We find no relationship between contact rate of individuals and the genetic distance of their respective colonies. Interestingly, we do find a significant negative correlation between contact rate and the distance between the two colonies in susceptibility to a spectrum of parasite strains. This cannot be explained by either of the a priori alternatives so we propose two further testable hypotheses to explain our results.     

Thermoregulation dynamics in commercially reared colonies of the bumblebee Bombus terrestris

Thermoregulation, that is, the active control of temperature, is key to ensure proper brood development in both wild and captive bumblebee nests. In this study, thermoregulation dynamics were assessed relative to colony age and ambient temperature using commercially reared Bombus terrestris L. (Hymenoptera, Apidae, Bombus) colonies. We observed a positive relationship between brood and nest temperatures in response to ambient temperature. Thermoregulation investment (by either brooding or fanning) was lowest at brood surface temperatures between 33 and 34 °C and ambient temperatures between 28 and 32 °C. Brood temperature was less stable and thermoregulation investment higher in younger colonies, especially at lower ambient temperatures. Furthermore, queens initiated colonies sooner and colonies developed faster when kept at an ambient temperature of 29 °C as compared to 24 °C. Our results suggest that ambient temperatures are ideally kept between 29 and 31 °C.     

Age- and task-dependent foraging gene expression in the bumblebee Bombus terrestris

In eusocial insects, the division of labor within a colony, based on either age or size, is correlated with a differential foraging (for) gene expression and PKG activity. This article presents in the first part a study on the for gene, encoding a cGMP-dependent protein kinase (PKG) in the bumblebee Bombus terrestris. Cloning of the open reading frame allowed phylogenetic tracing, which showed conservation of PKGs among social insects. Our results confirm the proposed role for PKGs in division of labor. Btfor gene expression is significantly higher in the larger foragers compared with the smaller sized nurses. More importantly, we discovered an age-related decrease in Btfor expression in both nursing and foraging bumblebees. We therefore speculate that the presence of BtFOR is required for correct adaptation to new external stimuli and rapid learning for foraging. In a second series of experiments, worker bumblebees of B. terrestris were treated with two insecticides imidacloprid and kinoprene, which have shown to cause impaired foraging behavior. Compared with controls, only the latter treatment resulted in a decreased Btfor expression, which concurs with a stimulation of ovarian growth and a shift in labor toward nest-related tasks. The data are discussed in relation to Btfor expression in the complex physiological event of foraging and side-effects by pesticides.     

Caste specific differences in fat body glycogen metabolism of the bumblebee,Bombus terrestris

Bumblebee queens of Bombus terrestris store large amounts of glycogen in the fat body during the first days after eclosion. The accumulation of the reserves is complete prior to hibernation. Comparative studies on the glycogen metabolism in queens and workers show that the increased activity of UDP-glucose: glycogen 4-α-d-glucosyltransferase (EC 2.4.1.11) could account for glycogen accumulation in queens. The enzymatic activities are nearly the same in newly emerged bees, significant differences between castes are detected by day three after eclosion. The activity of glycogen phosphorylase (EC 2.4.1.1), in contrast, is not different between the castes. After injection of juvenile hormone into newly emerged queens the activity of UDP-glucose:glycogen 4-α-d-glucosyltransferase remains low and no glycogen is accumulated in the fat body. Since eggs are formed simultaneously, the lowered activity of the enzyme is thought to depend on the changed metabolism of the fat body related to induced oogenesis.     

Unexpected consequences of polyandry for parasitism and fitness in the bumblebee, Bombus terrestris

Multiple mating by females (polyandry) is taxonomically widespread but the evolution of such behaviors is not clearly understood given potential costs of polyandry such as time, energy, or predation risk. The genetic variability versus parasites hypothesis predicts a reduction of parasitism due to increased genetic variability among offspring and an associated fitness gain. We tested this hypothesis with a field experiment in the bumblebee, Bombus terrestris L. Worker heterogeneity within the colony was experimentally altered by artificially inseminating queens with sperm from one male, four brothers, two males, or four unrelated males. We found genetic variability to be effective, because intensity and prevalence of the most common parasite, Crithidia bombi, a trypanosome, decreased with increasing levels of colony heterogeneity. Fitness differed between treatments but did not increase in a simple way, with increasing genetic heterogeneity among colony workers. Instead, fitness followed a U-shaped function with a minimum for small amounts of genetic heterogeneity. We therefore suggest that polyandry also induces a cost, perhaps as a result of the social structure within the colony. In evolutionary terms, singly mated females appear to be constrained by an adaptive valley that needs to be crossed before high degrees of mating frequency can be reached. This may help to explain why B. terrestris and most other social insects are often monandrous.     

Construction and characterization of a BAC-library for a key pollinator, the bumblebee Bombus terrestris L.

The primitively social bumblebee Bombus terrestris is an ecological model species as well as an important agricultural pollinator. As part of the ongoing development of genomic resources for this model organism, we have constructed a publicly available bacterial artificial chromosome (BAC) library from males of a field-derived colony. We have shown that this library has a high coverage, which allows any particular sequence to be retrieved from at least one clone with a probability of 99.7%. We have further demonstrated the library’s usefulness by successfully screening it with probes derived both from previously described B. terrestris genes and candidate genes from another bumblebee species and the honeybee. This library will facilitate genomic studies in B. terrestris and will allow for novel comparative studies in the social Hymenoptera. Received 12 March 2008; revised 13 September 2008; accepted 17 September 2008. R. Schmid-Hempel: contact for data repository of this BAC library     

Isolation and characterization of chitin from bumblebee (Bombus terrestris)

Insect chitin possessing shell-like structure was prepared from the bumblebee corpses by a consequent treatment with 1M HCl and 1M NaOH. The bumblebee chitin was compared with crustacean (shrimp) chitin by using elemental analysis, Fourier-transform infrared (FT-IR) and solid-state (13)C cross-polarization magic angle spinning nuclear magnetic resonance (CP/MAS)-NMR spectroscopy and confocal microscopy. Both chitins (bumblebee and shrimp) exhibited identical spectra, while the bumblebee chitin had a 5% lower degree of acetylation and was characterized by a fine membrane texture.     

An immune response in the bumblebee, Bombus terrestris leads to increased food consumption

Background  

The concept of a costly immune system that must be traded off against other important physiological systems is fundamental to the burgeoning field of ecological immunity. Bumblebees have become one of the central models in this field. Although previous work has demonstrated costs of immunity in numerous life history traits, estimates of the more direct costs of bumblebee immunity have yet to be made.     

Photoperiodic influence on the body mass of bumblebee, Bombus terrestris and its copulation duration

Abstract:  The body mass of Bombus terrestris individuals is an important trait for their behavioural performance and colony organization. In this study, colonies were reared under four different photoperiodic regimes, viz. 0 : 24, 8 : 16, 16 : 8 and 24 : 0 h light : darkness (L : D) at 28°C and 50% relative humidity. The changes in body mass were observed at the stages of larvae, pupae and on the day of adult eclosion. Both the wet and dry mass of sexuals gradually decreased with increasing day length. The relationship between body mass and copulation duration revealed that copulation duration was negatively correlated with male body mass, but positively with queen body mass. Higher number of matings by males resulted in significantly higher duration of copulation.     

Low parasite loads accompany the invading population of the bumblebee, Bombus terrestris in Tasmania

In its native Europe, the bumblebee, Bombus terrestris (L.) has co-evolved with a large array of parasites whose numbers are negatively linked to the genetic diversity of the colony. In Tasmania B. terrestris was first detected in 1992 and has since spread over much of the state. In order to understand the bee’s invasive success and as part of a wider study into the genetic diversity of bumblebees across Tasmania, we screened bees for co-invasions of ectoparasitic and endoparasitic mites, nematodes and micro-organisms, and searched their nests for brood parasites. The only bee parasite detected was the relatively benign acarid mite Kuzinia laevis (Dujardin) whose numbers per bee did not vary according to region. Nests supported no brood parasites, but did contain the pollen-feeding life stages of K. laevis. Upon summer-autumn collected drones and queens, mites were present on over 80% of bees, averaged ca. 350–400 per bee and were more abundant on younger bees. Nest searching spring queens had similar mite numbers to those collected in summer-autumn but mite numbers dropped significantly once spring queens began foraging for pollen. The average number of mites per queen bee was over 30 fold greater than that reported in Europe. Mite incidence and mite numbers were significantly lower on worker bees than drones or queens, being present on just 51% of bees and averaging 38 mites per bee. Our reported incidence of worker bee parasitism by this mite is 5–50 times higher than reported in Europe. That only one parasite species co-invaded Tasmania supports the notion that a small number of queens founded the Tasmanian population. However, it is clearly evident that both the bee in the absence of parasites, and the mite have been extraordinarily successful invaders. Received 12 April 2006; revised 10 November 2006; accepted 15 November 2006.     

Is the exotic bumblebee Bombus terrestris really invading Tasmanian native vegetation?

There has been a great deal of disagreement surrounding the capacity of Bombus terrestris to invade Tasmanian native vegetation. This paper reviews the conflicting findings of previous surveys of the invasion of Tasmania by B. terrestris, and presents new data from the 2004–2005 austral summer. From this, it is clear that B. terrestris has extensively invaded Tasmanian native vegetation. The new data provide strong evidence that B. terrestris is breeding in native vegetation in every region of Tasmania. More than 10 bumblebees were seen in one day at 153 locations in native vegetation, including 42 locations within 10 National Parks and 38 locations within the Tasmanian Wilderness World Heritage Area. Nests of B. terrestris were also found within two National Parks. These findings suggest that B. terrestris would also invade native vegetation in non-arid temperate regions of the Australian mainland, if it is introduced there.     

Impact of artificial photoperiodism on the colony development of the bumblebee Bombus terrestris

This study investigated the effect of the photoperiodic regimes 0 h light : 24 h dark (LD 0:24), LD 8:16, LD 16:8 and LD 24:0 at 28°C and 50% Relative Humidity (RH) on the colony development of hibernated (2.0, 2.5, 3.0, 3.5 and 4.0 months) bumblebee queens. The queens which had hibernated for 3.0 months and which were reared in a LD 8:16 photoperiod showed the highest rate of colony initiation (88.2%), colony foundation (67.6%) and progeny queen production (38.2%). The photoperiod LD 8:16 also produced the shortest period of colony initiation and colony foundation. The highest number of sexual males (171.2 ± 12.2) and queens (91.2 ± 9.9) were produced in the colonies when 3.5 and 3.0 month hibernated queens were kept in an LD 8:16 photoperiod. The results show that light regime and hibernation duration affect colony characteristics of Bombus terrestris.     

Dynamics of gut microbiome upon pollination in bumblebee (Bombus terrestris)

Bumblebees are crucial buzz pollinators of poricidal plants and commercial crops. The population of these crucial pollinators is globally declining. The need to focus on factors contributing to bee health such as gut microbiota is imperative. We evaluated the effect of source on gut microbiota composition in adult worker Bombus terrestris from two environments using multiplexed 16S rRNA amplicon sequencing on the Illumina MiSeq platform. Indoor reared adult worker bees were segregated into non-pollination (NP) and pollination (P) groups. The NP group bumblebees were raised and kept in the insectary for the entire experiment. P group bumblebees worked in a tomato-planted greenhouse for 15 days as pollinators. Our results show that members of Proteobacteria and Firmicutes were significantly different between the two groups. Bifidobacterium bombi (Actinobacteriota) and Candidatus_Schmidhempelia (Proteobacteria) were found to be important gut colonizer exclusive to NP and P group bees, respectively. DESeq2 analysis showed differentially abundant OTUs belonging to Lactobacillus spp. in each group. But for the differentially abundant detected OTUs, resolution till genus level was obtained which impairs our knowledge of the species associated with each group. Our data show that the gut microbiota between the groups differed when indoor- reared adult worker bees were exposed to different environments. The distinct gut microbiota between the two groups may also have been influenced by the different diets fed to bees upon segregation. Further studies can give important insights into the role of gut microbiota on bee health when indoor reared bees are employed for pollination.