Your search keyword '"Bumblebees"' showing total 2,439 results

1. The AES Young Entomologists' Day 2024 at the Natural History Museum (NHM, London).

Author

Noble, Mike, Reinisch, Sophia, Burton, Victoria J., and Garner, Beulah

Subjects

*NATURAL history museums, *ENTOMOLOGISTS, *BUMBLEBEES, *PHASMIDA, *BIOLOGICAL pest control agents, *LUMIX digital camera, *COCKROACHES

Abstract

The article offers information on the Amateur Entomologists Society (AES) Young Entomologists' Day 2024 at the Natural History Museum in London, England. Topics discussed include the presentations by young entomologists; collaborations with youth nature groups and conservation trusts; and discussions on insect diversity, behavior and their cultural impact in computer games, design and fashion.

Published

2024

2. Field agrochemical exposure impacts locomotor activity in wild bumblebees.

Author

Strang, Caroline G., Rondeau, Sabrina, Baert, Nicolas, McArt, Scott H., Raine, Nigel E., and Muth, Felicity

Subjects

*PYRETHROIDS, *AGRICULTURAL chemicals, *BUMBLEBEES, *LIQUID chromatography-mass spectrometry, *AGRICULTURE, *BEE behavior, *ORGANIC farming

Abstract

Agricultural intensification has been identified as one of the key causes of global insect biodiversity losses. These losses have been further linked to the widespread use of agrochemicals associated with modern agricultural practices. Many of these chemicals are known to have negative sublethal effects on commercial pollinators, such as managed honeybees and bumblebees, but less is known about the impacts on wild bees. Laboratory‐based studies with commercial pollinators have consistently shown that pesticide exposure can impact bee behavior, with cascading effects on foraging performance, reproductive success, and pollination services. However, these studies typically assess only one chemical, neglecting the complexity of real‐world exposure to multiple agrochemicals and other stressors. In the summer of 2020, we collected wild‐foraging workers of the common eastern bumblebee, Bombus impatiens, from five squash (Cucurbita) agricultural sites (organic and conventional farms), selected to represent a range of agrochemical, including neonicotinoid insecticide, use. For each bee, we measured two behaviors relevant to foraging success and previously shown to be impacted by pesticide exposure: sucrose responsiveness and locomotor activity. Following behavioral testing, we used liquid chromatography–tandem mass spectrometry (LC–MS/MS) chemical analysis to detect and quantify the presence of 92 agrochemicals in each bumblebee. Bees collected from our sites did not vary in pesticide exposure as expected. While we found a limited occurrence of neonicotinoids, two fungicides (azoxystrobin and difenoconazole) were detected at all sites, and the pesticide synergist piperonyl butoxide (PBO) was present in all 123 bees. We found that bumblebees that contained higher levels of PBO were less active, and this effect was stronger for larger bumblebee workers. While PBO is unlikely to be the direct cause of the reduction in bee activity, it could be an indicator of exposure to pyrethroids and/or other insecticides that we were unable to directly quantify, but which PBO is frequently tank‐mixed with during pesticide applications on crops. We did not find a relationship between agrochemical exposure and bumblebee sucrose responsiveness. To our knowledge, this is the first evidence of a sublethal behavioral impact of agrochemical exposure on wild‐foraging bees. [ABSTRACT FROM AUTHOR]

Published

2024

3. 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

4. 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

5. Deep learning for identifying bee species from images of wings and pinned specimens.

Author

Spiesman, Brian J., Gratton, Claudio, Gratton, Elena, and Hines, Heather

Subjects

*DEEP learning, *HALICTIDAE, *CONVOLUTIONAL neural networks, *BUMBLEBEES, *BEES, *COMPUTER vision, *SPECIES

Abstract

One of the most challenging aspects of bee ecology and conservation is species-level identification, which is costly, time consuming, and requires taxonomic expertise. Recent advances in the application of deep learning and computer vision have shown promise for identifying large bumble bee (Bombus) species. However, most bees, such as sweat bees in the genus Lasioglossum, are much smaller and can be difficult, even for trained taxonomists, to identify. For this reason, the great majority of bees are poorly represented in the crowdsourced image datasets often used to train computer vision models. But even larger bees, such as bumble bees from the B. vagans complex, can be difficult to separate morphologically. Using images of specimens from our research collections, we assessed how deep learning classification models perform on these more challenging taxa, qualitatively comparing models trained on images of whole pinned specimens or on images of bee forewings. The pinned specimen and wing image datasets represent 20 and 18 species from 6 and 4 genera, respectively, and were used to train the EfficientNetV2L convolutional neural network. Mean test precision was 94.9% and 98.1% for pinned and wing images respectively. Results show that computer vision holds great promise for classifying smaller, more difficult to identify bees that are poorly represented in crowdsourced datasets. Images from research and museum collections will be valuable for expanding classification models to include additional species, which will be essential for large scale conservation monitoring efforts. [ABSTRACT FROM AUTHOR]

Published

2024

6. Bumble Bee Watch community science program increases scientific understanding of an important pollinator group across Canada and the USA.

Author

MacPhail, Victoria J., Hatfield, Richard, and Colla, Sheila R.

Subjects

*BUMBLEBEES, *COMMUNITY-based programs, *POLLINATORS, *APIDAE, *SCIENTIFIC method, *IDENTIFICATION

Abstract

In a time of increasing threats to bumble bees (Hymenoptera: Apidae: Bombus), it is important to understand their ecology and distribution. As experts are limited in resources to conduct field surveys, there is potential for community scientists to help. The Bumble Bee Watch (BBW) community science program involves volunteers taking photos of bumble bees in Canada and the USA and submitting them, along with geographic and optional plant information, to a website or through an app. Taxon experts then verify the bee species identification. The Bumble Bees of North America database (BBNA) stores data (no photographs) collected and identified by more traditional scientific methods over the same range. Here we compared BBW data to BBNA data over all years and just 2010–2020 to understand the scientific contribution of community scientists to the state of the knowledge about native bumble bees. We found that BBW had similar geographic and species coverage as BBNA. It had records from all 63 provinces, states, and territories where bumble bees occur (including four more than BBNA in 2010–2020), and represented 41 of the 48 species in BBNA (with ten more species than BBNA in 2010–2020). While BBW contributed only 8.50% of records overall, it contributed 25.06% of all records over 2010–2020. BBW confirmed the persistence of species and identified new locations of species, both inside and outside of the previously known extent of occurrences. BBW also contributed a wealth of ecological information, such as unique plant genera and species data for almost all the bee species. Thus, while BBW had fewer bee records than the BBNA database overall, it helped to fill in data gaps and provided novel information, complementing the traditional methods. This community science program is valuable in helping to inform conservation management for bumble bee species. [ABSTRACT FROM AUTHOR]

Published

2024

7. Crop type rather than production method determines functional trait composition of insect communities on arable land in boreal agricultural landscapes.

Author

Toivonen, Marjaana, Huusela, Erja, Hyvönen, Terho, Järvinen, Ari, and Kuussaari, Mikko

Abstract

To understand the potential consequences of arable land use changes for insect conservation and ecosystem functioning, it is fundamental to know how insect species with different functional traits respond to crop choice and production method. This study examined the effects of crop type and production method on functional traits of butterfly, bumblebee and carabid beetle communities using species abundance data from 78 fields in Southern Finland. Surrounding landscape composition was also accounted for. The studied traits were associated with dispersal capacity, habitat or diet specialization and phenology—the key determinants modifying species responses to agricultural disturbances and land use changes. Butterfly habitat breadth was narrowest and wingspan shortest in long‐term fallows. Fallows also supported the highest share of butterflies overwintering in early development stages and bumblebees with late‐emerging queens. The tongue length of bumblebees was longest in organic oat fields, probably due to flowering weeds with long corolla. For carabid beetles, the proportion of poor flyers and carnivores was highest in perennial crops and fallows. Carabid beetles overwintering as adults were relatively more abundant in organic than in conventional production, probably due to more intensive tillage in organic fields. In all insect groups, poor dispersers and/or specialists decreased with increasing arable land cover in the surrounding landscape. Increasing the area of long‐term fallows and perennial crops and enhancing within‐field plant diversity while maintaining landscape heterogeneity would promote insect species sensitive to agricultural disturbances and land use changes and their associated ecosystem services in boreal farmland. [ABSTRACT FROM AUTHOR]

Published

2024

8. The genetic structure of founding bumblebee populations in reconstructed prairie habitat 3 years after planting.

Author

Bruns, Clarissa E., Demastes, James W., Berendzen, Peter B., and Wen, Ai

Abstract

The decline of wild bee pollinators has prompted habitat reconstruction in many regions around the world in order to increase the floral resources available to pollinators. Relatively little research has monitored the genetic differentiation and the relatedness of founding bumblebee populations during the colony recruitment process after vegetation is planted in the landscape. We surveyed nine 3‐year post‐planting reconstructed prairie sites located in the corn belt of the U.S. Midwest, where the landscape is largely dominated by industrialized row crops. Using seven microsatellite loci from 103 Bombus griseocollis, we examined the population genetics of this generalist bee's colonies established on these newly constructed prairie sites. When analyzed, B. griseocollis populations from an older reconstructed site were more genetically distinct from newly established bumblebee populations on reconstructed sites, while the new reconstructed sites exhibited no genetic structure. The floral richness or abundance at the reconstructed sites did not contribute to the allelic richness of the recolonized bumblebee populations. We did, however, find significant negative correlations between the bumblebee populations' allelic richness and the percent coverage of row‐crop farmland in the surrounding landscape and positive correlations between the allelic richness and forest and woody wetland habitat covers. This finding strongly indicates the importance of the composition of the surrounding landscape in the recruitment period of the founding pollinator populations. [ABSTRACT FROM AUTHOR]

Published

2024

9. Acute Imidacloprid Exposure Alters Mitochondrial Function in Bumblebee Flight Muscle and Brain.

Author

Sargent, Chloe, Ebanks, Brad, Hardy, Ian C. W., Davies, T. G. Emyr, Chakrabarti, Lisa, and Stöger, Reinhard

Subjects

*IMIDACLOPRID, *POLLINATORS, *BOMBUS terrestris, *CELL respiration, *POLLINATION, *BUMBLEBEES, *MITOCHONDRIA

Abstract

Mitochondria are intracellular organelles responsible for cellular respiration with one of their major roles in the production of energy in the form of ATP. Activities with increased energetic demand are especially dependent on efficient ATP production, hence sufficient mitochondrial function is fundamental. In bees, flight muscle and the brain have particularly high densities of mitochondria to facilitate the substantial ATP production required for flight activity and neuronal signalling. Neonicotinoids are systemic synthetic insecticides that are widely utilised against crop herbivores but have been reported to cause, by unknown mechanisms, mitochondrial dysfunction, decreasing cognitive function and flight activity among pollinating bees. Here we explore, using high-resolution respirometry, how the neonicotinoid imidacloprid may affect oxidative phosphorylation in the brain and flight muscle of the buff-tailed bumblebee, Bombus terrestris. We find that acute exposure increases routine oxygen consumption in the flight muscle of worker bees. This provides a candidate explanation for prior reports of early declines in flight activity following acute exposure. We further find that imidacloprid increases the maximum electron transport capacity in the brain, with a trend towards increased overall oxygen consumption. However, intra-individual variability is high, limiting the extent to which apparent effects of imidacloprid on brain mitochondria are shown conclusively. Overall, our results highlight the necessity to examine tissue-specific effects of imidacloprid on respiration and energy production. [ABSTRACT FROM AUTHOR]

Published

2024

10. 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

11. Insects as indicators of Key Biodiversity Areas.

Author

Nania, Dario, Mei, Maurizio, Pacifici, Michela, Rondinini, Carlo, De Biase, Alessio, Michez, Denis, and Cerretti, Pierfilippo

Subjects

*NUMBERS of species, *INSECT conservation, *INSECTS, *INSECT populations, *SUBSPECIES, *BUMBLEBEES

Abstract

Global change is affecting insect populations worldwide as species declines have been reported from different areas of the planet.Novel approaches such as the identification of Key Biodiversity Areas (KBAs) could detect areas of high biodiversity value for insect populations. The KBA approach relies on standardised criteria to identify important sites for biodiversity persistence. The application of such criteria to large numbers of species would significantly accelerate the KBA mapping process.A systematic application of KBA criteria has not been tested on insects, and very little is known about the efficiency and limits of such methodology.We applied four KBA criteria in Italy to 28 species/subspecies of bumblebees and identified potential KBAs for one species and three subspecies. Potential KBAs are only partially nested within current Italian KBAs and the protected areas network. When compared with potential KBAs of vertebrate species identified with the same methodology, the degree of nesting is only 12%.Our results provide evidence of a tendency of the KBA network to expand as more species are assessed, raising questions about the ability of the criteria to detect areas that truly are key for biodiversity and not just for specific taxa. We also highlight issues regarding the use of KBA criteria on insects, such as data availability and the use of subspecies. Further large‐scale assessments of KBAs will reveal the true potential of application of the KBA approach for insect conservation, and whether it actually may slow down the loss of important units of their extraordinary diversity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Reproductive biology in Gomphichis valida Rchb. f. (Orchidaceae: Orchidoideae, Cranichidinae): Generalist pollination in a high‐Andean terrestrial orchid with long‐lived flowers.

Author

Calderon‐Quispe, Fernando H. and Bustos Singer, Rodrigo

Subjects

*POLLINATION, *ORCHIDS, *POLLINATORS, *FLOWERS, *HALICTIDAE, *BIOLOGY

Abstract

Floral features, the pollination process, the breeding system, and fruiting success are documented in the Andean terrestrial orchid Gomphichis valida. Studies were performed at the Department of Ancash, Peru, at ca. 4250 m a.s.l., from June to November 2022. The breeding system was studied through controlled pollinations in plants excluded from pollinators (bagged). Natural pollination was studied in the field and through photos and videos. The flowers are nectariferous and non‐protandrous and present the longest lifespan reported so far for a neotropical terrestrial orchid (53–80 days). This species is pollinator dependent (unable to set fruit and seed without the agency of pollinators) and self‐compatible. The observed pollinators belong to three functional groups that appeared successively (in order of appearance): hummingbirds (Chalcostigma stanleyi), bumblebees (Bombus coccineus and Bombus rubicundus), and solitary Halictidae bees (Augochlorella sp.). All recorded pollinators probe the flowers for nectar. The pollinaria adhere to the bee mouthparts and onto the lateral side of the hummingbird bill. Bumblebees were the most frequent and efficient functional group (up to 62.07% of the observed pollination events), followed by Halictidae (31.03%) and hummingbirds (6.90%). Natural fruiting success is high (66.66%–94.49%). Such high natural fruiting success is unexpected at high altitudes, but it is likely explained by a combination of factors, including the long floral lifespan, nectar secretion, and self‐compatibility. This is the first report of hummingbirds as pollinators of Cranichidinae orchids, and G. valida is, to the best of our knowledge, a neotropical orchidoid orchid with the most generalist pollination biology recorded so far. [ABSTRACT FROM AUTHOR]

Published

2024

13. Floral resource partitioning of coexisting bumble bees: Distinguishing species‐, colony‐, and individual‐level effects.

Author

Ye, Zhong‐Ming, He, Yong‐Deng, Bergamo, Pedro J., Orr, Michael C., Huang, Wen, Jin, Xiao‐Fang, Lun, Han‐Ning, Wang, Qing‐Feng, and Yang, Chun‐Feng

Subjects

*BUMBLEBEES, *NUMBERS of species, *COMPETITION (Biology), *SPECIES diversity, *BODY size, *COMMUNITY centers

Abstract

Resource partitioning is considered a key factor in alleviating competitive interactions, enabling coexistence among consumer species. However, most studies have focused on resource partitioning between species, ignoring the potentially critical role of intraspecific variation in resource use. We investigated floral resource partitioning across species, colonies, and individuals in a species‐rich bumblebee community in the diversification center of bumblebees. We used a total of 10,598 bumblebees belonging to 13 species across 5 years in the Hengduan Mountains of southwest China. First, we evaluated the influence of a comprehensive set of floral traits, including both those related to attractiveness (flower color and shape) and rewards (pollen, sugar ratio, nectar volume, sugar concentration, and amino acid content) on resource partitioning at the species level in bumblebee–plant networks. Then, we explored intraspecific resource partitioning on the colony and individual levels. Our results suggest that bumblebee species differ substantially in their use of the available floral resources, and that this mainly depends on flower attractiveness (floral color and shape). Interestingly, we also detected floral resource partitioning at the colony level within all commonest bumblebee species evaluated. In general, floral resource partitioning between bumblebee individuals decreased with species‐ and individual‐level variation in body size (intertegular span). These results suggest that bumblebee species may coexist via the flexibility in their preferences for specific floral traits, which filters up to support the co‐occurrence of high numbers of species and individuals in this global hotspot of species richness. [ABSTRACT FROM AUTHOR]

Published

2024

14. Host Barriers Limit Viral Spread in a Spillover Host: A Study of Deformed Wing Virus in the Bumblebee Bombus terrestris.

Author

Streicher, Tabea, Brinker, Pina, Tragust, Simon, and Paxton, Robert J.

Subjects

*BOMBUS terrestris, *VIRAL transmission, *HONEYBEES, *BUMBLEBEES, *BEES, *HEMOLYMPH, *FECES, *POLLINATORS, *POLLINATION

Abstract

The transmission of pathogens from reservoir to recipient host species, termed pathogen spillover, can profoundly impact plant, animal, and public health. However, why some pathogens lead to disease emergence in a novel species while others fail to establish or do not elicit disease is often poorly understood. There is strong evidence that deformed wing virus (DWV), an (+)ssRNA virus, spills over from its reservoir host, the honeybee Apis mellifera, into the bumblebee Bombus terrestris. However, the low impact of DWV on B. terrestris in laboratory experiments suggests host barriers to virus spread in this recipient host. To investigate potential host barriers, we followed the spread of DWV genotype B (DWV-B) through a host's body using RT-PCR after experimental transmission to bumblebees in comparison to honeybees. Inoculation was per os, mimicking food-borne transmission, or by injection into the bee's haemocoel, mimicking vector-based transmission. In honeybees, DWV-B was present in both honeybee faeces and haemolymph within 3 days of inoculation per os or by injection. In contrast, DWV-B was not detected in B. terrestris haemolymph after inoculation per os, suggesting a gut barrier that hinders DWV-B's spread through the body of a B. terrestris. DWV-B was, however, detected in B. terrestris faeces after injection and feeding, albeit at a lower abundance than that observed for A. mellifera, suggesting that B. terrestris sheds less DWV-B than A. mellifera in faeces when infected. Barriers to viral spread in B. terrestris following oral infection may limit DWV's impact on this spillover host and reduce its contribution to the community epidemiology of DWV. [ABSTRACT FROM AUTHOR]

Published

2024

15. Niche analyses and the potential distribution of four invasive bumblebees worldwide.

Author

López‐Aguilar, Tania Paola, Montalva, Jose, Vilela, Bruno, Arbetman, Marina P., Aizen, Marcelo A., Morales, Carolina L., and Silva, Daniel de Paiva

Subjects

*BUMBLEBEES, *NATIVE species, *INTRODUCED species, *AGRICULTURAL productivity, *BEES, *SPECIES

Abstract

The introduction of bees for agricultural production in distinct parts of the world and poor management have led to invasion processes that affect biodiversity, significantly impacting native species. Different Bombus species with invasive potential have been recorded spreading in different regions worldwide, generating ecological and economic losses. We applied environmental niche and potential distribution analyses to four species of the genus Bombus to evaluate the similarities and differences between their native and invaded ranges. We found that B. impatiens has an extended environmental niche, going from dry environmental conditions in the native range to warmer and wetter conditions in the invaded range. Bombus ruderatus also exhibited an extended environmental niche with drier and warmer conditions in the invaded range than in its native range. Bombus subterraneus expanded its environmental niche from cooler and wetter conditions in the native range to drier and warmer conditions in the invaded range. Finally, B. terrestris showed the most significant variation in the environmental niche, extending to areas with similar and different environmental conditions from its native range. The distribution models agreed with the known distributions for the four Bombus species, presenting geographic areas known to be occupied by each species in different regions worldwide. The niche analysis indicate shifts in the niches from the native to the invaded distribution area of the bee species. Still, niche similarities were observed in the areas of greatest suitability in the potential distribution for B. ruderatus, B. subterraneus, and B. terrestris, and to a lesser degree in the same areas with B. impatiens. These species require similar environmental conditions as in their native ranges to be established in their introduced ranges. Still, they can adapt to changes in temperature and humidity, allowing them to expand their ranges into new climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

16. Bumble bees' food preferences are jointly shaped by rapid evaluation of nectar sugar concentration and viscosity.

Author

Zhou, Yonghe, Ding, Shuyi, Liao, Caiying, Wu, Jianing, Chittka, Lars, Solvi, Cwyn, and Peng, Fei

Subjects

*BUMBLEBEES, *FOOD preferences, *POLLINATION, *BOMBUS terrestris, *NECTAR, *ECONOMIC decision making, *VISCOSITY, *HONEY

Abstract

Animals are often assumed to follow a strategy of energy maximization, and therefore should evaluate feeding options based on energy intake rates. However, at the proximal level, a direct estimate of energy intake rates, if that is possible at all, might require postabsorptive senses with relatively longer processing times, whereas an indirect estimate of energy intake through proxies like pre-absorptive senses of different sensory food properties might support rapid foraging decisions. Here, we show that nectar sugar concentration (sweetness) and nectar viscosity (resistance) drive preferences of bumble bees, Bombus terrestris , classical models for economic and foraging decision making. Using a tasteless/odourless biopolymer (Tylose), we created feeding options that differed in sweetness and resistance, properties that affect energy intake rate and can be immediately sensed. When energy intake rates were similar, bumble bees developed preferences based on sweetness and resistance. When energy intake rates were different, but sweetness and resistance were balanced against each other, bees developed no preferences. Decision dynamics during training indicated that bumble bees simultaneously evaluated sweetness and resistance to make decisions quickly (in seconds). These results suggest that bumble bees' food preferences are jointly affected by the immediate sensation of nectar sweetness and resistance as positively and negatively reinforcing properties, respectively, indicating a pre-absorptive proximate mechanism for rapid energy-sensitive decisions in bumble bees. • Bumble bees develop preferences based on nectar sugar concentration and viscosity. • Bumble bees quickly sample and compare the sensory properties of feeding options. • Pre-ingestive information contributes to bumble bees' floral preferences. [ABSTRACT FROM AUTHOR]

Published

2024

17. 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

18. Revealing the genome of the microsporidian Vairimorpha bombi, a potential driver of bumble bee declines in North America.

Author

Webster, Victoria L, Hemmings, Samuel, Pérez, Marta, Fisher, Matthew C, Brown, Mark J F, and Farrer, Rhys A

Subjects

*BUMBLEBEES, *GENOMES, *HISTONE acetyltransferase, *EMERGING infectious diseases, *GENOMICS, *MOUNTAIN ecology, *MOUNTAIN soils

Abstract

Pollinators are vital for food security and the maintenance of terrestrial ecosystems. Bumblebees are important pollinators across northern temperate, arctic, and alpine ecosystems, yet are in decline across the globe. Vairimorpha bombi is a parasite belonging to the fungal class Microsporidia that has been implicated in the rapid decline of bumblebees in North America, where it may be an emerging infectious disease. To investigate the evolutionary basis of pathogenicity of V. bombi , we sequenced and assembled its genome using Oxford Nanopore and Illumina technologies and performed phylogenetic and genomic evolutionary analyses. The genome assembly for V. bombi is 4.73 Mb, from which we predicted 1,870 protein-coding genes and 179 tRNA genes. The genome assembly has low repetitive content and low GC content. V. bombi 's genome assembly is the smallest of the Vairimorpha and closely related Nosema genera, but larger than those found in the Encephalitozoon and Ordospora sister clades. Orthology and phylogenetic analysis revealed 18 core conserved single-copy microsporidian genes including the histone acetyltransferase (HAT) GCN5. Surprisingly, V. bombi was unique to the microsporidia in not encoding the second predicted HAT ESA1. The V. bombi genome assembly annotation included 265 unique genes (i.e. not predicted in other microsporidia genome assemblies), 20% of which encode a secretion signal, which is a significant enrichment. Intriguingly, of the 36 microsporidian genomes we analyzed, 26 also had a significant enrichment of secreted signals encoded by unique genes, ranging from 6 to 71% of those predicted genes. These results suggest that microsporidia are under selection to generate and purge diverse and unique genes encoding secreted proteins, potentially contributing to or facilitating infection of their diverse hosts. Furthermore, V. bombi has 5/7 conserved spore wall proteins (SWPs) with its closest relative V. ceranae (that primarily infects honeybees), while also uniquely encoding four additional SWPs. This gene class is thought to be essential for infection, providing both environmental protection and recognition and uptake into the host cell. Together, our results show that SWPs and unique genes encoding a secretion signal are rapidly evolving in the microsporidia, suggesting that they underpin key pathobiological traits including host specificity and pathogenicity. [ABSTRACT FROM AUTHOR]

Published

2024

19. Insight on kleptoparasitic bee, Melecta chinensis (hymenoptera: Apidae), in the Republic of Korea: Morphology, biology and molecular characteristics.

Author

Kim, Sora, Lim, Kayun, Park, Duk‐Young, Park, Jinsung, Jeong, In‐Won, and Lee, Seunghwan

Subjects

*MOLECULAR biology, *APIDAE, *MITOCHONDRIAL DNA, *HYMENOPTERA, *BEES, *BUMBLEBEES, *BEE colonies

Abstract

This study focused on a kleptoparasitic bee, Melecta chinensis, which is not well‐known in the Republic of Korea. We provided a detailed morphological illustration of the adult bees and their nesting biological characteristics with distributional data. Additionally, the complete mitochondrial genome of the species is presented for the first time, and its phylogenetic position within the family Apidae is estimated. As a result, we could suggest a full redescription of M. chinenesis for identification and a newly reported potential flower host for it. In addition, the mitochondrial DNA (mtDNA) of M. chinensis is revealed as 15,489 base pairs (bp) long, with 35 eukaryotic mitochondrial genes (13PCGs, 2 rRNAs, and 20 tRNAs) and a 706 bp AT‐rich region. The overall base composition is 75.82% AT and 24.18% GC. The 13 protein‐coding genes (PCGs) started with a typical ATN codon (ATA in nine genes and ATG in four genes) and terminated with TNN (TAN in 10 genes and TTT in one gene) or ANN (AAC in one gene and ATT in one gene). The phylogenetic results based on 13 PCGs showed that M. chinensis is distantly positioned to bumble bees (Bombus) and honey bees (Apis) but closely related to a stingless bee, Frieseomelitta varia, within the family. [ABSTRACT FROM AUTHOR]

Published

2024

20. Bumblebee Foraging Dynamics and Pollination Outcomes for Cherry Tomato and Pear Varieties in Northern China.

Author

Huang, Xunbing, Zhang, Qianwen, Sheikh, Umer Ayyaz Aslam, Wang, Yueyue, and Zheng, Li

Subjects

*POLLINATION, *PEARS, *BUMBLEBEES, *BOMBUS terrestris, *CROP management, *TOMATOES, *ORCHARDS, *BEEKEEPING

Abstract

Simple Summary: Bumblebees are well-suited pollinators of economic crops. This study evaluated the foraging behavior and pollination effects of Bombus terrestris on cherry tomatoes and pears in northern China. B. terrestris pollination can improve cultivation efficiency, increase yield, and produce more economic benefits, which indicates that it has great potential in pollination applications for cherry tomatoes and pears in northern China. Bumblebees (Bombus terrestris) have strong environmental adaptability and high pollen transfer efficiency, making them well-suited pollinators of economic crops. However, bumblebee pollination is still not widely applied in northern China due to the lack of data on foraging behavior and pollination effects. We conducted a three-year experiment involving cherry tomatoes (Solanum lycopersicum L.) and pears (Pyrus spp.) treated with bumblebee pollination to evaluate the foraging behavior and pollination effects on these two crops. Results showed that B. terrestris had enhanced foraging activities as daytime temperatures rose from 18 °C to 26 °C, as indicated by the increased number of bees leaving the hive and returning bees carrying pollen in greenhouses in winter. There were two peaks in the foraging activity of bumblebees in pear orchards in early spring, which was closely related to the temperature change in the daytime. Undoubtedly, cherry tomatoes treated with B. terrestris had higher fruit setting rate, weight, seed number, and fruit yields compared to those with hormone 2,4-dichlorophenoxyacetic acid treatments, as well as a lower rate of deformed fruits. B. terrestris pollination can significantly increase the fruit setting rate and fruit yield of pears, compared with open pollination, and can fully achieve the effect of hand pollination. B. terrestris pollination can improve cultivation efficiency, increase yield, and produce more economic benefits. Moreover, it can also contribute to reducing hormone residues and ensure the safety of agricultural products. We recommend its application to cherry tomatoes in greenhouses in winter and potential application to pears in orchards in early spring in northern China. However, the risk to local bumblebee species of introducing commercially available bumblebees into orchards should be considered and evaluated in future research. This study provides both empirical support and a theoretical basis for the selection of bumblebees as pollinators in the production of economically important crops and the improvement of crop cultivation management in northern China. [ABSTRACT FROM AUTHOR]

Published

2024

21. Physiological specialization of the brain in bumble bee castes: Roles of dopamine in mating-related behaviors in female bumble bees.

Author

Morigami, Ayaka and Sasaki, Ken

Subjects

*BUMBLEBEES, *DOPAMINE receptors, *DOPAMINE, *BEE behavior, *CASTE, *BEEKEEPERS

Abstract

We aimed to investigate the roles of dopamine in regulating caste-specific behaviors in bumble bees and mating-related behaviors in bumble bee gynes. We examined caste differences in behaviors, biogenic amine levels, and expression levels of genes encoding dopamine receptors in the brains of bumble bees, and analyzed the effects of dopamine-related drugs on bumble bee behavior. Locomotor and flight activities were significantly higher in 8-day-old gynes and light avoidance was significantly lower in 4–8-day-old gynes than in same-aged workers. Brain levels of dopamine and octopamine were significantly higher in 8-day-old gynes than in same-aged workers, but tyramine and serotonin levels did not differ between the castes. Relative expression levels of the dopamine receptor gene BigDop1 were significantly lower in 8-day-old gynes than in same-aged workers, but expression levels of other dopamine receptor genes did not differ between castes. Dopamine significantly enhanced locomotor and flight activities in 7–9-day-old workers, whereas the dopamine receptor antagonist flupentixol inhibited flight activity and mating acceptance in same-aged gynes. These results suggest that dopamine plays important roles in gyne-specific behavior in bumble bees and has a common dopaminergic function in female eusocial bees. [ABSTRACT FROM AUTHOR]

Published

2024

22. Range-wide genetic analysis of an endangered bumble bee (Bombus affinis, Hymenoptera: Apidae) reveals population structure, isolation by distance, and low colony abundance.

Author

Mola, John M, Pearse, Ian S, Boone, Michelle L, Evans, Elaine, Hepner, Mark J, Jean, Robert P, Kochanski, Jade M, Nordmeyer, Cale, Runquist, Erik, Smith, Tamara A, Strange, James P, Watson, Jay, and Koch, Jonathan B U

Subjects

*BUMBLEBEES, *APIDAE, *HYMENOPTERA, *POPULATION differentiation, *WILDLIFE conservation, *POPULATION genetics

Abstract

Declines in bumble bee species range and abundances are documented across multiple continents and have prompted the need for research to aid species recovery and conservation. The rusty patched bumble bee (Bombus affinis) is the first federally listed bumble bee species in North America. We conducted a range-wide population genetics study of B. affinis from across all extant conservation units to inform conservation efforts. To understand the species' vulnerability and help establish recovery targets, we examined population structure, patterns of genetic diversity, and population differentiation. Additionally, we conducted a site-level analysis of colony abundance to inform prioritizing areas for conservation, translocation, and other recovery actions. We find substantial evidence of population structuring along an east-to-west gradient. Putative populations show evidence of isolation by distance, high inbreeding coefficients, and a range-wide male diploidy rate of ~15%. Our results suggest the Appalachians represent a genetically distinct cluster with high levels of private alleles and substantial differentiation from the rest of the extant range. Site-level analyses suggest low colony abundance estimates for B. affinis compared to similar datasets of stable, co-occurring species. These results lend genetic support to trends from observational studies, suggesting that B. affinis has undergone a recent decline and exhibit substantial spatial structure. The low colony abundances observed here suggest caution in overinterpreting the stability of populations even where B. affinis is reliably detected interannually. These results help delineate informed management units, provide context for the potential risks of translocation programs, and help set clear recovery targets for this and other threatened bumble bee species. [ABSTRACT FROM AUTHOR]

Published

2024

23. Assessing habitat connectivity of rare species to inform urban conservation planning.

Author

McCluskey, Eric M., Kuzma, Faith C., Enander, Helen D., Cole‐Wick, Ashley, Coury, Michela, Cuthrell, David L., Johnson, Caley, Kelso, Marianne, Lee, Yu Man, Methner, Diana, Rowe, Logan, Swinehart, Alyssa, and Moore, Jennifer A.

Subjects

*ENDANGERED species, *URBAN planning, *CORRIDORS (Ecology), *HABITATS, *BUMBLEBEES, *TURTLE populations

Abstract

Urbanization is commonly associated with biodiversity loss and habitat fragmentation. However, urban environments often have greenspaces that can support wildlife populations, including rare species. The challenge for conservation planners working in these systems is identifying priority habitats and corridors for protection before they are lost. In a rapidly changing urban environment, this requires prompt decisions informed by accurate spatial information. Here, we combine several approaches to map habitat and assess connectivity for a diverse set of rare species in seven urban study areas across southern Michigan, USA. We incorporated multiple connectivity tools for a comprehensive appraisal of species‐habitat patterns across these urban landscapes. We observed distinct differences in connectivity by taxonomic group and site. The three turtle species (Blanding's, Eastern Box, and Spotted) consistently had more habitat predicted to be suitable per site than other evaluated species. This is promising for this at‐risk taxonomic group and allows conservation efforts to focus on mitigating threats such as road mortality. Grassland and prairie‐associated species (American Bumble Bee, Black and Gold Bumble Bee, and Henslow's Sparrow) had the least amount of habitat on a site‐by‐site basis. Kalamazoo and the northern Detroit sites had the highest levels of multi‐species connectivity across the entire study area based on the least cost paths. These connectivity results have direct applications in urban planning. Kalamazoo, one of the focal urban regions, has implemented a Natural Features Protection (NFP) plan to bolster natural area protections within the city. We compared our connectivity results to the NFP area and show where this plan will have an immediate positive impact and additional areas for potential consideration in future expansions of the protection network. Our results show that conservation opportunities exist within each of the assessed urban areas for maintaining rare species, a key benefit of this multi‐species and multi‐site approach. [ABSTRACT FROM AUTHOR]

Published

2024

24. Local floral abundance influences bumble bee occupancy more than urban‐agricultural landscape context.

Author

Nunes, Laura A., Tai, Taylor, Zuckerberg, Benjamin, Clare, John D., Jepsen, Sarina, Strange, James, and Gratton, Claudio

Subjects

*BUMBLEBEES, *INSECT pollinators, *AGRICULTURE, *CITIES & towns, *METROPOLITAN areas

Abstract

Loss of natural habitat due to increases in agricultural extent raises the question of whether human‐dominated landscape types can support biodiversity, particularly for declining insect pollinators. Compared to more rural agricultural landscapes, urban areas may confer benefits for bumble bee populations by providing stable and diverse floral resources. However, disentangling the effects of local‐ and landscape‐scale characteristics on bumble bee populations in human‐modified landscapes is challenging.Here, we assessed bumble bee occupancy using a repeated transect sampling design conducted during the summers of 2019 and 2020 within the metropolitan area of Madison, WI, and the surrounding agricultural landscape. We fit hierarchical occupancy models to estimate the detection (p) and occupancy (ψ) probabilities relative to local habitat quality (floral abundance and floral richness) and landscape (agricultural‐urban gradient) features for eight bumble bee species. We hypothesised that bumble bees were more likely to occupy urban areas, serving as refugia, relative to agricultural sites.We found that the detection probability of all bumble bee species was seasonal and influenced by maximum floral abundance at survey sites, independent of the surrounding land cover type. After accounting for species‐specific detection probabilities, the effect of urbanisation on bee occupancy was weak, and no species were less likely to occupy urban than rural agricultural areas.Our findings suggest that bumble bee occupancy is associated with a 'honeypot effect' where local resource availability, in the form of higher floral abundance, is most important in limiting the occupancy of bumble bees across urban and agricultural landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

25. 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

26. Protein/Lipid ratio of pollen biases the visitation of bumblebees (Bombus ignitus Smith) to male-fertile cultivars of the Japanese pear (Pyrus pyrifolia Nakai).

Author

Mori, Shinnosuke, Mitsuhata, Masahiro, and Yokoi, Tomoyuki

Subjects

*POLLEN, *BUMBLEBEES, *PEARS, *FORAGING behavior, *PROTEINS

Abstract

Bees have been known to visit the male-fertile cultivars of self-incompatible flowering plants more frequently than the male-sterile cultivars, but the origin of this preference is poorly understood. Here, we demonstrate that this preference is driven by the higher protein/lipid ratio of male-fertile pollen compared with male-sterile pollen by way of two caged-behavioral assays with six cultivars. In the first assay, flower-naïve bumblebees (Bombus ignitus Smith) showed a significantly higher flower-visitation rate to male-fertile cultivars (pollen germination rate > 55%; > 14 visits/10 min) of the Japanese pear (Pyrus pyrifolia Nakai) than male-sterile cultivars (pollen germination rate ≤ 20%; > 6 visits/10 min). In the second, bees still preferred the anthers of male-fertile cultivars (5–9 visits/10 min) more than those of male-sterile ones (less than 1 visit in 10 min) even in the absence of all other organs (i.e., petals, pistil, nectar), indicating that pollen is responsible for the preference. We then analyzed the macronutrient content of the pollen and its visual cues, and found that the bee preference was highly correlated with the protein/lipid ratio (0.3–1.6) but not color variables such as (a)chromatic contrast, intensity, and spectral purity. We conclude that the protein/lipid ratio influences the foraging behavior of the bumblebees likely by serving as (1) a chemotactile cue while antennating, (2) a gustatory cue after intake, and (3) an olfactory cue. In addition, the low bee visitation rate to poorly viable pollen could be due to its low protein/lipid ratio. [ABSTRACT FROM AUTHOR]

Published

2024

27. Genomic variation in montane bumblebees in Scandinavia: High levels of intraspecific diversity despite population vulnerability.

Author

Liu, Yuanzhen, Olsson, Anna, Larva, Tuuli, Cantwell‐Jones, Aoife, Gill, Richard J., Cederberg, Björn, and Webster, Matthew T.

Subjects

*POPULATION viability analysis, *GENETIC load, *BUMBLEBEES, *GENETIC drift, *GENETIC variation, *INBREEDING, *PHYLOGEOGRAPHY

Abstract

Populations of many bumblebee species are declining, with distributions shifting northwards to track suitable climates. Climate change is considered a major contributing factor. Arctic species are particularly vulnerable as they cannot shift further north, making assessment of their population viability important. Analysis of levels of whole‐genome variation is a powerful way to analyse population declines and fragmentation. Here, we use genome sequencing to analyse genetic variation in seven species of bumblebee from the Scandinavian mountains, including two classified as vulnerable. We sequenced 333 samples from across the ranges of these species in Sweden. Estimates of effective population size (NE) vary from ~55,000 for species with restricted high alpine distributions to 220,000 for more widespread species. Population fragmentation is generally very low or undetectable over large distances in the mountains, suggesting an absence of barriers to gene flow. The relatively high NE and low population structure indicate that none of the species are at immediate risk of negative genetic effects caused by high levels of genetic drift. However, reconstruction of historical fluctuations in NE indicates that the arctic specialist species Bombus hyperboreus has experienced population declines since the last ice age and we detected one highly inbred diploid male of this species close to the southern limit of its range, potentially indicating elevated genetic load. Although the levels of genetic variation in montane bumblebee populations are currently relatively high, their ranges are predicted to shrink drastically due to the effects of climate change and monitoring is essential to detect future population declines. [ABSTRACT FROM AUTHOR]

Published

2024

28. Issue Information.

Subjects

*BUMBLEBEES, *POLLINATION

Abstract

Cover Legend The bumblebee, Bombus diversus, participating in the pollination of the orchid Goodyera henryi, in the Sayama Hills of mainland Japan. Image courtesy of Takuto Shitara (Suetsugu et al., pp. 1321–1333). [Extracted from the article]

Published

2024

29. The absence of bumblebees on an oceanic island blurs the species boundary of two closely related orchids.

Author

Suetsugu, Kenji, Hirota, Shun K., Shitara, Takuto, Ishida, Kenya, Nakato, Narumi, Hayakawa, Hiroshi, and Suyama, Yoshihisa

Subjects

*ORCHIDS, *BUMBLEBEES, *ISLANDS, *SPECIES, *PLANT species, *WASPS, *POLLINATION

Abstract

Summary: Oceanic islands offer valuable natural laboratories for studying evolution. The Izu Islands, with their recent geological origin, provide an exceptional opportunity to explore the initial evolution on oceanic islands. Another noteworthy aspect is the absence of bumblebee species on most Izu Islands.We used ecological, morphological, and molecular data to investigate the impact of bumblebee absence on the evolution of two closely related orchid species, Goodyera henryi and Goodyera similis, focusing on Kozu Island, the Izu Islands.Our investigation revealed that while G. henryi exclusively relies on a bumblebee species for pollination on the mainland, G. similis is pollinated by scoliid wasps on both the mainland and the island. Intriguingly, all specimens initially categorized as G. henryi on Kozu Island are hybrids of G. henryi and G. similis, leading to the absence of pure G. henryi distribution on the island. These hybrids are pollinated by the scoliid wasp species that also pollinates G. similis on the island.The absence of bumblebees might result in sporadic and inefficient pollination of G. henryi by scoliid wasps, consequently promoting hybrid proliferation on the island. Our findings suggest that the absence of bumblebees can blur plant species boundaries. [ABSTRACT FROM AUTHOR]

Published

2024

30. Chronic acetamiprid exposure moderately affects the foraging behaviour of buff‐tailed bumblebees (Bombus terrestris).

Author

Tóth, Zoltán and Kovács, Zsófia

Subjects

*BOMBUS terrestris, *POLLINATORS, *POLLINATION, *SYRUPS, *PESTICIDES, *ARTIFICIAL foods, *AGRICULTURE, *BUMBLEBEES, *NEONICOTINOIDS

Abstract

Bumblebees are important pollinators in both natural and agricultural ecosystems, but their survival and pollination service are threatened by extensive pesticide use. Due to regulation changes, acetamiprid has become the only neonicotinoid substance that can be used without restrictions and in open‐field cultivations in the European Union. Yet, we know little about how this active ingredient affects bumblebees' foraging behaviour and if such effects are similarly detrimental to those of other neonicotinoids. Here we investigated how a 14‐day‐long (chronic) exposure to low (5 ppb) and high (2500 ppb) concentrations of acetamiprid in syrup affected different aspects of foraging behaviour in buff‐tailed bumblebees (Bombus terrestris, Linnaeus). We recorded individual foraging at artificial food patches during one‐hour‐long trials and then compared several foraging‐related measures between differently dosed individuals. We found that 75.12% of the total syrup consumption occurred at the first‐exploited patch, but individuals did not exhibit any bias toward pesticide‐treated food patches. Chronic exposure to acetamiprid had little effect on individual foraging decisions at the first‐exploited food patch but significantly affected the time to the first feeding and the number of feedings at the second‐exploited patch in interaction with body mass. The duration of the first feeding was affected only by foragers' body mass. Our finding indicates that chronic exposure to a high but field‐realistic concentration of acetamiprid may alter some aspects of bumblebees' foraging behaviour. If such behavioural changes accumulate during consecutive foraging bouts, chronic exposure to this pesticide might lead to a reduction of daily resource collection, ultimately jeopardising colony fitness or plant (crop) pollination. [ABSTRACT FROM AUTHOR]

Published

2024

31. Exposure to a fungicide for a field-realistic duration does not alter bumble bee fecal microbiota structure.

Author

Hotchkiss, Michelle Z., Forrest, Jessica R. K., and Poulain, Alexandre J.

Subjects

*HONEYBEES, *BUMBLEBEES, *FUNGICIDES, *PESTICIDES, *GUT microbiome, *POLLINATORS, *BEES, *NATIVE Americans, *SOCIAL impact

Abstract

Social bees are frequently exposed to pesticides when foraging on nectar and pollen. Recent research has shown that pesticide exposure not only impacts social bee host health but can also alter the community structure of social bee gut microbiotas. However, most research on pesticide-bee gut microbiota interactions has been conducted in honey bees; bumble bees, native North American pollinators, have received less attention and, due to differences in their ecology, may be exposed to certain pesticides for shorter durations than honey bees. Here, we examine how exposure to the fungicide chlorothalonil for a short, field-realistic duration alters bumble bee fecal microbiotas (used as a proxy for gut microbiotas) and host performance. We expose small groups of Bombus impatiens workers (microcolonies) to field-re alistic chlorothalonil concentrations for 5 days, track changes in fecal microbiotas during the exposure period and a recovery period, and compare microcolony offspring production between treatments at the end of the experiment. We also assess the use of fecal microbiotas as a gut microbiota proxy by comparing community structures of fecal and gut microbiotas. We find that chlorothalonil exposure for a short duration does not alter bumble bee fecal microbiota structure or affect microcolony production at any concentration but that fecal and gut microbiotas differ significantly in community structure. Our results show that, at least when exposure durations are brief and unaccompanied by other stressors, bumble bee microbiotas are resilient to fungicide exposure. Additionally, our work highlights the importance of sampling gut microbiotas directly, when possible. [ABSTRACT FROM AUTHOR]

Published

2024

32. Strawberry varieties differ in pollinator‐relevant floral traits.

Author

Symington, Hamish A. and Glover, Beverley J.

Subjects

*STRAWBERRIES, *POLLINATION by insects, *BUMBLEBEES, *NECTAR, *POLLINATORS, *POLLEN

Abstract

A rising global population will need more food, increasing demand for insect pollination services. However, general insect declines conflict with this demand. One way to mitigate this conflict is to grow crop flowers that are easier for insects to find and more rewarding to those that visit them. This study quantifies variation in the pollinator‐relevant traits of nectar and pollen production, flower size and flower shape in commercial strawberry, finding significant variation between varieties in all traits. Bumblebees could learn to distinguish between the extremes of variation in flower shape, but this learning is very slow, indicating that this variation is at the limit of that which can be detected by bumblebees. Bee preferences for nectar of differing sugar concentrations at field‐realistic volumes were consistent with previous observations at larger volumes, suggesting that it is valid to translate lab findings to the field. This study builds on our knowledge of the range of pollinator reward present in a single cultivated species and of the impact of field‐realistic levels of variation in floral traits on bumblebee preferences. [ABSTRACT FROM AUTHOR]

Published

2024

33. 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

34. A simulated natural heatwave perturbs bumblebee immunity and resistance to infection.

Author

Tobin, Kerrigan B., Mandes, Rachel, Martinez, Abraham, and Sadd, Ben M.

Subjects

*HEAT waves (Meteorology), *BUMBLEBEES, *POLLINATION by bees, *THERMAL stresses, *CLIMATE extremes, *NATURAL immunity, *IMMUNITY

Abstract

As a consequence of ongoing climate change, heatwaves are predicted to increase in frequency, intensity, and duration in many regions. Such extreme events can shift organisms from thermal optima for physiology and behaviour, with the thermal stress hypothesis predicting reduced performance at temperatures where the maintenance of biological functions is energetically costly. Performance includes the ability to resist biotic stressors, including infectious diseases, with increased exposure to extreme temperatures having the potential to synergise with parasite infection.Climate change is a proposed threat to native bee pollinators, directly and through indirect effects on floral resources, but the thermal stress hypothesis, particularly pertaining to infectious disease resistance, has received limited attention. We exposed adult Bombus impatiens bumblebee workers to simulated, ecologically relevant heatwave or control thermal regimes and assessed longevity, immunity, and resistance to concurrent or future parasite infections.We demonstrate that survival and induced antibacterial immunity are reduced following heatwaves. Supporting that heatwave exposure compromised immunity, the cost of immune activation was thermal regime dependent, with survival costs in control but not heatwave exposed bees. However, in the face of real infections, an inability to mount an optimal immune response will be detrimental, which was reflected by increased trypanosomatid parasite infections following heatwave exposure.These results demonstrate interactions between heatwave exposure and bumblebee performance, including immune and infection outcomes. Thus, the health of bumblebee pollinator populations may be affected through altered interactions with parasites and pathogens, in addition to other effects of extreme manifestations of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

35. Investigating trade-offs between ovary activation and immune protein expression in bumble bee (Bombus impatiens) workers and queens.

Author

McAfee, Alison, Chapman, Abigail, Bao, Grace, Tarpy, David R., and Foster, Leonard J.

Subjects

*BUMBLEBEES, *INSECT societies, *PROTEIN expression, *QUEENS (Insects), *LIFE cycles (Biology), *OVARIES, *IMPATIENS

Abstract

Evidence for a trade-off between reproduction and immunity has manifested in many animal species, including social insects. However, investigations in social insect queens present a conundrum: new gynes of many social hymenopterans, such as bumble bees and ants, must first mate, then transition from being solitary to social as they establish their nests, thus experiencing confounding shifts in environmental conditions. Worker bumble bees offer an opportunity to investigate patterns of immune protein expression associated with ovary activation while minimizing extraneous environmental factors and genetic differences. Here, we use proteomics to interrogate the patterns of immune protein expression of female bumble bees (Bombus impatiens) by (i) sampling queens at different stages of their life cycle, then (ii) by sampling workers with different degrees of ovary activation. Patterns of immune protein expression in the haemolymph of queens are consistent with a reproduction–immunity trade-off, but equivalent samples from workers are not. This brings into question whether queen bumble bees really experience a reproduction–immunity trade-off, or if patterns of immune protein expression may actually be due to the selective pressure of the different environmental conditions they are exposed to during their life cycle. [ABSTRACT FROM AUTHOR]

Published

2024

36. Selection despite low genetic diversity and high gene flow in a rapid island invasion of the bumblebee, Bombus terrestris.

Author

Kardum Hjort, Cecilia, Paris, Josephine R., Smith, Henrik G., and Dudaniec, Rachael Y.

Subjects

*BOMBUS terrestris, *GENE flow, *BUMBLEBEES, *GENETIC variation, *AQUATIC insects, *LIFE history theory, *POLLINATORS

Abstract

Invasive species are predicted to adjust their morphological, physiological and life‐history traits to adapt to their non‐native environments. Although a loss of genetic variation during invasion may restrict local adaptation, introduced species often thrive in novel environments. Despite being founded by just a few individuals, Bombus terrestris (Hymenoptera: Apidae) has in less than 30 years successfully spread across the island of Tasmania (Australia), becoming abundant and competitive with native pollinators. We use RADseq to investigate what neutral and adaptive genetic processes associated with environmental and morphological variation allow B. terrestris to thrive as an invasive species in Tasmania. Given the widespread abundance of B. terrestris, we expected little genetic structure across Tasmania and weak signatures of environmental and morphological selection. We found high gene flow with low genetic diversity, although with significant isolation‐by‐distance and spatial variation in effective migration rates. Restricted migration was evident across the mid‐central region of Tasmania, corresponding to higher elevations, pastural land, low wind speeds and low precipitation seasonality. Tajima's D indicated a recent population expansion extending from the south to the north of the island. Selection signatures were found for loci in relation to precipitation, wind speed and wing loading. Candidate loci were annotated to genes with functions related to cuticle water retention and insect flight muscle stability. Understanding how a genetically impoverished invasive bumblebee has rapidly adapted to a novel island environment provides further understanding about the evolutionary processes that determine successful insect invasions, and the potential for invasive hymenopteran pollinators to spread globally. [ABSTRACT FROM AUTHOR]

Published

2024

37. 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

38. Bumblebees' flower preferences are associated with floral abundance and buzz frequency when buzz-pollinating co-flowering plants.

Author

Wen Huang, Vallejo-Marín, Mario, Inouye, David W., Chun-Feng Yang, and Zhong-Ming Ye

Subjects

*BUMBLEBEES, *BEE pollen, *COEXISTENCE of species, *MOUNTAIN meadows, *FLOWERS, *POSIDONIA

Abstract

Buzz-pollination is used by some bees to expel pollen through vibrating flowers. Yet, little is known about the determinants influencing bee preferences among buzz-pollinated flowers. We studied five co-flowering, nectarless species of Pedicularis (Orobanchaceae) buzz-pollinated by bumblebees in an alpine meadow, to investigate bumblebee' flower preferences in response to fluctuations of floral abundance across five years. We also recorded and analyzed the buzzing frequencies produced by the three dominant bumblebee specie. Our results indicate that Bombus friseanus and B. lepidus visited different Pedicularis flowers using similar buzz frequencies and displayed an abundance-dependent flower preference across years. These two bumblebee species had staggered phenologies with distinct timing of peak abundances across the five years. In contrast, B. festivus used lower fundamental buzz frequencies, had a constant flower preference across years, but used different buzz frequencies across Pedicularis species. Although the amount of pollen released after bumblebee visitation varied across Pedicularis species, we found that after a single visit all bumblebees deposited similar amounts of pollen on stigmas. Our study indicates that bumblebees' flower preferences is sometimes, but not always, modulated by floral abundance, and that at least one bumblebee species was observed to produce buzzes of different frequencies in different plant species. Competition for floral resources among bumblebees and for pollination services among co-flowering Pedicularis species may structure plant-pollinator interactions and affect species coexistence. [ABSTRACT FROM AUTHOR]

Published

2024

39. Bombus cryptarum (Fabricius, 1775), a rare bumblebee species (Hymenoptera, Apidae) new to India.

Author

Raina, Rifat Hussain, Kumar, Keshav, Parrey, Aejaz Hussain, Sharma, Indu, Uniyal, Virendra Prasad, and Saini, Malkiat Singh

Subjects

*BUMBLEBEES, *CLASSIFICATION of insects, *SPECIES distribution, *HOST plants

Abstract

This paper reports a new addition to the national bumblebee fauna of the Indian Himalayas. The newly recorded species viz., Bombus cryptarum (Fabricius, 1775) (Hymenoptera, Apidae) is fully described from the Gurez Valley (Jammu and Kashmir) and Panamik (Ladakh) in the Western Himalayan range. Males of the B. cryptarum have thoracic dorsum and T2 lemon yellow without black hairs. Gonostylus with the anterior apical process with long hairs and penis valve greatly broadened and flared outwards. With the addition of a new record, the Indian Himalayan region is now represented by 57 species of bumblebees. The species diagnosis, current distributional range, and host plants of this species are also provided. [ABSTRACT FROM AUTHOR]

Published

2024

40. Wetland cover in agricultural landscapes is positively associated with bumblebee abundance.

Author

Cohen, Abigail L., Devries, James H., and Galpern, Paul

Subjects

*WETLANDS, *AGRICULTURE, *BUMBLEBEES, *ECOSYSTEM health, *LANDSCAPES, *ENVIRONMENTAL degradation, *GROWING season

Abstract

Conversion of land for agricultural use is a leading driver of global biodiversity loss. Natural and semi‐natural lands within agricultural landscapes are targeted for protection because they provide habitat for many organisms.Pothole (or kettle) wetlands occur across the Northern Hemisphere and are a focus for conservation both because of their location within agriculturally intensive landscapes and their importance to vertebrates, especially migratory birds.Recent evidence suggests that wetlands may also be an important habitat for arthropods, including insects that provide ecosystem services. To understand how insects associate with wetlands and landscape features, we examine the relationship between bumblebees (Bombus), and wetland area, cropland area and wetland perimeter‐area ratio.We found that wetland area is significantly positively associated with the occurrence and abundance of the species studied. We also found that the relationship between bumblebees and wetland perimeter‐area ratio varied across the growing season. This suggests that the importance of wetland edge as a foraging habitat varies across the season.These results show the utility of wetlands to bees, though their resources are likely not being used uniformly by all bumblebee species or across the entire growing season. Our results also suggest that pothole wetlands in agricultural landscapes are likely to support biodiversity, and their conservation contributes to overall ecosystem health and function. [ABSTRACT FROM AUTHOR]

Published

2024

41. Seasonal dynamics of floral composition and flower visitors in a subtropical alpine ecosystem in Taiwan.

Author

Kudo, Gaku, Kohyama, Tetsuo I., Chen, Kai‐Hsiu, Hsu, Tsai‐Wen, and Wang, Chun‐Neng

Subjects

*COMPOSITION of flowers, *MOUNTAIN ecology, *BUMBLEBEES, *POLLINATION by bees, *SYRPHIDAE, *FLOWERING of plants, *PLANT phenology, *MOUNTAIN plants, *ALPINE regions

Abstract

Flowering phenology of alpine plant communities and seasonal dynamics of flower visitors have been scarcely studied in the tropical/subtropical alpine regions. We report flowering phenology, flower production, and flower‐visiting insects in an alpine site of central Taiwan. Throughout the research period (2017–2018), we recorded flowering phenology of 130 plant species, flower production of 81 species, and 15,127 insects visiting alpine flowers. Most of the alpine plants were visited by dipteran insects and/or hymenopteran insects. The seasonal patterns of flowering were more apparent in bee‐visited plants compared to fly‐visited plants in which the flowering of bee‐visited plants clearly increased as the season progressed. About 63% of flower visitors were dipteran insects (syrphid and non‐syrphid flies), and 30% were hymenopteran insects (mostly bumble‐bee workers). Although the seasonal trend in fly abundance was less clear between years, bumble‐bee abundance consistently increased in the middle to late seasons, reflecting colony development. There was a positive correlation between bee abundance and the number of flowering species of bee‐visited plants, but there was no correlation between fly abundance and the number of flowering species of fly‐visited plants throughout the season. These results suggest that the flowering phenology of subtropical alpine communities is influenced by the seasonal availability of pollinators. Bumble bees, syrphid flies, and non‐syrphid flies had wide ranges of foraging flowers, but their niche overlap was relatively small. Because cold‐adapted bumble bees are threatened by climate change in Taiwan, plant–pollinator interactions may be disturbed by global warming. [ABSTRACT FROM AUTHOR]

Published

2024

42. Mating and post-hibernation ovarian development in stylopized and non-stylopized queens of the hornet Vespa analis (Hymenoptera Vespidae).

Author

Kudô, Kazuyuki, Oyaizu, Wataru, Kusama, Rikako, Yamagishi, Kohei, Yamaguchi, Yuki, and Koji, Shinsaku

Subjects

*VESPIDAE, *INSECT societies, *QUEEN honeybees, *BUMBLEBEES, *HYMENOPTERA, *HORNETS, *BODY size, *WASPS

Abstract

In social insects, post-hibernation queens of independent-founding species (e.g. bumble bees, some ants and wasps) need to overcome various difficulties for survival and reproduction during the initial period of the colony. Specifically, a single queen must perform all tasks related to colony defense and nursing juveniles alone. In this study, we examined whether the reproductive conditions of post-hibernation solitary queens of the vespine wasp Vespa analis are affected by the following four factors: (1) collection date, (2) mating status, (3) body size and (4) the presence of Xenos parasites. The results showed that ovary development of the queens was associated with collection date and mating status but not with body size or parasitism. The positive effects of the first two factors are reasonable, because they are closely related to life history, but the absence of a link between ovary development of the queens and parasitism was surprising. No association of ovary development of the queens with body size prompts the need for more comparative studies, which might reveal differences in the fecundity-body size relationship among temperate Vespa species. [ABSTRACT FROM AUTHOR]

Published

2024

43. Wild bumblebees use both absolute and relative evaluation when foraging.

Author

Hemingway, Claire T, Pimplikar, Smruti, and Muth, Felicity

Subjects

*BUMBLEBEES, *REWARD (Psychology), *BEE behavior, *WILD flowers, *HONEY plants, *FLOWERING of plants, *NECTAR

Abstract

Foraging theory assumes that animals assess value based on objective payoffs; however, animals often evaluate rewards comparatively, forming expectations based on recent experience. This form of evaluation may be particularly relevant for nectar foragers such as bumblebees, where individuals can visit thousands of flowers daily that vary in nectar quality. While many animals, including bees, demonstrate reference-based evaluation in experimental contexts, it is unclear whether this occurs in the wild. Here, we asked how daily experience with wildflower nectar influenced wild bumblebees' reward evaluation. We measured the daily nectar concentration of bee-visited wildflowers (Penstemon spp.), before presenting foragers with conspecific flowers filled with a range of artificial nectar concentrations. We recorded bees' acceptance of artificial nectar, the probability of subsequent visits to flowers on the same plant, and residence time. While bees had a minimum threshold of nectar acceptability that was unaffected by experience, when there was higher-concentration environmental nectar, they were less likely to accept lower-quality rewards on manipulated plants. Bees also visited more flowers and stayed longer on plants with higher-concentration nectar. This study shows evidence for both absolute and reference-based evaluation in wild bees and points towards differences between bees' behavior in lab- and wild-foraging contexts. [ABSTRACT FROM AUTHOR]

Published

2024

44. Buff‐tailed bumblebee Bombus terrestris as a potential nest site competitor for the endangered forty‐spotted pardalote Pardalotus quadragintus.

Author

Hingston, Andrew B.

Subjects

*BOMBUS terrestris, *BUMBLEBEES, *BIRDHOUSES, *NEST building, *BIRD nests

Abstract

This note documents the first record of the invasive buff‐tailed bumblebee Bombus terrestris nesting in an above‐ground nest box deployed for birds in Australia. The box in question had been installed as nesting habitat for the endangered forty‐spotted pardalote Pardalotus quadragintus on Bruny Island, Tasmania. The bumblebee nest appeared to be constructed on a partially built pardalote nest inside the box and so may have caused the abandonment of a nesting attempt by pardalotes. However, the remains of this bumblebee nest were not large enough to prevent forty‐spotted pardalotes constructing a nest in the box during the subsequent breeding season. Further research will be needed to ascertain the degree to which bumblebees disrupt breeding of forty‐spotted pardalotes. [ABSTRACT FROM AUTHOR]

Published

2024

45. Plant secondary metabolite has dose‐dependent effects on bumblebees.

Author

Jones, Patricia L., Warburton, Reed C., and Martin, Kyle R.

Subjects

*BUMBLEBEES, *METABOLITES, *CARDENOLIDES, *OUABAIN, *HONEY plants, *NECTAR, *BEVERAGES

Abstract

The presence of secondary metabolites in flower nectar can mediate interactions between plants, pollinators, herbivores, and microbes. Milkweeds range in concentrations of cardenolides in flower nectar from ~ 1 to 100 ng μl–1. Using three different behavioral assays with bumblebees Bombus impatiens, we examined the impacts of the commercially available cardenolide ouabain at the range of concentrations at which cardenolides naturally occur in milkweeds. We show that after four days of exposure bees in consumption assays drank more of a nectar solution with a low ouabain concentration of 10 ng μl–1 than the control sucrose nectar, and over the course of the experiment bees consumed less of the 100 ng μl–1 ouabain solution than the control. Bee activity levels in Petri dish arena assays were not impacted by ouabain consumption, even at the highest concentrations; however, in free‐flying choice assays, bees preferentially visited artificial flowers containing 10 ng μl–1 ouabain more than flowers with sucrose control, or flowers with 100 ng μl–1 of ouabain. We therefore conclude that cardenolides may provide plants advantages to pollination at the low end of the naturally occurring range of concentrations for cardenolides, but may be costly to plants at the high end of the range. This research highlights that secondary metabolites in nectar may be under selection to be maintained at low concentrations, and species with high concentrations of secondary metabolites may be under conflicting selection pressures to maintain high circulating levels to deter herbivores at the cost of reduced pollination. [ABSTRACT FROM AUTHOR]

Published

2023

46. Hymenoptera Allergy Diagnosis through Their Presence on Human Food.

Author

Vega-Castro, Arantza, Castro, Leopoldo, Carballada, Francisco, Alfaya, Teresa, Marquès, Lluís, and Ruíz-León, Berta

Subjects

*HYMENOPTERA, *SEAFOOD, *VENOM hypersensitivity, *ALLERGIES, *AUTUMN, *BUMBLEBEES

Abstract

Venom immunotherapy (VIT) protects up to 98% of treated Hymenoptera allergy patients from reactions with new stings. A correct diagnosis with the identification of the venom causing the allergic reaction is essential to implementing it. The knowledge of the Hymenoptera foraging habits when the sting takes place in a food environment would allow the culprit insect to be known. Images of Hymenoptera occurring in environments where there was human food were recorded in Spain, including the date of the image, the place description and its geolocation. The insects' genus and species were identified by an entomologist. Results: One hundred and fifty-five images depicting 71 insects were analyzed. The identified insects were Vespula (56), Vespa (7), Polistes (4), Cerceris (2), Bombus (1) and Apis (1). Most (97.1%) of the images were obtained in summer and early autumn, outdoors in terraces (64%). Meat was the food associated with 47.9% of the images. In protein-rich foods, Vespula was found in 89%. Conclusions: Vespula was the main Hymenoptera associated with food environments in our country (78.87%), and in most of the cases (71%), the food involved is a source of protein, such as meat or seafood. In that environment, the probability that the insect is a Vespula would be 89%. [ABSTRACT FROM AUTHOR]

Published

2023

47. Systematic review of cuckoo bumblebee research reveals data gaps and understudied species.

Author

Dozier, Amy Elizabeth, Straw, Edward Alexander, and Stanley, Dara Anne

Subjects

*BUMBLEBEES, *CUCKOOS, *LIFE cycles (Biology), *SPECIES

Abstract

Cuckoo bumblebees (Bombus subgenus Psithyrus) are social parasites that have lost the ability to establish their own nests, and instead usurp the nest of a bumblebee host to reproduce. Accordingly, they are entirely dependent upon a host species to complete their life cycle, and are therefore vulnerable to co–extinction. Despite this, the current consensus is that there remains much we do not know about the fundamental ecology of many cuckoo bumblebee species, which is crucial for conservation.To investigate data gaps for cuckoo bumblebees, we conducted a systematic review to quantify the peer‐reviewed literature that has been produced, including which species have been most studied and which disciplines have been explored.Over half of all Psithyrus species were represented in fewer than 10 publications each, including 2 species listed as Critically Endangered by the IUCN.Research on cuckoo bumblebees is heavily weighted towards Europe and European species, while Asian species were under‐represented.Key research areas such as ecology and behaviour have received little attention for the majority of cuckoo bumblebees, which may hamper conservation effortsOur results quantitatively support observations made in other publications on the scarcity of data on cuckoo bumblebees, and highlight the need for further research on many species for whom fundamental knowledge is missing—particularly in light of the vulnerability of this subgenus to extinction. [ABSTRACT FROM AUTHOR]

Published

2023

48. Honey bee foraging density depends on plant size.

Author

Penberthy, T. Macallan, Dillon, Moira K., Chen, Xingyao, and Donaldson-Matasci, Matina C.

Subjects

*HONEYBEES, *PLANT size, *PLANT spacing, *POLLINATION by bees, *FLOWERING of plants, *BUMBLEBEES, *HONEY plants

Abstract

The spatial distribution of flowers has important impacts on pollinator movement and foraging decisions. For example, it is well established that bumble bees typically visit larger plants at a higher rate per plant, but the visit rate per flower typically declines as the number of flowers increases. However, much less is known about how honey bee foraging patterns are influenced by plant size and flower number, despite honey bees' importance as agricultural pollinators and their strong competitive impact on other bees. Using a combination of field observations and manipulative experiments with two different wild plant species, we confirmed that honey bees visit larger plants at a higher rate, not only per plant but also per inflorescence. This foraging pattern seems surprising, because it means that there is greater forager density and thus competition for resources on larger plants. We examine three hypotheses to explain why honey bees might nevertheless preferentially visit floral resources on larger plants: (1) larger plants are more salient, making them easier to find and advertise; (2) larger plants offer greater nectar rewards, making visits to them more worthwhile; (3) larger plants have more densely packed flowers, so they are less costly to navigate. We found that honey bee visit rates were indeed influenced by the costs and rewards of their local foraging experience, but the total number of flowers on the plant still positively affected visit rate even when controlling for those local factors. We suggest several ways that the collective foraging strategy of honey bees could lead to an aggregation of foragers on plants with more flowers and discuss the potential implications for agricultural pollination and wild bee conservation as well as foraging theory. • Honey bee visits/inflorescence were higher for large plants than for small plants. • Honey bees' focus on larger plants may stem from their collective foraging strategy. • Prior work has shown that bumble bee visits/flower typically decrease with plant size. • Variation in plant size may reduce competition between honey bees and native bees. [ABSTRACT FROM AUTHOR]

Published

2023

49. Enterest.

Subjects

*ANIMAL diversity, *BUMBLEBEES, *ANIMAL communities, *INSECT behavior, *DROSOPHILIDAE, *STAPHYLINIDAE

Abstract

This document is a collection of research briefs from the journal "American Entomologist." The briefs cover various topics related to insects and their behavior. One brief discusses how enhanced insect cold tolerance can be traced to the mitochondrial level. Another brief describes a new species of rove beetle that disguises itself as a termite to obtain food. A third brief explores the unique nursery pollination system between a non-photosynthesizing orchid and vinegar flies. Another brief examines the decision-making behavior of weaver ants when faced with uncertain outcomes. Additionally, there is a meta-analysis showing that non-native ants drive declines in animal community diversity, a study on the courtship signals of moths, research on the effects of neonicotinoid exposure and cold stress on bumblebees, and a study on the feeding behavior of trilobites. The document also includes a section on the ESA Science Policy Fellows' trip to Washington, DC, to engage with federal funding agencies. The text discusses the activities and meetings held during Entomology Advocacy Week 2023, organized by the Entomological Society of America (ESA). The ESA Science Policy Fellows met with various federal agencies, including the U.S. Department of Agriculture and public health programs, to discuss entomological research and its importance. The week also included webinars on federal and state advocacy, as well as letter-writing campaigns to urge congressional support for STEM workforce, agriculture innovation, and vector-borne disease [Extracted from the article]

Published

2023

50. Wild bee and pollen comparison of ground level urban habitat, green roofs and coastal barrens in Halifax, Nova Scotia.

Author

Walker, Emily, Pindar, Alana, and Lundholm, Jeremy

Subjects

*GREEN roofs, *BEE pollen, *POLLINATION by bees, *URBAN ecology, *HONEYBEES, *BUMBLEBEES, *HABITATS, *BEE colonies

Abstract

Green roofs offer an integrated response to sustaining ecosystem services in urban settings. Surprisingly, however, few studies have compared arthropod richness and abundance at urban ground level and green roofs to other habitats. The main objective of this study was to compare the composition and pollen collecting habits of bee communities visiting green roof, urban, and coastal barren habitats in the Halifax Region of Nova Scotia. We found that relative to ground level habitats, green roof wild bee communities were less abundant and species rich, but shared species with all habitat types. Pollen collection of bumble bees on green roofs was similar to that observed in urban and barren habitats. These results suggest that green roofs may offer harmonized solutions to multiple urban problems. Our study also yielded new provincial record, Hylaeus affinis Smith (Hymenoptera: Colletidae), for Nova Scotia. [ABSTRACT FROM AUTHOR]

Published

2023