Solitary bee larvae prioritize carbohydrate over protein in parentally provided pollen

Austin, Alexander J.; Gilbert, James D. J.

doi:10.1101/397802

Cited by 7 publications

(9 citation statements)

References 154 publications

(152 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Not all plants produce pollen of sufficient nutritional quality to meet the requirements of bees (Filipiak, 2017a,b). Since bee larvae require specific nutrients for growth and development (Austin & Gilbert 2018), large quantities of food can not compensate for poor quality (Filipiak, 2018).…”

Section: Discussionmentioning

confidence: 99%

Differential effects of farming practice on cuckoo bumblebee communities in relation to their hosts

Howard

Austin

Gilbert

2019

Preprint

Self Cite

View full text Add to dashboard Cite

29 30 1. Bees are important for vital pollination of wild and crop plants, but are in 31 decline worldwide. Intensification of agriculture is a major driver of bee 32 decline. Organic farming practices are designed to limit environmental 33 impacts of agriculture and can increase bee abundance and species diversity. 34 However, studies have been heavily focused towards some guilds of bees, 35 overlooking others. This includes social brood parasites, cuckoo bumblebees, 36 an understudied bee lineage. Little is known about bumblebee host and 37 cuckoo population dynamics, and the effects of farming practice on cuckoo 38 bumblebees have never previously been evaluated. 39 2. To compare the effects of farming practice (organic vs conventional) on the 40 abundance, species diversity, and community dissimilarity of cuckoo 41 bumblebees and their hosts, we compared host and cuckoo community 42 metrics across ten matched pairs of organic and conventional farms in 43Yorkshire, UK. 44 3. As found by many previous studies, host bumblebees were more abundant 45 on organic farms than on conventional farms. Despite this, cuckoo 46 bumblebees were equally abundant on both farm types. Contrary to 47 prediction, community dissimilarity and species diversity were unaffected by 48 farm type for both host and cuckoo communities. 49 4. Synthesis and applications: Results suggest that cuckoo bumblebee 50 community metrics are not solely driven by host community metrics, and that 51 cuckoos may respond differently from their hosts to differences among 52 farming practices. This could, in turn, indicate that a unified management 53 practice is not sufficient to conserve all bumblebee species. 54 55 56

show abstract

Section: Discussionmentioning

confidence: 99%

Differential effects of farming practice on cuckoo bumblebee communities in relation to their hosts

Howard

Austin

Gilbert

2019

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…This finding highlights the importance of crop species and flower timing in providing B. terrestris with adequate food resources in intensively managed agricultural systems. At a specific nutrient level, it was found that carbohydrate regulation was the most important variable in maximizing O. bicornis body size and survival, where the larval pupation occurred only after ingesting a fixed quantity of carbohydrates, but variable amounts of protein [118]. The authors of this study propose that the wide range in larval protein consumption is a result of their dependence on maternal nest provisioning for obtaining protein, and hence explains O. bicornis vulnerability to changes in landscape floral composition.…”

Section: Habitat Destruction and Fragmentationmentioning

confidence: 99%

“…Solitary bees also have similar nutritional requirements, for which most studies suggest that a departure from monoculture plantings is the best remedy [118,145,146,147]. For example, a range of seven to 1100 flowers or 0.9 to 4.5 flower heads is required to rear a single larva of 41 European bee species, depending on both species and host plant [148].…”

Section: Monoculture Plantingsmentioning

confidence: 99%

Impact of Biotic and Abiotic Stressors on Managed and Feral Bees

Belsky

Joshi

2019

Insects

View full text Add to dashboard Cite

Large-scale declines in bee abundance and species richness over the last decade have sounded an alarm, given the crucial pollination services that bees provide. Population dips have specifically been noted for both managed and feral bee species. The simultaneous increased cultivation of bee-dependent agricultural crops has given rise to additional concern. As a result, there has been a surge in scientific research investigating the potential stressors impacting bees. A group of environmental and anthropogenic stressors negatively impacting bees has been isolated. Habitat destruction has diminished the availability of bee floral resources and nest habitats, while massive monoculture plantings have limited bee access to a variety of pollens and nectars. The rapid spread and increased resistance buildup of various bee parasites, pathogens, and pests to current control methods are implicated in deteriorating bee health. Similarly, many pesticides that are widely applied on agricultural crops and within beehives are toxic to bees. The global distribution of honey bee colonies (including queens with attendant bees) and bumble bee colonies from crop to crop for pollination events has been linked with increased pathogen stress and increased competition with native bee species for limited resources. Climatic alterations have disrupted synchronous bee emergence with flower blooming and reduced the availability of diverse floral resources, leading to bee physiological adaptations. Interactions amongst multiple stressors have created colossal maladies hitting bees at one time, and in some cases delivering additive impacts. Initiatives including the development of wild flower plantings and assessment of pesticide toxicity to bees have been undertaken in efforts to ameliorate current bee declines. In this review, recent findings regarding the impact of these stressors on bees and strategies for mitigating them are discussed.

show abstract

“…Bees meet all their nutritional demands via pollen and nectar collected from flowers (their main source of protein and carbohydrate respectively), and unlike the nymphs and larvae of traditional models of insect nutrient regulation, such as locusts and caterpillars, bee larvae are entirely dependent on the provisioning choices of adult bees. This means bee larvae likely have very little opportunity to selectively regulate their intake of nutrients (but see Austin and Gilbert, 2018). Honeybees are unique among bees in that in-hive nurse bees process the pollen and nectar brought back to the nest by foragers, and convert it to a nutritional substance known as royal jelly which they then regurgitate for larvae (Wright, Nicolson and Shafir, 2018).…”

Section: Introductionmentioning

confidence: 99%

Larval nutrition impacts survival to adulthood, body size, and the allometric scaling of metabolic rate in adult honeybees

Nicholls

Rossi

Niven

2021

Preprint

View full text Add to dashboard Cite

Resting metabolic rate (RMR) is a fundamental physiological measure linked to numerous aspects of organismal function, including lifespan. Although dietary restriction in insects during larval growth/development affects adult RMR, the impact of larval diet quality on adult RMR has not been studied. Using in vitro rearing to control larval diet quality, we determined the effect of dietary protein and carbohydrate on honeybee survival-to-adulthood, time-to-eclosion, body mass/size and adult RMR. High carbohydrate larval diets increased survival-to-adulthood and time-to-eclosion compared to both low carbohydrate and high protein diets. Upon emergence, bees reared on the high protein diet were smaller and lighter than those reared on other diets, whilst those raised on the high carbohydrate diet varied more in body mass. Newly emerged adult bees reared on the high carbohydrate diet showed a significantly steeper increase in allometric scaling of RMR compared to those reared on other diets. This suggests that diet quality influences survival-to-adulthood, time-to-eclosion, and the allometric scaling of RMR. Given that agricultural intensification and increasing urbanisation have led to a decrease in both forage availability and dietary diversity for bees, our results are critical to improving understanding of the impacts of poor developmental nutrition on bee growth/development and physiology.

show abstract

Solitary bee larvae prioritize carbohydrate over protein in parentally provided pollen

Cited by 7 publications

References 154 publications

Differential effects of farming practice on cuckoo bumblebee communities in relation to their hosts

Differential effects of farming practice on cuckoo bumblebee communities in relation to their hosts

Impact of Biotic and Abiotic Stressors on Managed and Feral Bees

Larval nutrition impacts survival to adulthood, body size, and the allometric scaling of metabolic rate in adult honeybees

Contact Info

Product

Resources

About