Abstract
Bees are important pollinators in agriculture. The bee population has recently begun to decline possibly due to pesticides. The bee gut microbiota strongly influences the health of bees. The gut microbiota of bees is composed of distinct members belonging to selective taxa. Chemicals like pesticides can alter the gut microbiota. The present study investigated the effect of carbaryl pesticides on gut microbiota of honey bees, which had come in contact with rapeseed plants (Brassica napus) sprayed with carbaryl wettable powder during the honey bee brood test under semi-field condition. Molecular techniques (conventional and quantitative polymerase chain reaction (PCR), clone library method, and DNA sequencing) were employed to analyze changes in the microbial communities between the pesticide-exposed and unexposed bees. Phylogenetic analysis of 16S rRNA genes of the clones from both groups, showed differences in their respective compositions of core and non-core bacteria. Both groups contained carbohydrate-degrading bacteria such as Gilliamella apicola and Lactobacillus. However, the unexposed bees harbored Alphaproteobacteria, which were absent in the exposed bees. Microorganisms found in honey bee guts such as Snodgrassella alvi and L. kullabergensis, however, were observed only in the exposed bees, but not in the unexposed bees. The difference between the two groups was distinctly recognized when copy numbers of 16S rRNA genes were compared by quantitative PCR. Results showed that the average gene copy number for the unexposed bees was higher than that for the exposed bees. This may indicate the toxic effect of pesticides on bees and gut microbiota.
Highlights
Pollinators that move pollen from anther to stigma in flowers include ants, bats, beetles, birds, butterflies, flies, moths, wasps, and bees
Exposure of honey bees to pesticide under semi‐field conditions The semi-field test was performed to assess the effect of carbaryl wettable powder (WP) 50%, Detailed experimental conditions were maintained as described previously [4]
The experiment consisted of three treatment groups, with each group in three replicate tunnels
Summary
Pollinators that move pollen from anther to stigma in flowers include ants, bats, beetles, birds, butterflies, flies, moths, wasps, and bees. The worker bees collect nectar and pollen from different flowers and bring it back to the colony hives. They are tasked with looking after the larvae, in feeding them through the process known as trophallaxis [12]. This feeding behavior strongly influences the development of microbial community in guts of the juvenile honey bees. The uniformity of microbial composition in the guts of Apis and non-Apis bees is a result of this feeding behavior [13, 14]
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