Abstract
Including probiotics in honeybee nutrition represents a promising solution for mitigating diseases, and recent evidence suggests that various microbes possess mechanisms that can bioremediate environmental pollutants. Thus, the use of probiotics capable of degrading pesticides used in modern agriculture would help to both reduce colony losses due to the exposure of foragers to these toxic molecules and improve honeybee health and wellbeing globally. We conducted in vitro experiments to isolate and identify probiotic candidates from bacterial isolates of the honeybee gut (i.e., endogenous strains) according to their ability to (i) grow in contact with three sublethal concentrations of the pesticide clothianidin (0.15, 1 and 10 ppb) and (ii) degrade clothianidin at 0.15 ppb. The isolated bacterial strains were indeed able to grow in contact with the three sublethal concentrations of clothianidin. Bacterial growth rate differed significantly depending on the probiotic candidate and the clothianidin concentration used. Clothianidin was degraded by seven endogenous honeybee gut bacteria, namely Edwardsiella sp., two Serratia sp., Rahnella sp., Pantoea sp., Hafnia sp. and Enterobacter sp., measured within 72 h under in vitro conditions. Our findings highlight that endogenous bacterial strains may constitute the base material from which to develop a promising probiotic strategy to mitigate the toxic effects of clothianidin exposure on honeybee colony health.
Highlights
The European honeybee (Apis mellifera) plays a crucial role in maintaining a functional and healthy ecological community through the pollination services it provides [1,2]
A total of seven endogenous honeybee gut bacterial strains were isolated on Tryptic Soy Agar (TSA) solid media: Edwardsiella sp., two Serratia species (Serratia sp.1 and Serratia sp.2), Rahnella sp., Pantoea sp., Hafnia sp. and an Enterobacter sp. (Table 1)
These results indicate that the degradation profile of clothianidin (0.15 ppb) over time differs between probiotic candidates
Summary
The European honeybee (Apis mellifera) plays a crucial role in maintaining a functional and healthy ecological community through the pollination services it provides [1,2]. Apis mellifera is of major importance to many agricultural activities worldwide [3], considering that 75% of global food crop production relies on pollination services [4]. Various studies have highlighted multiple biotic [7,8] and abiotic stress factors [9,10] responsible for honeybee colony decline [1,3], which is notable in regard to pollination services. Pesticide exposure is one factor that has impaired the ability of honeybees to pollinate efficiently [11,12,13]. Neonicotinoid pesticides began to be applied commonly in agricultural activities worldwide after the first neonicotinoid molecule was registered for use (i.e., imidacloprid) in 1991 [14], followed by nitenpyram and acetamiprid in 1995; thiamethoxam in
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