Variations in Nutritional Requirements Across Bee Species

Alexandre Barraud,Francesca-Vittoria Grillenzoni,Victor Lefebvre,Maryse Vanderplanck,Cedric Alaux,Cecilia Costa,Yves Le Conte,Denis Michez,Lena Barascou,Giorgia Serra,Deborah Sene,Francesca Corvucci

doi:10.3389/fsufs.2022.824750

Abstract

With 2,000 species currently recorded in Europe, bees are a highly diversified and efficient group of pollinating insects. They obtain their nutrients from nectar and pollen of flowers. However, the chemical composition of these resources, especially of pollen (e.g., protein, lipid, amino acids, fatty acids, or sterol content), is highly variable among plant species. While it is well-known that bees show interspecific variation in their floral choices, there is a lack of information on the nutritional requirements of different bee species. We therefore developed original experiments in laboratory conditions to evaluate the interspecific variations in bee nutritional requirements. We analyzed the chemical content of eight pollen blends, different in terms of protein, lipid, amino acids, and sterols total concentration and profiles. Each pollen blend was provided to four different bee model species: honey bees (Apis mellifera), bumblebees (Bombus terrestris), mason bees (Osmia bicornisandOsmia cornuta). For each species, specific protocols were used to monitor their development (e.g., weight, timing, survival) and resource collection. Overall, we found that the nutritional requirements across those species are different, and that a low-quality diet for one species is not necessarily low-quality for another one. While honey bees are negatively impacted by diets with a high protein content (~40%), bumblebees and mason bees develop normally on these diets but struggle on diets with a low total amino acid and sterol content, specifically with low concentrations of 24-methylenecholesterol and β-sitosterol. Overall, our study supports the need of conserving and/or introducing plant diversity into managed ecosystems to meet the natural nutritional preferences of bees at species and community level.

Highlights

With more than 2,000 species recorded in Europe (Rasmont et al, 2017), bees represent a highly diverse group of pollinators (Michener, 2007; Danforth et al, 2013)
There are multiple studies evaluating and comparing the development of various generalist bee species in controlled conditions on the same pollen diets (Moerman et al, 2016), and no study considering a broad diversity of bee clades. To address these knowledge gaps, we evaluated the effect of 8 pollen mixes of different qualities on key life-history traits regulated by pollen consumption in four European bee species (2 Apidae species: Apis mellifera (Apini) and Bombus terrestris (Bombini); 2 Megachilidae species: Osmia bicornis and O. cornuta)
We developed experiments in controlled conditions and monitored the key life-history traits in bees fed with these pollen diets

Summary

Introduction

With more than 2,000 species recorded in Europe (Rasmont et al, 2017), bees represent a highly diverse group of pollinators (Michener, 2007; Danforth et al, 2013) These species show a wide variability in various traits such as body size (i.e., from 0.3 mm to 4.5 cm in Europe), social behavior (e.g., cleptoparasitic, solitary, eusocial), nesting behavior (e.g., cavityor soil-nesting), foraging strategies (e.g., pollen generalist or specialist), or phenology (e.g., uni- or bivoltine) (Michener, 2007; Michez et al, 2019). Wild bees have been shown to increase crop production by up to twice as much as honey bees, underlining the importance of wild bees even in agro-ecosystems (Garibaldi et al, 2013; Weekers et al, 2022)

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Conclusion