Your search keyword '"Bumblebees"' showing total 325 results

1. Scientific note: Phoretic interaction between Antherophagus (Coleoptera) and Bombus funebris (Hymenoptera), using Chuquiraga jussieui (Asteraceae) as transfer stations in the páramos.

Author

Martel, Carlos, Cifuentes, Laura, Cuesta, Francisco, Stevenson, Philip C., and Tovar, Carolina

Abstract

Beetles of the genus Antherophagus are phoretic organisms that inhabit the nests of Bombus species. They migrate and colonize new nests using the same bumblebees as carriers. Although Antherophagus beetles from temperate Europe and North America are known to use some plant species to move between bumblebees, it is unknown which plants are used as transfer stations by neotropical Antherophagus. Here, we report for the first time how phoretic Antherophagus beetles of an undescribed species use the inflorescences of Chuquiraga jussieui to transfer between individuals of Bombus funebris in the páramos of Central Ecuador. Our observations are the highest records (at 4200 m asl) of a phoretic interaction performed so far. [ABSTRACT FROM AUTHOR]

Published

2024

2. Parasitoid flies associated with bumble bees (Bombus spp.) in Argentina.

Author

Plischuk, Santiago, Skevington, Jeffrey H., Haramboure, Marina, Revainera, Pablo D., Fernández de Landa, Gregorio, Quintana, Silvina, and Lange, Carlos E.

Subjects

*BUMBLEBEES, *DIPTERA, *INTRODUCED species, *SARCOPHAGIDAE, *APIDAE, *LARVAE

Abstract

Both the identity and prevalence of parasitoid dipterans associated with bumble bees (Bombus spp.) in southern South America are little known. Between 2009 and 2017, a total of 2978 bumble bees were individually collected in 63 localities from 11 provinces of the country. After dissections, the presence of parasitoids was observed in the native bumble bees Bombus pauloensis, B. bellicosus, B. opifex, and B. brasiliensis, plus in the exotic invasive species B. terrestris. A combination of both morphological and molecular analysis based on the COI gene allowed the isolation of two species of Physocephala (Conopidae) and one of Helicobia (Sarcophagidae), expanding their host range and geographic distribution. The second instar larva of Helicobia aurescens is described. [ABSTRACT FROM AUTHOR]

Published

2024

3. Bumble bee diet breadth increases with local abundance and phenophase duration, not intraspecific variation in body size.

Author

Glenny, Will R., Runyon, Justin B., and Burkle, Laura A.

Subjects

*BUMBLEBEES, *BODY size, *BEES, *HONEYBEES, *DIET

Abstract

Patterns of abundance across space and time, and intraspecific variation in body size, are two species attributes known to influence diet breadth and the structure of interaction networks. Yet, the relative influence of these attributes on diet breadth is often assumed to be equal among taxonomic groups, and the relationship between intraspecific variation in body size on interaction patterns is frequently neglected. We observed bee–flower interactions in multiple locations across Montana, USA, for two growing seasons and measured spatial and temporal patterns of abundance, along with interspecific and intraspecific variation in body size for prevalent species. We predicted that the association between spatial and temporal patterns of abundance and intraspecific variation in body size, and diet breadth, would be stronger for bumble bee compared to non-bumble bee species, because species with flexible diets and long activity periods can interact with more food items. Bumble bees had higher local abundance, occurred in many local communities, more intraspecific variation in body size, and longer phenophases compared to non-bumble bee species, but only local abundance and phenophase duration had a stronger positive association with the diet breadth of bumble bee compared to non-bumble bee species. Communities with a higher proportion of bumble bees also had higher intraspecific variation in body size at the network-level, and network-level intraspecific variation in body size was positively correlated with diet generalization. Our findings highlight that the association between species attributes and diet breadth changes depending on the taxonomic group, with implications for the structure of interaction networks. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ethological studies of bumble bee, Bombus haemorrhoidalis Smith under low hill conditions in Himachal Pradesh.

Author

Sharma, Harish Kumar, Sharma, Ruchi, Prasad, Hema, Sharma, Deeksha, Thakur, Priyanka, Devi, Diksha, Thakur, Meena, and Rana, Kiran

Subjects

*BUMBLEBEES, *PINE needles, *AUTUMN, *HABITAT selection, *POPULATION dynamics, *GROUND cover plants, *NEST predation, *BEE colonies

Abstract

Bumble bees are known to be amongst the most efficient natural pollinators and their increased scarcity in the ecosystem has led us to study their habitat and ethological preferences, so that future efforts can be designed for their restoration under the natural habitat. The present investigation explores the natural nest architecture, structural features of nest habitat, location of the nest, environmental parameters, population dynamics, emergence of drones, gynes, and variation in the sex ratio of Bombus haemorrhodalis. A total of ten natural nests were excavated at different altitudes ranging from 473.05 to 1258.52 m from different sites in two locations Nauni and Gandhal. The species inhabited the underground abandoned rodent's cavities as nests at a depth of 15 cm to 140 cm with 1–2 external hidden entrances or below ground covered with involucrum made of small dried grass, leaves, pine needles, paper infused on/with wax, etc. The shape of the nest varied from circular to oval with an average size of about 3.88 cubic decimeters. The colony strength of all excavated nests ranged between 15 and 113 individuals, with average internal ambient temperature and relative humidity of the nest cavity varying from 20.9–29.7 °C and 24.6–79.3 percent, respectively. The honey storage (length x width; 16.02 × 15.74 mm), queen (15.02 × 14.60 mm), worker (13.25 × 12.58 mm) and drone cells (11.13 mm × 10.45 mm) varied in dimensions and were constructed by the workers with colony development. As a potential natural strategy to ensure survival, the gynes emerged earlier and higher in number than drones in late summer to early autumn and this progeny survived until the end of autumn. The current study exploring the natural environment of B. haemorrhoidalis helps understand and correlate the natural nest characteristics with laboratory-reared colonies for year-round rearing. [ABSTRACT FROM AUTHOR]

Published

2024

5. Bemisia tabaci infection of tomato plant alters bumblebee foraging behaviour.

Author

Li, Ruxu, Huang, Xi, Xu, Xilian, Wang, Su, Yang, Yuting, Di, Ning, Li, Hu, and Tian, Lixia

Subjects

*BUMBLEBEES, *SWEETPOTATO whitefly, *POLLINATION by bees, *PLANT nutrition, *POLLINATION by insects, *BOMBUS terrestris, *POLLINATORS, *TOMATOES

Abstract

Insect pollination is an important process in the natural ecosystem and plays a vital role in crop reproduction. The bumblebee, Bombus terrestris (L.), is a widely used pollinator for crops, especially tomato. The efficiency of bee pollination is related to many factors, including biotic factors such as bee species, nutrition plants, and herbivores. Bemisia tabaci (Gennadius) (Homoptera: Aleyrodidae) is one of the most common and serious pests of tomato plants. However, whether B. tabaci affects the pollination behaviour of B. terrestris on tomato, and how plant–herbivore–pollinator interactions are unclear. In this study, we found that B. terrestris preferred B. tabaci-damaged plants. Furthermore, plant volatiles of tomato plants damaged by B. tabaci were detected and analysed. Electroantennogram (EAG) and the Y-tube bioassay were used for olfactory responses of B. terrestris to plant volatiles. Interestingly, methyl hexanoate and eugenol induced by B. tabaci in tomato plants were found to significantly attract B. terrestris. Therefore, Bemisia tabaci influenced B. terrestris preference through volatiles. The plant volatile-mediated interaction between B. tabaci and B. terrestris could enrich our understanding of the interaction between herbivores and pollinators. In addition, methyl hexanoate and eugenol could be applied for synergist of pollination. [ABSTRACT FROM AUTHOR]

Published

2024

6. Markerless tracking of bumblebee foraging allows for new metrics of bee behavior and demonstrations of increased foraging efficiency with experience.

Author

Warburton, Reed C. and Jones, Patricia L.

Subjects

*BEE behavior, *BUMBLEBEES, *FORAGING behavior, *BEES, *FLOWERING time, *SOCIAL ecology, *SYRPHIDAE, *HONEY

Abstract

Bumblebees have become model organisms for cognitive ecology and social learning. Quantifying the foraging behavior of free-flying bees, however, remains a methodological challenge. We describe and provide the code for a method of studying bee free flying foraging behavior using the open source neural-network based markerless tracking software DeepLabCut. From videos of bees foraging in an arena we trained a neural network to accurately track the position of each bee. We then used this approach to study foraging behavior and show that the ratio between flying time and flower visiting time decreases over repeated foraging bouts, indicating increasing efficiency of bee foraging behavior with experience. Visit durations, a laborious metric to measure by hand, were significantly shorter on flowers that had previously been visited. This experiment illustrates the usefulness of DeepLabCut for objective quantification of behavior, and in this case study shows that previous experience increases bee foraging efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effects of floral display size, local open raceme density, patch size, and distance between patches on pollinator behaviour in Salvia nipponica.

Author

Murakoshi, Noriko, Itagaki, Tomoyuki, Oguro, Michio, and Sakai, Satoki

Subjects

*POLLINATORS, *PLANT populations, *DENSITY, *FORAGE plants, *BUMBLEBEES, *SALVIA, *SALVIA miltiorrhiza

Abstract

Flowers cluster at various spatial scales, so pollinators use information from multiple scales when foraging in natural plant populations. Little is known about the effects of interactions between scales or their relative strength. We examined bumblebee foraging behaviour in a natural population of Salvia nipponica in 10 and 7 patches in 2019 and 2020, respectively. We recorded within-patch factors (display size of racemes and local open raceme densities) and patch-level factors (patch size and distance from the nearest patch) and analysed their relationships with pollinator behaviour. The numbers of visits per raceme and flower were mainly affected by the interaction of patch size and raceme density; they were higher in locations with lower raceme density in larger patches. The ratio of flowers visited to all open flowers in a raceme during a raceme visit, which relates to a bumblebee's choice to leave a raceme, was mainly affected by the interaction of display size and local open raceme density; in 2019 it was higher in racemes with smaller display sizes, while in 2020 the strength and direction of the relationship depended on the open raceme density. These results suggest that pollinators relied on the sizes of flower clusters at different spatial scales when visiting and leaving racemes and adjusted their responses to the sizes of flower clusters depending on the distances between clusters. Therefore, it is important to evaluate factors at various spatial scales and their interactions to fully understand pollinator behaviour in natural plant populations. [ABSTRACT FROM AUTHOR]

Published

2024

8. Sarcoptes scabiei infestation in a captive lowland tapir (Tapirus terrestris): case report, morphological and molecular genetic mite identification.

Author

Keiser, Perrine, Hörweg, Christoph, Kübber-Heiss, Anna, Hering-Hagenbeck, Stephan, Shahi-Barogh, Bita, Reitl, Katharina, Vielgrader, Hanna, Voracek, Thomas, Fuehrer, Hans-Peter, and Ebmer, David

Subjects

*SARCOPTES scabiei, *URBAN animals, *MITES, *IDENTIFICATION, *ZOO animals, *ZOOS, *PHYTOSEIIDAE, *BUMBLEBEES

Abstract

Sarcoptes scabiei (Acari: Sarcoptidae) is a globally distributed parasitic mite species, which causes mange in a broad spectrum of domestic and wild mammals. In the present study, we report a case of chronic S. scabiei infestation in a captive lowland tapir (Tapirus terrestris) held in a multi-species exhibit at Vienna Zoo. The adult male showed clinically manifested mange flare-ups three times at an interval of up to 12 months, diagnosed by positive deep-skin scrapings and successfully treated by oral applications of ivermectin (0.1–0.2 mg/kg body weight) and washings with antimicrobial solutions. Clinical symptoms including pruritus, alopecia, erythema, crusts, and superficial bleedings were limited to the axillar and pectoral region, as well as distal limbs. The affected tapir died from underlying bacterial pneumonia during general anesthesia. Skin scrapings, necropsy, and histopathological analysis of mite material (eggs, larvae, and adults) permitted further morphological and molecular identification. The morphological features described here matched the characteristics for the species S. scabiei and molecular data verified morphological identification. Cross-species transmission plays a key role in the expansion of this neglected emerging panzootic disease and urban wildlife could potentially bridge the gap between free-ranging wildlife reservoirs and zoo animals. However, further examinations are needed to detect the primary source of infestation and discover transmission pathways within the zoo. [ABSTRACT FROM AUTHOR]

Published

2023

9. Gut Transplants from Bees Fed an Antipathogenic Pollen Diet Do Not Confer Pathogen Resistance to Recipients.

Author

Yost, Rachel T., Fowler, Alison E., and Adler, Lynn S.

Subjects

*BEES, *POLLEN, *WILD flowers, *BUMBLEBEES, *GUT microbiome, *DIET, *BUCKWHEAT

Abstract

Pollinators are threatened by diverse stressors, including microbial pathogens such as Crithidia bombi. Consuming sunflower pollen dramatically reduces C. bombi infection in the bumble bee Bombus impatiens, but the mechanism behind this medicinal effect is unclear. We asked whether diet mediates resistance to C. bombi through changes in the gut microbiome. We hypothesized that sunflower pollen changes the gut microbiome, which in turn reduces Crithidia infection. To test this, we performed a gut transplant experiment. We fed donor bees either a sunflower pollen treatment or buckwheat pollen as a control treatment and then inoculated recipient bees with homogenized guts from either sunflower-fed or buckwheat-fed donor bees. All recipient bees were then fed a wildflower pollen diet. Two days after the transplant, we infected recipients with C. bombi, and 2 days later, we provided another donor gut transplant. To quantify infection, we performed both fecal screens and dissections of the recipient bees. We found no significant differences in C. bombi infection intensity or presence between bees that received sunflower-fed microbiomes versus buckwheat-fed microbiomes. This suggests that sunflower pollen's effects on pathogen resistance are not mediated by gut microbiota. [ABSTRACT FROM AUTHOR]

Published

2023

10. The value of twinned pollinator-pollen metabarcoding: bumblebee pollination service is weakly partitioned within a UK grassland community.

Author

Ronca, Sandra, Ford, Caroline S., Allanguillame, Joël, Szabo, Claudia, Kipling, Richard, and Wilkinson, Mike J.

Subjects

*POLLINATORS, *POLLINATION, *GENETIC barcoding, *BUMBLEBEES, *CYTOCHROME oxidase, *BEE pollen, *PLANT species, *GRASSLANDS

Abstract

Predicting ecological impact of declining bumblebee (Bombus) populations requires better understanding of interactions between pollinator partitioning of floral resources and plant partitioning of pollinator resources. Here, we combine Cytochrome Oxidase 1 (CO1) barcoding for bumblebee identification and rbcL metabarcoding of pollen carried by bees in three species-rich UK pastures. CO1 barcoding assigned 272 bees to eight species, with 33 individuals belonging to the cryptic Bombus lucorum complex (16 B. lucorum and 17 B. cryptarum). Seasonal bias in capture rates varied by species, with B. pratorum found exclusively in June/July and B. pascuorum more abundant in August. Pollen metabarcoding coupled with PERMANOVA and NMDS analyses revealed all bees carried several local pollen species and evidence of pollen resource partitioning between some species pairings, with Bombus pratorum carrying the most divergent pollen load. There was no evidence of resource partitioning between the two cryptic species present, but significantly divergent capture rates concorded with previous suggestions of separation on the basis of foraging behaviour being shaped by local/temporal differences in climatic conditions. Considering the bee carriage profile of pollen species revealed no significant difference between the nine most widely carried plant species. However, there was a sharp, tipping point change in community pollen carriage across all three sites that occurred during the transition between late July and early August. This transition resulted in a strong divergence in community pollen carriage between the two seasonal periods in both years. We conclude that the combined use of pollen and bee barcoding offers several benefits for further study of plant-pollinator interactions at the landscape scale. [ABSTRACT FROM AUTHOR]

Published

2023

11. Quantifying the impact of an invasive Hornet on Bombus terrestris Colonies.

Author

O'Shea-Wheller, Thomas A., Curtis, Robin J., Kennedy, Peter J., Groom, Ellen K. J., Poidatz, Juliette, Raffle, David S., Rojas-Nossa, Sandra V., Bartolomé, Carolina, Dasilva-Martins, Damián, Maside, Xulio, Mato, Salustiano, and Osborne, Juliet L.

Subjects

*BEE colonies, *BUMBLEBEES, *HORNETS, *BOMBUS terrestris, *HONEYBEES, *NEST predation

Abstract

The invasive hornet Vespa velutina nigrithorax is considered a proliferating threat to pollinators in Europe and Asia. While the impact of this species on managed honey bees is well-documented, effects upon other pollinator populations remain poorly understood. Nonetheless, dietary analyses indicate that the hornets consume a diversity of prey, fuelling concerns for at-risk taxa. Here, we quantify the impact of V. velutina upon standardised commercially-reared colonies of the European bumblebee, Bombus terrestris terrestris. Using a landscape-scale experimental design, we deploy colonies across a gradient of local V. velutina densities, utilising automated tracking to non-invasively observe bee and hornet behaviour, and quantify subsequent effects upon colony outcomes. Our results demonstrate that hornets frequently hunt at B. terrestris colonies, being preferentially attracted to those with high foraging traffic, and engaging in repeated—yet entirely unsuccessful—predation attempts at nest entrances. Notably however, we show that B. terrestris colony weights are negatively associated with local V. velutina densities, indicating potential indirect effects upon colony growth. Taken together, these findings provide the first empirical insight into impacts on bumblebees at the colony level, and inform future mitigation efforts for wild and managed pollinators. The influence of the invasive hornet Vespa velutina on Bombus terrestris colonies is quantified along a gradient of hornet densities, revealing negative impacts upon B. terrestris colony growth. [ABSTRACT FROM AUTHOR]

Published

2023

12. Pollen morphology for successful pollination dependent on pollinator taxa in a generalist plant: relationship with foraging behavior.

Author

Hasegawa, Takuya M., Itagaki, Tomoyuki, and Sakai, Satoki

Subjects

*FORAGING behavior, *POLLEN, *POLLINATORS, *POLLINATION, *MORPHOLOGY, *BUMBLEBEES, *BEE pollen

Abstract

Pollen morphology varies at inter- and intraspecific levels. Its interaction with pollinator behavior and morphology determines the probability of successful pollination. We tested whether pollen morphology promoting successful pollination differs depending on pollinator taxa in a generalist shrub, Weigela hortensis (Caprifoliaceae). We identified flower visitors carrying pollen from anthers to stigmas and compared the spine length and diameter of the pollen grains they carried. We found that pollen on the bodies of bumble bees and hunch-back flies and the scopae of small bees (including andrenid bees) contributed to seed production. Pollen grains on the bodies of bumble bees had longer spines than those on the scopae of andrenid bees or the bodies of hunch-back flies. Pollen grains on the bodies of bumble bees and the scopae of andrenid bees had larger diameters than those on hunch-back flies. Bumble bees collected pollen grains with shorter spines and larger diameters on their corbiculae while andrenid bees collected pollen grains with shorter spines and intermediate diameters on their scopae. The differences in morphology of pollen carried by pollinators reflected the tendency of bees to collect pollen with specific morphology into corbiculae/scopae. Our findings suggest that pollen morphology has diversified to facilitate successful pollination by pollinating partners. [ABSTRACT FROM AUTHOR]

Published

2023

13. Specialist or opportunist—the diet of the European bee-eater (Merops apiaster).

Author

Bastian, Hans-Valentin and Bastian, Anita

Subjects

*BUMBLEBEES, *DIET, *ORTHOPTERA, *BEETLES, *FOOD animals, *ODONATA, *GASTROINTESTINAL contents

Abstract

The European Bee-eater (Merops apiaster) is considered a foraging specialist for large flying insects, 80% or more of which are Hymenoptera, mainly bumblebees and other bees, including honeybees. Observations of bee-eaters foraging give rise to doubts about an almost one-sided Hymenoptera diet, as Lepidoptera, Odonata, large Diptera or Heteroptera are also regularly and frequently preyed upon and fed to nestlings and brood mates. In a meta-analysis of 56 studies on the bee-eater's diet, a total of 130,624 prey items from 115 food samples were evaluated. Total of 85 samples (74%) with 83,953 items (72%) came from Southern, Eastern and Central Europe; however, studies from North Africa, Central Russia, Ukraine, Turkmenistan, Uzbekistan, Saudi Arabia and South Africa were also included in the analyses. The collection methods significantly influence the results of the dietary composition. In studies of pellet and stomach contents, the diet was less diverse. It consisted of about 90% Hymenoptera and Coleoptera overall, whilst other arthropods were rarely detected. Studies based on direct observation or photo documentation showed that the diet was more diverse, and Hymenoptera were not always the most abundant, but could also include Odonata, Lepidoptera, Tabanidae, Syrphidae, Saltatoria, Heteroptera or Hemiptera in significant amounts. The proportion of Hymenoptera in these studies was 49%, about a third (20%pts – 30%pts) lower than in the pellet and stomach content studies, and the proportion of Coleoptera (13%) about a quarter lower. We assume that bee-eaters completely digest weakly sclerotised prey and that these are, therefore, not detected in pellets and stomachs, or only in low numbers. This means that 81% of published studies on the bee-eater's diet are based on methods that lead to quantitatively and qualitatively unrepresentative results and thus do not provide precise results of diet compositions. Observational and photographic methods have only been used to study the nestling diet. Therefore, a reliable statement about what adult bee-eaters eat themselves and how the diet is composed quantitatively is currently not possible. The diet of adult and juvenile birds could only be compared based on the poorly representative pellet and stomach content analyses. This analysis is limited to the abundance of Hymenoptera and Coleoptera, which are well detectable in pellets and stomachs. Hymenoptera were significantly more abundant in the nestling diet, whilst coleopterans were more abundant in the adult diet. The diet also varied regionally. Bumblebees, because of their sluggish flight and because they are already active at relatively low ambient temperatures, are important food animals in climatically less optimal and oceanic areas at the northern edge of the range. In other regions, Hymenoptera occur less frequently and less regularly, whilst Coleoptera, Odonata, Lepidoptera, large Diptera, Saltatoria, Isoptera or Hemiptera may occur locally in significant numbers as prey. The extent to which diet varies seasonally could not be clearly proven. Only one of five studies shows weakly significant changes in diet composition over the breeding season. This study is based on direct observation of prey fed to nestlings, whilst the other studies examined prey remains in pellets. Although the pellet studies also showed different food compositions over the course of the brood, trends between studies were inconsistent and not significant overall. We hypothesise that local influences (weather, habitats) affected diet composition. Further analysis is needed to determine whether food supply or demand changes during the breeding season. In addition to analysing the food composition, also the food supply must be surveyed, which has rarely been done so far. The opportunistic use of food resources can support the successful colonisation of breeding areas and is probably an important factor in the current successful expansion of the European bee-eater. [ABSTRACT FROM AUTHOR]

Published

2023

14. Neither sulfoxaflor, Crithidia bombi, nor their combination impact bumble bee colony development or field bean pollination.

Author

Straw, Edward A., Cini, Elena, Gold, Harriet, Linguadoca, Alberto, Mayne, Chloe, Rockx, Joris, Brown, Mark J. F., Garratt, Michael P. D., Potts, Simon G., and Senapathi, Deepa

Subjects

*BUMBLEBEES, *FAVA bean, *BEE colonies, *POLLINATION, *BOMBUS terrestris, *INSECTICIDES, *BEEHIVES

Abstract

Many pollinators, including bumble bees, are in decline. Such declines are known to be driven by a number of interacting factors. Decreases in bee populations may also negatively impact the key ecosystem service, pollination, that they provide. Pesticides and parasites are often cited as two of the drivers of bee declines, particularly as they have previously been found to interact with one another to the detriment of bee health. Here we test the effects of an insecticide, sulfoxaflor, and a highly prevalent bumble bee parasite, Crithidia bombi, on the bumble bee Bombus terrestris. After exposing colonies to realistic doses of either sulfoxaflor and/or Crithidia bombi in a fully crossed experiment, colonies were allowed to forage on field beans in outdoor exclusion cages. Foraging performance was monitored, and the impacts on fruit set were recorded. We found no effect of either stressor, or their interaction, on the pollination services they provide to field beans, either at an individual level or a whole colony level. Further, there was no impact of any treatment, in any metric, on colony development. Our results contrast with prior findings that similar insecticides (neonicotinoids) impact pollination services, and that sulfoxaflor impacts colony development, potentially suggesting that sulfoxaflor is a less harmful compound to bee health than neonicotinoids insecticides. [ABSTRACT FROM AUTHOR]

Published

2023

15. Genome-wide DNA methylation patterns in bumble bee (Bombus vosnesenskii) populations from spatial-environmental range extremes.

Author

Rahman, Sarthok Rasique and Lozier, Jeffrey D.

Subjects

*BUMBLEBEES, *DNA methylation, *WHOLE genome sequencing, *GENETIC variation, *CLIMATE change, *GENETIC regulation

Abstract

Unraveling molecular mechanisms of adaptation to complex environments is crucial to understanding tolerance of abiotic pressures and responses to climatic change. Epigenetic variation is increasingly recognized as a mechanism that can facilitate rapid responses to changing environmental cues. To investigate variation in genetic and epigenetic diversity at spatial and thermal extremes, we use whole genome and methylome sequencing to generate a high-resolution map of DNA methylation in the bumble bee Bombus vosnesenskii. We sample two populations representing spatial and environmental range extremes (a warm southern low-elevation site and a cold northern high-elevation site) previously shown to exhibit differences in thermal tolerance and determine positions in the genome that are consistently and variably methylated across samples. Bisulfite sequencing reveals methylation characteristics similar to other arthropods, with low global CpG methylation but high methylation concentrated in gene bodies and in genome regions with low nucleotide diversity. Differentially methylated sites (n = 2066) were largely hypomethylated in the northern high-elevation population but not related to local sequence differentiation. The concentration of methylated and differentially methylated sites in exons and putative promoter regions suggests a possible role in gene regulation, and this high-resolution analysis of intraspecific epigenetic variation in wild Bombus suggests that the function of methylation in niche adaptation would be worth further investigation. [ABSTRACT FROM AUTHOR]

Published

2023

16. Odor Discrimination after Olfactory Conditioning of Managed Solitary Bees, Osmia Lignaria and Megachile Rotundata.

Author

Stanley-Stahr, Cory A. and Pitts-Singer, Theresa L.

Subjects

*ODORS, *CONDITIONED response, *BEES, *HONEYBEES, *STINGLESS bees, *BEE behavior, *BUMBLEBEES

Abstract

Sensory abilities and cognitive processes for honey bees, bumble bees, and stingless bees have been demonstrated through conditioning experiments using odor as a conditioned stimulus (CS) and sugar solution as an unconditioned stimulus (US). Social bee conditioning employs the proboscis extension reflex (PER) to elicit an innate response to sucrose solution. However, solitary bees fail to reliably exhibit PER in response to touching antennae or tarsi with sugar solution. Here we employ a newly established, conditioning protocol for unrestrained solitary bees, i.e., the commercially available Osmia lignaria and Megachile rotundata, that allows them to explore a rearing chamber in which training can occur to subsequently reveal the ability to discriminate between an odor associated with sugar-water and a different odor associated with no reward, using three different odor pairings. No innate preference for any trial odor was found for either species. Osmia lignaria females and males clearly showed the ability to discriminate between odors after conditioning; M. rotundata adults demonstrated discrimination learning in only one set of odor pairings. Laboratory assays to condition solitary bees to not only associate odor with reward but to also discriminate between odors could support studies that address bee behavior and motivation, bee floral specialization or flower constancy, and sublethal effects of environmental stressors on bee performance. The discrepancy we found in species responses highlights the need for comparative studies, because there is no one-size-fits-all protocol for examining cognitive and learning abilities of the many species of bees whose life histories and experiences influence their behavior. [ABSTRACT FROM AUTHOR]

Published

2023

17. Cross-mating between the alien bumblebee Bombus terrestris and two native Japanese bumblebees, B. hypocrita sapporensis and B. cryptarum florilegus, in the Nemuro Peninsula, Japan.

Author

Kubo, Ryohei, Asanuma, Yuine, Fujimoto, Erina, Okuyama, Hisashi, Ono, Masato, and Takahashi, Jun-ichi

Subjects

*BOMBUS terrestris, *BUMBLEBEES, *PENINSULAS, *INTRODUCED species, *GAS detectors, *DNA analysis, *POLLINATORS, *FEMALES

Abstract

The rapid naturalization of Bombus terrestris across the Nemuro Peninsula has led to a decline in two closely related native Japanese species, namely Bombus hypocrita sapporensis and Bombus cryptarum florilegus, both belonging to the common subgenus Bombus. Although it is widely believed that cross-mating of native and non-native species is influenced by the common male sex pheromone in this region, no study has been conducted to substantiate this claim. Thus, we investigated the cross-activities of male sex pheromones between native and non-native bumblebees, as well as the frequencies of cross-mating, using chemical and DNA assays. Our gas chromatography–electroantennographic detector analyses and behavioral tests revealed the presence of sex pheromonal cross-activities between B. terrestris and the two Japanese bumblebees species. Furthermore, DNA analyses revealed the occurrence of cross-mating between native and non-native species in the Nemuro Peninsula. Overall, these results indicate the immediate need for conservation measures to safeguard Japanese bumblebee populations in the Nemuro Peninsula. [ABSTRACT FROM AUTHOR]

Published

2023

18. Some observable physical properties of the higher dimensional dS/AdS black holes in Einstein-bumblebee gravity theory.

Author

Uniyal, Akhil, Kanzi, Sara, and Sakallı, İzzet

Subjects

*BLACK holes, *LORENTZ theory, *GRAVITY, *SYMMETRY breaking, *BUMBLEBEES, *ADVERTISING

Abstract

We study the greybody factors, quasinormal modes, and shadow of the higher dimensional de-Sitter (dS)/anti de-Sitter (AdS) black hole spacetimes derived from the Einstein-bumblebee gravity theory within the Lorentz symmetry breaking (LSB) framework. We specifically apply the semi-analytical WKB method and the time domain approach to study the scalar and Dirac perturbations of the black hole. In-depth researches are done on the effects of the LSB and dimensionality on the bosonic/fermionic greybody factors, quasinormal modes, and shadow of the higher dimensional bumblebee black hole. The results obtained are discussed, tabulated, and illustrated graphically. [ABSTRACT FROM AUTHOR]

Published

2023

19. How competition between overlapping generations can influence optimal egg-laying strategies in annual social insects.

Author

Johansson, Jacob, Arce, Andres N., and Gill, Richard J.

Subjects

*INSECT societies, *QUEEN honeybees, *HONEYBEES, *OVIPARITY, *EGGS, *BODY size, *BEES, *FUNCTIONAL groups, *BUMBLEBEES

Abstract

Annual social insects are an integral functional group of organisms, particularly in temperate environments. An emblematic part of their annual cycle is the social phase, during which the colony-founding queen rears workers that later assist her in rearing sexual progeny (gynes and drones). In many annual social insects, such as species of bees, wasps, and other groups, developing larvae are provisioned gradually as they develop (progressive provisioning) leading to multiple larval generations being reared simultaneously. We present a model for how the queen in such cases should optimize her egg-laying rate throughout the social phase depending on number-size trade-offs, colony age-structure, and energy balance. Complementing previous theory on optimal allocation between workers vs. sexuals in annual social insects and on temporal egg-laying patterns in solitary insects, we elucidate how resource competition among overlapping larval generations can influence optimal egg-laying strategies. With model parameters informed by knowledge of a common bumblebee species, the optimal egg-laying schedule consists of two temporally separated early broods followed by a more continuous rearing phase, matching empirical observations. However, eggs should initially be laid continuously at a gradually increasing rate when resources are scarce or mortality risks high and in cases where larvae are fully supplied with resources at the egg-laying stage (mass-provisioning). These factors, alongside sexual:worker body size ratios, further determine the overall trend in egg-laying rates over the colony cycle. Our analysis provides an inroad to study and mechanistically understand variation in colony development strategies within and across species of annual social insects. [ABSTRACT FROM AUTHOR]

Published

2023

20. Gene expression in bumble bee larvae differs qualitatively between high and low concentration imidacloprid exposure levels.

Author

Martín-Blázquez, Rubén, Calhoun, Austin C., Sadd, Ben M., and Cameron, Sydney A.

Subjects

*IMIDACLOPRID, *BUMBLEBEES, *GENE expression, *LARVAE, *DNA replication, *NEONICOTINOIDS, *NEURAL development

Abstract

Neonicotinoid pesticides negatively impact bumble bee health, even at sublethal concentrations. Responses to the neonicotinoid imidacloprid have been studied largely at individual adult and colony levels, focusing mostly on behavioral and physiological effects. Data from developing larvae, whose health is critical for colony success, are deficient, particularly at the molecular level where transcriptomes can reveal disruption of fundamental biological pathways. We investigated gene expression of Bombus impatiens larvae exposed through food provisions to two field-realistic imidacloprid concentrations (0.7 and 7.0 ppb). We hypothesized both concentrations would alter gene expression, but the higher concentration would have greater qualitative and quantitative effects. We found 678 genes differentially expressed under both imidacloprid exposures relative to controls, including mitochondrial activity, development, and DNA replication genes. However, more genes were differentially expressed with higher imidacloprid exposure; uniquely differentially expressed genes included starvation response and cuticle genes. The former may partially result from reduced pollen use, monitored to verify food provision use and provide additional context to results. A smaller differentially expressed set only in lower concentration larvae, included neural development and cell growth genes. Our findings show varying molecular consequences under different field-realistic neonicotinoid concentrations, and that even low concentrations may affect fundamental biological processes. [ABSTRACT FROM AUTHOR]

Published

2023

21. Consequences of microsporidian prior exposure for virus infection outcomes and bumble bee host health.

Author

McCormick, Elyse C., Cohen, Olivia R., Dolezal, Adam G., and Sadd, Ben M.

Subjects

*BUMBLEBEES, *VIRUS diseases, *EMERGING infectious diseases, *HONEYBEES, *ENVIRONMENTAL health, *BEEHIVES, *BEEKEEPING

Abstract

Host–parasite interactions do not occur in a vacuum, but in connected multi-parasite networks that can result in co-exposures and coinfections of individual hosts. These can affect host health and disease ecology, including disease outbreaks. However, many host–parasite studies examine pairwise interactions, meaning we still lack a general understanding of the influence of co-exposures and coinfections. Using the bumble bee Bombus impatiens, we study the effects of larval exposure to a microsporidian Nosema bombi, implicated in bumble bee declines, and adult exposure to Israeli Acute Paralysis Virus (IAPV), an emerging infectious disease from honey bee parasite spillover. We hypothesize that infection outcomes will be modified by co-exposure or coinfection. Nosema bombi is a potentially severe, larval-infecting parasite, and we predict that prior exposure will result in decreased host resistance to adult IAPV infection. We predict double parasite exposure will also reduce host tolerance of infection, as measured by host survival. Although our larval Nosema exposure mostly did not result in viable infections, it partially reduced resistance to adult IAPV infection. Nosema exposure also negatively affected survival, potentially due to a cost of immunity in resisting the exposure. There was a significant negative effect of IAPV exposure on survivorship, but prior Nosema exposure did not alter this survival outcome, suggesting increased tolerance given the higher IAPV infections in the bees previously exposed to Nosema. These results again demonstrate that infection outcomes can be non-independent when multiple parasites are present, even when exposure to one parasite does not result in a substantial infection. [ABSTRACT FROM AUTHOR]

Published

2023

22. No impacts of glyphosate or Crithidia bombi, or their combination, on the bumblebee microbiome.

Author

Straw, Edward A., Mesnage, Robin, Brown, Mark J. F., and Antoniou, Michael N.

Subjects

*GLYPHOSATE, *BUMBLEBEES, *BOMBUS terrestris, *GUT microbiome, *POLLINATORS, *HONEYBEES

Abstract

Pesticides are recognised as a key threat to pollinators, impacting their health in many ways. One route through which pesticides can affect pollinators like bumblebees is through the gut microbiome, with knock-on effects on their immune system and parasite resistance. We tested the impacts of a high acute oral dose of glyphosate on the gut microbiome of the buff tailed bumblebee (Bombus terrestris), and glyphosate's interaction with the gut parasite (Crithidia bombi). We used a fully crossed design measuring bee mortality, parasite intensity and the bacterial composition in the gut microbiome estimated from the relative abundance of 16S rRNA amplicons. We found no impact of either glyphosate, C. bombi, or their combination on any metric, including bacterial composition. This result differs from studies on honeybees, which have consistently found an impact of glyphosate on gut bacterial composition. This is potentially explained by the use of an acute exposure, rather than a chronic exposure, and the difference in test species. Since A. mellifera is used as a model species to represent pollinators more broadly in risk assessment, our results highlight that caution is needed in extrapolating gut microbiome results from A. mellifera to other bee species. [ABSTRACT FROM AUTHOR]

Published

2023

23. Developing and Evaluating a New Method and Apparatus for Examining Bumble Bee Foraging Behavior.

Author

Bryan, Caleb B. and Prager, Sean M.

Subjects

*FORAGING behavior, *BEE behavior, *BUMBLEBEES, *INSECT behavior, *FLOWERING of plants, *POLLINATION by bees, *FLIGHT testing, *POLLINATION, *POLLINATORS

Abstract

A key question in pollination biology is that of how pollinators identify and choose foraging patches. Several approaches have been employed for this, including field studies and large greenhouse flight chambers. Most methods used to date are limited, though, by reliance on a combination of artificial flowers, large spatial scales, or lack of spatially distinct floral patches. To address this issue, we designed and tested a y-maze flight arena and tested it using the bumblebee Bombus impatiens and canola plants. Our results indicate that the system is not biased by environmental conditions, or by an innate "handedness" of Bombus impatiens. We found that bees made all the expected patch choices when presented with soil, plants without flowers, or plants with flowers. This new method is important and useful as it allows researchers to ask questions of both plant health and insect behavior and the chamber system is modular allowing for simple changes to the setup to focus on different questions. Highlights: • Y-maze flight arena was designed to evaluate foraging behavior on intact plants. • No evidence of side preference in individual bees. • Behaviors observed in the y-maze appear to correspond to behaviors observed in other settings. [ABSTRACT FROM AUTHOR]

Published

2023

24. Constraining the Lorentz-violating bumblebee vector field with big bang nucleosynthesis and gravitational baryogenesis.

Author

Khodadi, Mohsen, Lambiase, Gaetano, and Sheykhi, Ahmad

Subjects

*BUMBLEBEES, *NUCLEOSYNTHESIS, *COSMOLOGICAL principle, *GRAVITATION, *VECTOR fields, *ANTIMATTER

Abstract

By assuming the cosmological principle i.e., an isotropic and homogeneous universe, we consider the cosmology of a vector-tensor theory of gravitation known as the bumblebee model. In this model a single Lorentz-violating timelike vector field with a nonzero vacuum expectation value (VEV) couples to the Ricci tensor and scalar, as well. Taking the ansatz B (t) ∼ t β for the time evolution of the vector field, where β is a free parameter, we derive the relevant dynamic equations of the Universe. In particular, by employing observational data coming from the Big Bang Nucleosynthesis (BBN) and the matter–antimatter asymmetry in the baryogenesis era, we impose some constraints on the VEV of the bumblebee timelike vector field i.e., ξ b 2 , and the exponent parameter β . The former and the latter limit the size of Lorentz violation, and the rate of the time evolution of the background Lorentz-violating bumblebee field, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

25. Bumblebees sense rootstock-mediated nutrition and fertilization regime in tomato.

Author

Martínez-Andújar, Cristina, Youssef, Rim Ben, Prudencio, Ángela S., Ormazabal, Maialen, Martín-Rodríguez, José Ángel, Albacete, Alfonso, Martínez-Melgarejo, Purificación, and Pérez-Alfocea, Francisco

Subjects

*BUMBLEBEES, *AGRICULTURE, *POLLINATION by insects, *NUTRITION, *BOMBUS terrestris, *TOMATOES

Abstract

Aims: Since producing more with less is required for increasing agricultural sustainability and reducing its environmental impact, breeding varieties with increased yield stability under reduced fertilizer application is an important goal, particularly in high valued horticultural crops such as tomato (Solanum lycopersicum L.). However, because of the difficulties to conciliate yield and fertilizer use efficiency through breeding, the graft-compatible genetic biodiversity existing in horticultural species offers the possibility to directly approach this objective in high-yielding elite varieties through improving nutrient capture and promoting ecosystem services such as insect pollination. We hypothesized that rootstocks affect pollinator foraging decisions through the nutritional status that impacts yield. Methods: Fifteen genetically diverse experimental rootstocks were grafted to a scion tomato variety and cultivated under optimal and reduced (25% of optimal) P and NPK fertilization in the presence of managed bumblebee pollinators (Bombus terrestris). Results: Up to twofold yield variability between rootstocks was associated with leaf nutrition and photosynthesis of the scion. Interestingly, fertilization regime and the rootstock genotype influenced the pollinator foraging decisions since bumblebees showed feeding preference for plants cultivated under low P, and for the most yielding and nutritious graft combinations under reduced but not under optimal fertilization. Bumblebees can sense plant nutritional status through source-sink relations, as supported by the consistent relationship between pollinator preferences and leaf carbon concentration. Conclusions: This study opens new perspectives for using pollinators as "phenotypers" to select the most resilient plants under suboptimal conditions and/or genotypes that synergistically increase crop productivity by promoting the ecosystem service provided by the insects. [ABSTRACT FROM AUTHOR]

Published

2023

26. Antibiotics-induced dysbiosis in gut microbiota affects bumblebee health via regulating host amino acid metabolism.

Author

Chen, Rong, Li, Li, and Zhao, Wei

Subjects

*GUT microbiome, *ESSENTIAL amino acids, *ANTIBIOTICS, *BUMBLEBEES, *AMINO acid metabolism, *DYSBIOSIS, *POLLINATORS, *AMINO acids

Abstract

The gut bacteria can provide nutrition for the host, and regulate host physiological functions and host behavior. In this study, we specifically examined the important roles of free amino acids in the gut microbiota-host interaction. Bumblebees were treated with different concentrations of antibiotics (ampicillin combined with low/high concentrations of tetracycline). Then the effect of antibiotic treatments on the host body weight, gut microbiota, and the free amino acid profiles in the hindgut, hemolymph and brain of bees was evaluated. The results showed that antibiotic treatments resulted in a significant decrease in the host body weight at 11 days of age, the total bacterial load and the abundance of Bifidobacterium bohemicum and Gilliamella apicola in the bumblebee's hindgut. Additionally, the higher the concentration of antibiotics (tetracycline), the greater their impact on the body weight and intestinal microbiota of bumblebees. Further, we found that antibiotic treatments caused changes of free amino acids in different tissues, especially in the hindgut and hemolymph, including particularly the decrease of several types of essential amino acids and branched-chain amino acids. Our results suggest that the gut microbiota may modulate the host growth via specific essential amino acids and branched-chain amino acids, which further reveals the crucial roles of free amino acids in the gut microbiota-host interplay. [ABSTRACT FROM AUTHOR]

Published

2023

27. Responses in honeybee and bumblebee activity to changes in weather conditions.

Author

Karbassioon, Arrian, Yearlsey, Jon, Dirilgen, Tara, Hodge, Simon, Stout, Jane C., and Stanley, Dara A.

Subjects

*POLLINATION by bees, *HONEYBEES, *BOMBUS terrestris, *BUMBLEBEES, *POLLINATION by insects, *CLIMATE change, *PLANT reproduction, *WEATHER

Abstract

Insect pollination, and in particular pollination by bees, is a highly valued ecosystem service that ensures plant reproduction and the production of high-quality crops. Bee activity is known to be influenced by the weather, and as the global climate continues to change, the flying frequency and foraging behaviour of bees may also change. To maximise the benefits of pollination in a changing world, we must first understand how current weather conditions influence the activity of different bee species. This is of particular interest in a country such as Ireland where inclement weather conditions are nominally sub-optimal for foraging. We observed honeybee (Apis mellifera) and buff-tailed bumblebee (Bombus terrestris) activity across a variety of weather conditions at seven apple orchards to determine how four weather variables (temperature, relative humidity, solar radiation, wind) influenced the flight activity of each species. Each orchard contained three honeybee and three bumblebee colonies, and so we were able to observe a colony of each species concurrently in the same weather conditions. Overall, honeybees were more sensitive to changes in weather than bumblebees and could be more predisposed to future changes in within-day weather conditions. Our results indicate bumblebees could compensate for low honeybee activity in inclement conditions, which supports the theory that pollinator diversity provides resilience. This may be particularly important in management of pollinators in crops that flower in the spring when weather is more variable, and to allow varied responses to global climate change. [ABSTRACT FROM AUTHOR]

Published

2023

28. Bumble Bee Avoidance of Argentine Ants and Associated Chemical Cues.

Author

Miner, Michelle Constanza and Wilson Rankin, Erin E.

Subjects

*POLLINATION by bees, *BUMBLEBEES, *ANTS, *COMPETITION (Biology), *BEE behavior, *FORAGING behavior, *ANIMAL aggression

Abstract

Bees provide pollination services in both agricultural and natural ecosystems. However, invasive ants that exploit floral nectar in these landscapes can compete with bees for resources, with implications for pollinator resource acquisition, plant fitness, and, ultimately, ecosystem function. While interference competition has been described between bees and nectivorous, non-pollinator antagonists, the behaviors and sensory mechanisms involved remain largely unresolved. Here, we studied the mechanisms by which invasive Argentine ants influence bee nectar foraging behavior. In a series of laboratory assays, we assessed the foraging behavior of bumble bees (Bombus impatiens) in response to live Argentine ants (Linepithema humile) or to a subset of ant chemical cues. Bees were clearly deterred by live ants at a nectar source: they consumed less, fed less frequently, and fed for a shorter duration when live ants were present. Bees were also deterred by a combination of olfactory and gustatory ant chemical cues, consistent with both innate and learned avoidance behavior. Naïve and ant-experienced bees were deterred through chemosensation of ants, feeding less from nectar infused with ant chemicals as compared to nectar lacking ants or their associated cues. Some ant-experienced bees showed a unique behavior, displaying aggression toward ants as well as in response to ant chemicals. The marked effects of this invasive ant on bee foraging behavior—through physical interaction and chemical cues—highlights Argentine ants as a serious pest whose control should be considered when developing pollinator conservation and management strategies. [ABSTRACT FROM AUTHOR]

Published

2023

29. Structure of the Complex of Veronica spicata L. Pollinators on the Northern Distribution Border.

Author

Filippov, N. I. and Teteryuk, L. V.

Subjects

*POLLINATORS, *BUMBLEBEES, *INSECT pollinators, *ECOLOGICAL niche, *APIDAE, *BEES

Abstract

The low number of pollinating insects is the limiting factor for entomophilous plants in the north, and the situation is exacerbated by a short growing season and often unfavorable weather conditions for their life. The paper presents the results of studying the complex of pollinators of the specialized melittophilic species Veronica spicata at the northern limit of its distribution. It is shown that the structure of this complex is determined by the structural features of V. spicata flowers, the latitudinal position, and the differentiation of ecological niches of the species in the north. Unlike other parts of the range, where solitary bees play an important role in the pollination of V. spicata, this function in the north is performed by representatives of the genus Bombus Latr. (Hymenoptera, Apidae). Considering the level of species diversity and population structure, the pollinator complex of V. spicata is based on short proboscis species of bumblebees: Bombus lucorum s.l., B. jonellus, B. pratorum, B. sporadicus, and medium proboscis B. pascuorum. In accordance with the differentiation of ecological niches of V. spicata in the north, differences in the structure of the pollinator complex and foraging strategies of bumblebees were revealed. [ABSTRACT FROM AUTHOR]

Published

2023

30. Bee species perform distinct foraging behaviors that are best described by different movement models.

Author

Brunet, Johanne, Jiang, Qi, Zhao, Yang, Thairu, Margaret W., and Clayton, Murray K.

Subjects

*FORAGING behavior, *HONEYBEES, *BEES, *BUMBLEBEES, *SPECIES, *ALFALFA, *POLLINATORS

Abstract

In insect-pollinated plants, the foraging behavior of pollinators affects their pattern of movement. If distinct bee species vary in their foraging behaviors, different models may best describe their movement. In this study, we quantified and compared the fine scale movement of three bee species foraging on patches of Medicago sativa. Bee movement was described using distances and directions traveled between consecutive racemes. Bumble bees and honey bees traveled shorter distances after visiting many flowers on a raceme, while the distance traveled by leafcutting bees was independent of flower number. Transition matrices and vectors were calculated for bumble bees and honey bees to reflect their directionality of movement within foraging bouts; leafcutting bees were as likely to move in any direction. Bee species varied in their foraging behaviors, and for each bee species, we tested four movement models that differed in how distances and directions were selected, and identified the model that best explained the movement data. The fine-scale, within-patch movement of bees could not always be explained by a random movement model, and a general model of movement could not be applied to all bee species. [ABSTRACT FROM AUTHOR]

Published

2023

31. QNMs of slowly rotating Einstein–Bumblebee black hole.

Author

Liu, Wentao, Fang, Xiongjun, Jing, Jiliang, and Wang, Jieci

Subjects

*VECTOR fields, *SCALAR field theory, *PERTURBATION theory, *BUMBLEBEES, *ASTRONOMICAL perturbation, *ROTATIONAL motion, *GRAVITY, *BLACK holes

Abstract

We have studied the quasinormal modes (QNMs) of a slowly rotating black hole with Lorentz-violating parameter in Einstein–Bumblebee gravity. We analyse the slow rotation approximation of the rotating black hole in the Einstein–Bumblebee gravity, and obtain the master equations for scalar perturbation, vector perturbation and axial gravitational perturbation, respectively. Using the matrix method and the continuous fraction method, we numerically calculate the QNM frequencies. In particular, for scalar field, it shows that the QNMs up to the second order of rotation parameter have higher accuracy. The numerical results show that, for both scalar and vector fields, the Lorentz-violating parameter has a significant effect on the imaginary part of the QNM frequencies, while having a relatively smaller impact on the real part of the QNM frequencies. But for axial gravitational perturbation, the effect of increasing the Lorentz-violating parameter ℓ is similar to that of increasing the rotation parameter a ~ . [ABSTRACT FROM AUTHOR]

Published

2023

32. Herbivory, plant traits and nectar chemistry interact to affect the community of insect visitors and pollination in common milkweed, Asclepias syriaca.

Author

Gustafson, N. W., Couture, J. J., and Dalgleish, Harmony J.

Subjects

*POLLINATION by insects, *INSECT communities, *INFLORESCENCES, *HONEY plants, *BUMBLEBEES, *MILKWEEDS

Abstract

Herbivory can alter plant fitness directly through changing reproductive allocation and indirectly through changing pollinator identity or behavior. Common milkweed is a plant of conservation concern with an inducible chemical defense that is also an important nectar resource. In this study, we aim to understand how herbivory severity and plant traits, including morphology and nectar chemistry, interact to affect insect visitation and pod production in common milkweed. We conducted pollinator watches on plants with experimentally varied herbivory severity and quantified insect frequency and visit length as a response to nectar chemistry, ramet height, number of inflorescences, number of flowers per inflorescence and percent tissue removed. We also quantified pollinator effectiveness and importance. Increased herbivory severity reduced floral displays, including fewer inflorescences and fewer flowers per inflorescence. A reduced floral display was correlated with reduced sucrose, fructose and glucose and resulted in a reduced number and species richness of insect visitors. Fewer flowers per inflorescence reduced the frequency of bumble bee and fly visitors, which were two important pollinators. Although honeybees, flies, small bees, soldier beetles and bumble bees were equally effective pollinators, only bumble bee frequency was positively correlated with pod production. The differences in pollinator visitation have the potential to create diversifying selection on plant floral traits, many of which are also affected by herbivores. This research demonstrates potentially conflicting selection pressures between native and non-native pollinators as well as non-native herbivores. [ABSTRACT FROM AUTHOR]

Published

2023

33. Venom composition and pain-causing toxins of the Australian great carpenter bee Xylocopa aruana.

Author

Shi, Naiqi, Szanto, Tibor G., He, Jia, Schroeder, Christina I., Walker, Andrew A., Deuis, Jennifer R., Vetter, Irina, Panyi, György, King, Glenn F., and Robinson, Samuel D.

Subjects

*CALCIUM-dependent potassium channels, *VENOM, *BEE venom, *TOXINS, *STINGLESS bees, *HONEYBEES, *BEES, *BUMBLEBEES

Abstract

Most species of bee are capable of delivering a defensive sting which is often painful. A solitary lifestyle is the ancestral state of bees and most extant species are solitary, but information on bee venoms comes predominantly from studies on eusocial species. In this study we investigated the venom composition of the Australian great carpenter bee, Xylocopa aruana Ritsema, 1876. We show that the venom is relatively simple, composed mainly of one small amphipathic peptide (XYTX1-Xa1a), with lesser amounts of an apamin homologue (XYTX2-Xa2a) and a venom phospholipase-A2 (PLA2). XYTX1-Xa1a is homologous to, and shares a similar mode-of-action to melittin and the bombilitins, the major components of the venoms of the eusocial Apis mellifera (Western honeybee) and Bombus spp. (bumblebee), respectively. XYTX1-Xa1a and melittin directly activate mammalian sensory neurons and cause spontaneous pain behaviours in vivo, effects which are potentiated in the presence of venom PLA2. The apamin-like peptide XYTX2-Xa2a was a relatively weak blocker of small conductance calcium-activated potassium (KCa) channels and, like A. mellifera apamin and mast cell-degranulating peptide, did not contribute to pain behaviours in mice. While the composition and mode-of-action of the venom of X. aruana are similar to that of A. mellifera, the greater potency, on mammalian sensory neurons, of the major pain-causing component in A. mellifera venom may represent an adaptation to the distinct defensive pressures on eusocial Apidae. [ABSTRACT FROM AUTHOR]

Published

2022

34. Frames of reference in small-scale spatial tasks in wild bumblebees.

Author

Martin-Ordas, Gema

Subjects

*BUMBLEBEES, *HOMINIDS, *SPATIAL ability, *COGNITIVE ability, *ANIMAL species, *BEES

Abstract

Spatial cognitive abilities are fundamental to foraging animal species. In particular, being able to encode the location of an object in relation to another object (i.e., spatial relationships) is critical for successful foraging. Whether egocentric (i.e., viewer-dependent) or allocentric (i.e., dependent on external environment or cues) representations underlie these behaviours is still a highly debated question in vertebrates and invertebrates. Previous research shows that bees encode spatial information largely using egocentric information. However, no research has investigated this question in the context of relational similarity. To test this, a spatial matching task previously used with humans and great apes was adapted for use with wild-caught bumblebees. In a series of experiments, bees first experienced a rewarded object and then had to spontaneously (Experiment 1) find or learn (Experiments 2 and 3) to find a second one, based on the location of first one. The results showed that bumblebees predominantly exhibited an allocentric strategy in the three experiments. These findings suggest that egocentric representations alone might not be evolutionary ancestral and clearly indicate similarities between vertebrates and invertebrates when encoding spatial information. [ABSTRACT FROM AUTHOR]

Published

2022

35. Behavioral roles of biogenic amines in bumble bee males.

Author

Watanabe, Tomohiro and Sasaki, Ken

Subjects

*BUMBLEBEES, *BIOGENIC amines, *HONEYBEES, *DOPAMINE, *BEES, *OCTOPAMINE, *MALES, *TYRAMINE, *PHARMACODYNAMICS

Abstract

To compare the behavioral roles of biogenic amines in the males of primitive and advanced eusocial bees, we determined the levels of dopamine- and octopamine-related substances in the brain, and the behavioral effects of these monoamines by drug injection in the primitive eusocial bumble bee, Bombus ignitus. The levels of dopamine and its precursors in the brain peaked at the late pupal stage, but the dopamine peak extended to adult emergence. The tyramine and octopamine levels increased from the mid-pupal to adult stages. The locomotor and flight activities, and light preference increased with age. Injection of octopamine and its receptor antagonist had significant effects on the locomotor and flight activities, whereas dopamine injection did not, indicating that these activities can be regulated by the octopaminergic system. We also determined the dynamics of dopamine-related substances in honey bee (Apis mellifera) drones. The changes in the dopamine level in the brains of honey bee drones exhibited two peaks from the pupal to adult stages, whereas the bumble bee males had only one peak. These are consistent with the behavioral functions of dopamine in honey bee drones and ineffectiveness of dopamine injection at the adult stage in bumble bee males. [ABSTRACT FROM AUTHOR]

Published

2022

36. No effect of dual exposure to sulfoxaflor and a trypanosome parasite on bumblebee olfactory learning.

Author

Vaughan, Owen P., Straw, Edward A., Linguadoca, Alberto, and Brown, Mark J. F.

Subjects

*POLLINATION by bees, *BUMBLEBEES, *BOMBUS terrestris, *COGNITIVE ability, *PARASITES, *POLLINATORS, *BEES

Abstract

Bees are important pollinators in wild and agricultural ecosystems, and understanding the factors driving their global declines is key to maintaining these pollination services. Learning, which has been a focus of previous ecotoxicological studies in bees, may play a key role in driving colony fitness. Here we move beyond the standard single-stressor approach to ask how multiple stressors, an agrochemical (sulfoxaflor, a relatively new insecticide) and a parasite (Crithidia bombi, a prevalent gut parasite of bumblebees), impact learning in the bumblebee Bombus terrestris. We developed a modified version of the classic proboscis extension reflex assay to assess the combined effects of acute oral sulfoxaflor exposure and infection by C. bombi on olfactory learning of bumblebee workers. We found no evidence that either sulfoxaflor, C. bombi, or their combination had any significant effect on bumblebee olfactory learning, despite their known negative impacts on other aspects of bumblebee health. This suggests that losses in cognitive ability, as measured here, are unlikely to explain the impacts of sulfoxaflor and its interactions with other stressors on bumblebees. Our novel methodology provides a model system within which to test interactive effects of other key stressors on bee health. [ABSTRACT FROM AUTHOR]

Published

2022

37. Comparative psychophysics of Western honey bee (Apis mellifera) and stingless bee (Tetragonula carbonaria) colour purity and intensity perception.

Author

Koethe, Sebastian, Reinartz, Lara, Heard, Tim A., Garcia, Jair E., Dyer, Adrian G., and Lunau, Klaus

Subjects

*HONEYBEES, *STINGLESS bees, *COLOR vision, *BOMBUS terrestris, *BUMBLEBEES

Abstract

Bees play a vital role as pollinators worldwide and have influenced how flower colour signals have evolved. The Western honey bee, Apis mellifera (Apini), and the Buff-tailed bumble bee, Bombus terrestris (Bombini) are well-studied model species with regard to their sensory physiology and pollination capacity, although currently far less is known about stingless bees (Meliponini) that are common in pantropical regions. We conducted comparative experiments with two highly eusocial bee species, the Western honey bee, A. mellifera, and the Australian stingless bee, Tetragonula carbonaria, to understand their colour preferences considering fine-scaled stimuli specifically designed for testing bee colour vision. We employed stimuli made of pigment powders to allow manipulation of single colour parameters including spectral purity (saturation) or colour intensity (brightness) of a blue colour (hue) for which both species have previously shown innate preferences. Both A. mellifera and T. carbonaria demonstrated a significant preference for spectrally purer colour stimuli, although this preference is more pronounced in honey bees than in stingless bees. When all other colour cues were tightly controlled, honey bees receiving absolute conditioning demonstrated a capacity to learn a high-intensity stimulus significant from chance expectation demonstrating some capacity of plasticity for this dimension of colour perception. However, honey bees failed to learn low-intensity stimuli, and T. carbonaria was insensitive to stimulus intensity as a cue. These comparative findings suggest that there may be some common roots underpinning colour perception in bee pollinators and how they interact with flowers, although species-specific differences do exist. [ABSTRACT FROM AUTHOR]

Published

2022

38. Assessing Müllerian mimicry in North American bumble bees using human perception.

Author

Wilson, Joseph S., Pan, Aaron D., Alvarez, Sussy I., and Carril, Olivia Messinger

Subjects

*SPECIES distribution, *BUMBLEBEES, *BEES, *ECOLOGICAL regions

Abstract

Despite the broad recognition of mimicry among bumble bees, distinct North American mimicry rings have yet to be defined, due in part to the prevalence of intermediate and imperfect mimics in this region. Here we employ a generalization approach using human perception to categorize mimicry rings among North American bumble bees. We then map species distributions on North American ecoregions to visually test for geographic concordance among similarly-colored species. Our analyses suggest that there are five mimicry rings in the North American bumble bee mimicry complex, and one broadly distributed group of mixed and intermediate color forms. We describe the Black Mimicry Ring, Black-cloaked Mimicry Ring, Eastern Yellow Mimicry Ring, Red Mimicry Ring, and Western Yellow Mimicry Ring as well as the mixed group. We then test these hypothesized mimicry rings by examining other insects that participate in these mimicry rings. Describing these mimicry rings is a vital step that will enable future analyses of imperfect mimicry, intermediate mimicry, and additional analyses of other insects that mimic bumble bees. [ABSTRACT FROM AUTHOR]

Published

2022

39. Pollinator biological traits and ecological interactions mediate the impacts of mosquito-targeting malathion application.

Author

Kim, Dongmin, Burkett-Cadena, Nathan D., and Reeves, Lawrence E.

Subjects

*CATERPILLARS, *MALATHION, *BUMBLEBEES, *POLLINATORS, *MOSQUITO control, *HOST plants, *BROOD parasitism, *ROOSTING

Abstract

Mosquito adulticides are perceived by the public as detrimental to nontarget arthropods, contributing to declines of native and beneficial insects. However, the actual impact of adulticides on nontarget arthropods in nature needs to incorporate biological and ecological elements. Here, we investigated the effect of biological/behavioral traits (butterfly roosting at different heights, roosting in sites underneath foliage, bumblebee hive usage) and interactions (parasitism, predation) of pollinators (butterflies and bumblebees) that could mediate the impacts of malathion application in manipulative semi-field experiments in Florida, USA. Roosting height from the spray route had a significant negative relationship with mortality of butterflies treated with ULV malathion, with high survival at the highest roosting height (7 m), but butterflies roosting among vegetation did not have higher survival. Bumblebees with hive access had significantly higher survival than bumblebees without hive access. Host plants treated with ULV malathion significantly reduced parasitism of monarch eggs by Trichogramma platneri, but increased predation of monarch caterpillars by Polistes paper wasps. These data provide insight into the realistic impacts of adulticide applications on pollinators in nature which will enable mosquito control districts to better limit nontarget effects of adulticide treatments and may help to address concerns related to potential nontarget effects. [ABSTRACT FROM AUTHOR]

Published

2022

40. Hold tight or loosen up? Functional consequences of a shift in anther architecture depend substantially on bee body size.

Author

Wilkins, Rachel V., Mayberry, Maggie M., Vallejo-Marín, Mario, and Russell, Avery L.

Subjects

*BODY size, *ANTHER, *POLLINATORS, *POLLINATION, *BEES, *BUMBLEBEES, *POLLEN

Abstract

A fundamental question in pollination ecology is how pollinators affect the evolution of different floral forms. Yet functional effects of shifts in floral form for plant and pollinator are frequently unclear. For instance, flowers that conceal pollen within tube-like anthers that are spread apart and move freely (free architecture) or are tightly joined together (joined architecture) have evolved independently across diverse plant families and are geographically widespread. Surprisingly, how their bee pollinators affect the function of both architectures remains unknown. We hypothesised that bee body size would affect foraging success and pollination differently for free and joined anther architectures. Therefore, we modified the anther architecture of a single plant species (Solanum elaeagnifolium) and used a single species of generalist bumble bee (Bombus impatiens), which varies greatly in body size. We found that on free anther architecture, larger bees were better pollinators. More pollen on their bodies was available for pollination and they deposited more pollen on stigmas. Conversely, on joined anther architecture, smaller bees were better pollinators. They collected less pollen into their pollen baskets, had more pollen on their bodies available for pollination, and deposited more pollen on stigmas. While we also found modest evidence that plants benefit more from joined versus free anther architecture, further investigation will likely reveal this also depends on pollinator traits. We discuss potential mechanisms by which pollinator size and anther architecture interact and implications for floral evolution. [ABSTRACT FROM AUTHOR]

Published

2022

41. In vitro larval rearing method of eusocial bumblebee Bombus terrestris for toxicity test.

Author

Kato, Yuto, Kikuta, Shingo, Barribeau, Seth M., and Inoue, Maki N.

Subjects

*BOMBUS terrestris, *TOXICITY testing, *BUMBLEBEES, *LARVAE, *SEX determination, *TOMATO farming, *PESTICIDES, *INSECTICIDES

Abstract

Bumblebees are important pollinators of wild and agricultural plants but recently have been declining due to various stressors, such as pesticides and diseases. Because of the haplo-diploid sex determination system in hymenopterans, experiments using micro-colonies (small sub colonies without a queen) to identify risks to bumblebee health are limited as they are only able to produce males. Therefore, an experimental protocol for rearing bumblebee larvae in vitro is needed to better understand effects on worker larvae. Here, we aimed to establish a rearing method for larvae of Bombus terrestris for use in risk assessment assays. To confirm the validity of our rearing method, we tested two insecticides used for tomato cultivation, chlorfenapyr and dinotefuran. Bombus terrestris larvae fed with a high nutrient quantity and quality diet increased growth per day. All chlorfenapyr-exposed individuals died within 10 days at 2000-fold dilution, an application dose used for tomatoes. There were significant differences in adult emergence rate among almost all chlorfenapyr treatments. On the other hand, sublethal dinotefuran-exposure did not affect rates of pupation and adult emergence, growth, or larval and pupal periods. Although larvae were smaller than in the natural colony, this rearing method for B. terrestris larvae proved to be effective at evaluating realistic sub-colonies to pesticide exposures. [ABSTRACT FROM AUTHOR]

Published

2022

42. In vitro larval rearing method of eusocial bumblebee Bombus terrestris for toxicity test.

Author

Kato, Yuto, Kikuta, Shingo, Barribeau, Seth M., and Inoue, Maki N.

Subjects

*BOMBUS terrestris, *TOXICITY testing, *BUMBLEBEES, *LARVAE, *SEX determination, *TOMATO farming, *PESTICIDES, *INSECTICIDES

Abstract

Bumblebees are important pollinators of wild and agricultural plants but recently have been declining due to various stressors, such as pesticides and diseases. Because of the haplo-diploid sex determination system in hymenopterans, experiments using micro-colonies (small sub colonies without a queen) to identify risks to bumblebee health are limited as they are only able to produce males. Therefore, an experimental protocol for rearing bumblebee larvae in vitro is needed to better understand effects on worker larvae. Here, we aimed to establish a rearing method for larvae of Bombus terrestris for use in risk assessment assays. To confirm the validity of our rearing method, we tested two insecticides used for tomato cultivation, chlorfenapyr and dinotefuran. Bombus terrestris larvae fed with a high nutrient quantity and quality diet increased growth per day. All chlorfenapyr-exposed individuals died within 10 days at 2000-fold dilution, an application dose used for tomatoes. There were significant differences in adult emergence rate among almost all chlorfenapyr treatments. On the other hand, sublethal dinotefuran-exposure did not affect rates of pupation and adult emergence, growth, or larval and pupal periods. Although larvae were smaller than in the natural colony, this rearing method for B. terrestris larvae proved to be effective at evaluating realistic sub-colonies to pesticide exposures. [ABSTRACT FROM AUTHOR]

Published

2022

43. Memory and the value of social information in foraging bumble bees.

Author

Abts, Benjamin J. and Dunlap, Aimee S.

Subjects

*COLLECTIVE memory, *SOCIAL values, *BUMBLEBEES, *BEES, *SOCIAL learning

Abstract

Not all information should be learned and remembered. The value of information is tied to the reliability and certainty of that information, which itself is determined by rates of environmental change, both within and across lifetimes. Theory of adaptive forgetting and remembering posits that memory should reflect the environment, with more valuable information remembered for longer amounts of time. Theory on biological preparedness predicts that rates of reliability through evolutionary time should influence what is learned and remembered. We use these ideas to predict that differential memory use will reflect the underlying value of the information being learned. We test this by comparing the learning and memory of social information versus floral information in foraging bumble bees. Bumble bees are extremely flexible in their use of both types of information and evidence suggests that social information is "special," reflecting biological preparedness. Our experiment tests how bumble bees learn and remember social and floral information when their reliabilities, and thus value, differ. We find that bees learn both types of information at a similar speed. Bees show a decrement of memory of the trained associations in both treatments, but retain trained socially reliable information for longer, at both 4-hour and 8-hour retention intervals. Both training treatments influence whether bees match or avoid the locations of demonstrators, and this interacts with retention interval. Bees trained under reliable floral cues and unreliable social cues avoid conspecifics after 8-hr and 24-hr retention intervals. Bees thus learn about the reliability or unreliability of social cues and use this to modify their choices across time. [ABSTRACT FROM AUTHOR]

Published

2022

44. Probing bumblebee gravity with black hole X-ray data.

Author

Gu, Jiale, Riaz, Shafqat, Abdikamalov, Askar B., Ayzenberg, Dimitry, and Bambi, Cosimo

Subjects

*BLACK holes, *BUMBLEBEES, *GRAVITY, *X-rays, *SYMMETRY breaking

Abstract

Bumblebee gravity is one of the simplest gravity theories with spontaneous Lorentz symmetry breaking. Since we know a rotating black hole solution in bumblebee gravity, we can potentially test this model with the available astrophysical observations of black holes. In this work, we construct a reflection model in bumblebee gravity and we use our model to analyze the reflection features of a NuSTAR spectrum of the Galactic black hole EXO 1846-031 in order to constrain the Lorentz-violating parameter ℓ . We find that the analysis of the reflection features in the spectrum of EXO 1846-031 cannot constrain the parameter ℓ because of a very strong degeneracy between the estimates of ℓ and of the black hole spin parameter a ∗ . Such a degeneracy may be broken by combining other observations. [ABSTRACT FROM AUTHOR]

Published

2022

45. Superradiance scattering off Kerr-like black hole and its shadow in the bumblebee gravity with noncommutative spacetime.

Author

Jha, Sohan Kumar and Rahaman, Anisur

Subjects

*BLACK holes, *SUPERRADIANCE, *SPACETIME, *BUMBLEBEES, *GRAVITY

Abstract

We consider a bumblebee gravity-based Kerr-like black hole in a noncommutative (NC) background and study the superradiance effect and the shadow cast. We extensively study the different aspects of the black hole associated with a generalized Kerr-like spacetime metric endowed with the corrections jointly linked with Lorentz violation and NC spacetime effect. We examine the deviation of shape, and size of the ergosphere, energy emission rate, in this generalized situation. We also examine the influence of admissible values of Lorentz violating parameter ℓ and NC parameter b on the superradiance effect and shadow of the black hole. The admissible range has been determined from the observation of the Event Horizon Telescope (EHT) collaboration concerning M 87 ∗ astronomical black hole. We observe that the superradiance phenomena has a crucial dependence on the parameter ℓ and b apart from its dependence on a or a ^ = ℓ + 1 a which is linked with the spin of the black hole. We also observe that with the increase in Lorentz violating parameter ℓ , the size of the black hole shadow increases, and with the increase in the NC parameter b the size of the black hole decreases. We have made an attempt to constrain the NC parameters b of this modified Kerr-like black hole by using the data available from the Event Horizon Telescope (EHT) collaboration. This study shows that black holes associated with NC Kerr-like spacetime may be a suitable candidate for the astrophysical black holes. [ABSTRACT FROM AUTHOR]

Published

2022

46. Elevated Temperature May Affect Nectar Microbes, Nectar Sugars, and Bumble Bee Foraging Preference.

Author

Russell, Kaleigh A. and McFrederick, Quinn S.

Subjects

*HONEY plants, *BUMBLEBEES, *HIGH temperatures, *NECTAR, *POLLINATORS, *MICROORGANISMS, *SUGARS

Abstract

Floral nectar, an important resource for pollinators, is inhabited by microbes such as yeasts and bacteria, which have been shown to influence pollinator preference. Dynamic and complex plant-pollinator-microbe interactions are likely to be affected by a rapidly changing climate, as each player has their own optimal growth temperatures and phenological responses to environmental triggers, such as temperature. To understand how warming due to climate change is influencing nectar microbial communities, we incubated a natural nectar microbial community at different temperatures and assessed the subsequent nectar chemistry and preference of the common eastern bumble bee, Bombus impatiens. The microbial community in floral nectar is often species-poor, and the cultured Brassica rapa nectar community was dominated by the bacterium Fructobacillus. Temperature increased the abundance of bacteria in the warmer treatment. Bumble bees preferred nectar inoculated with microbes, but only at the lower, ambient temperature. Warming therefore induced an increase in bacterial abundance which altered nectar sugars and led to significant differences in pollinator preference. [ABSTRACT FROM AUTHOR]

Published

2022

47. Exact modifications on a vacuum spacetime due to a gradient bumblebee field at its vacuum expectation value.

Author

Poulis, F. P. and Soares, M. A. C.

Subjects

*BUMBLEBEES, *SPACETIME, *SYMMETRY

Abstract

This work belongs to the context of the standard-model extension, in which a Lorentz symmetry violation is induced by a bumblebee field as it acquires a nonzero vacuum expectation value. The mathematical formulation of a generic bumblebee model and its associated dynamical equations are presented. Then, these equations are considered for the vacuum and a substantial simplification is performed for the particular case of a gradient bumblebee field at its vacuum expectation value. After some further manipulation, a method to easily find solutions to the model is developed, in which the exact effect on the spacetime description due to the presence of this bumblebee field is explicitly provided. As some examples, the method is applied to determine the implications of the bumblebee field on the Schwarzschild spacetime and also on a rotating one. A previously published solution is recovered and some new ones are obtained. In the rotating situation, a simple solution is found which contains both the Kerr solution and the already published one as special cases. It is also shown its distinguished surfaces are still given by the same corresponding expressions for the Kerr solution. In conclusion, the mathematical improvement made is considered to be a significant contribution to the theory as a powerful tool to investigate its many aspects and consequences. [ABSTRACT FROM AUTHOR]

Published

2022

48. Black Hole Shadows Constrain Extended Gravity.

Author

Prokopov, V. A., Alexeyev, S. O., and Zenin, O. I.

Subjects

*BLACK holes, *GRAVITY, *QUANTUM gravity, *BUMBLEBEES, *SCHWARZSCHILD black holes

Abstract

The first images of black hole shadows open new possibilities to constrain modern extended gravity theories. We present the method of shadow background calculation for black hole solutions in the form of Taylor series where g11 = – . The method is extended to general nonrotating case g11 ≠ – . The results of the analysis are compared with the predictions of General relativity taking into account the Event Horizon Telescope data. The results for the Horndesky model with the Gauss–Bonnet invariant, loop quantum gravity, Bumblebee model and Gauss–Bonnet gravity are in full agreement with the observations of M87*. In conformal gravity, large values of m2 and Qs must be excluded. In STEGR f(Q) gravity the observational limits on the parameter α are: –0.025 < α < 0.04. For an alternative generalization of the Bumblebee model with the Schwarzschild approximation: –0.3 < l < 0.45. These results demonstrate the maximum one can achieve without taking into account of the rotation of a black hole. [ABSTRACT FROM AUTHOR]

Published

2022

49. Effect of urbanization and its environmental stressors on the intraspecific variation of flight functional traits in two bumblebee species.

Author

Tommasi, Nicola, Pioltelli, Emiliano, Biella, Paolo, Labra, Massimo, Casiraghi, Maurizio, and Galimberti, Andrea

Subjects

*BUMBLEBEES, *BOMBUS terrestris, *URBANIZATION, *INSECT development, *AIR pollutants, *URBAN heat islands

Abstract

The way urbanization shapes the intraspecific variation of pollinator functional traits is little understood. However, this topic is relevant for investigating ecosystem services and pollinator health. Here, we studied how urbanization affects the functional traits of workers in two bumblebee species (Bombus terrestris and B. pascuorum) sampled in 37 sites along a gradient of urbanization in North Italy (an area of 1800 km2 including the metropolitan context of Milan and other surrounding capital districts). Namely, we investigated the effect of land use composition, configuration, air temperature, flower resource abundance, and air pollutants on the variation of traits related to flight performance and of stress during insect development (i.e., wing size, wing shape and size fluctuating asymmetry). The functional traits of the two bumblebees responded idiosyncratically to urbanization. Urban temperatures were associated with smaller wing sizes in B. pascuorum and with more accentuated fluctuating asymmetry of wing size in B. terrestris. Moreover, flower abundance correlated with bigger wings in B. terrestris and with less asymmetric wing size in B. pascuorum. Other traits did not vary significantly, and other urban variables played minor effects. These species-specific variation patterns highlight that environmental stressor linked to urbanization negatively impact the traits related to flight performance and development stability of these syntopic bumblebees, with possible consequences on the pollination service they provide. [ABSTRACT FROM AUTHOR]

Published

2022

50. An intelligent trust sensing scheme with metaheuristic based secure routing protocol for Internet of Things.

Author

Gali, Sowmya and Nidumolu, Venkatram

Subjects

*INTERNET protocols, *INTERNET of things, *BUMBLEBEES, *COMPUTER network security, *DATA transmission systems, *METAHEURISTIC algorithms, *ROUTING algorithms

Abstract

The Internet of Things (IoT) defines the network of physical objects, commonly used to interconnect and communicate with other devices through the internet. Security is highly essential in IoT based communication owing to the massive heterogeneity of devices involved in the network. The interlinked systems in IoT, requires the trusted model for assuring security, authenticity, authorization and confidentiality of interconnected things, irrespective of the functionalities. Considering the challenges in the provision of security in the IoT network, this paper proposes a new chaotic bumble bees mating optimization (CBBMO) algorithm for secure data transmission with trust sensing model, called CBBMOR-TSM model. The BBMO is stimulated by the mating nature of a swarm of bumble bees. To improve the convergence rate of the BBMO technique, the CBBMO model is defined by the integration of chaotic concept into the classical BBMO technique. The aim of the proposed model is to design a trust sensing model and perform secure routing using the CBMO algorithm. The proposed model initially designs a trust sensing model by incorporating indirect and direct trusts that are utilized to determine the trust values of the IoT nodes and thereby the malicious node can be identified. In addition, the secure routing process is invoked using the CMBO algorithm by using the trust sensing model to determine an optimal and secure path for data transmission. To examine the superior performance of the presented method, an extensive set of experiments are performed and the results are investigated in terms of different measures. The CBBMOR-TSM model has attained a higher average PDR of 0.931 and lower average PLR of 0.069 whereas the TRM_IOT, OSEAP_IOT and MCTAR-IOT methods have achieved a maximum PLR of 0.219, 0.161 and 0.110 respectively. [ABSTRACT FROM AUTHOR]

Published

2022