Hannah R Sampson scite author profile

Hannah R Sampson

2Publications

1Citation Statement Received

127Citation Statements Given

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125

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University of Leicester

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Impact of air pollution on buff-tailed bumblebees (Bombus terrestris) and their gut microbiome

Sampson

Ketley

Mallon

et al. 2020

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Bumblebees play a major role in global pollination. Consequently, their health is of high importance for food security worldwide. Yet, recent population estimates show that their numbers are declining. This decline has been attributed to habitat loss, infection and use of pesticides. An important factor for bee health that contributes to population survival is the gut microbiome composition. The bee gut microbiome provides protection from pathogens, is specific to the host and helps break down food. Without a balanced gut microbiome, the health of the bee is threatened through increased infection and mortality. The bee gut microbiome is relatively simple, being dominated by 8 core bacterial species providing a convenient study system. Previous published data shows that air pollution has an impact on bacterial behaviour. Therefore, our hypothesis is exposure to air pollution causes an imbalance in the bee gut microbiome. To test this, we exposed bees to black carbon (BC), a major component of air pollution particulate matter. We assessed the effects on bee behaviour, microbiome composition and gut bacteria treated in vitro. Bees treated with BC showed a significant increase in viable bacterial cells in their faecal community. Independent culture of gut commensals showed that BC significantly alters the structure of their biofilms, which are important for colonisation in vivo. This supports the hypothesis that air pollution can cause an imbalance in the bee gut microbiome, and may adversely influence bee health and pollinator populations.

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Air pollution modifies key colonization factors of the beneficial bee gut symbiontSnodgrassella alviand disrupts the bumblebee (Bombus terrestris) gut microbiome

Sampson¹,

Allcock²,

Mallon³

et al. 2023

Preprint

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Air pollution is the worlds largest environmental health risk. Particulate pollutants, a major component of air pollution, are detrimental to human health and a significant risk to wildlife and ecosystems globally. Black carbon, a by-product of fossil fuel and biomass burning, is a key constituent of air pollution with levels continuing to increase worldwide. Here we describe the effects of black carbon on the beneficial gut microbiome of an important global insect pollinator, the buff-tailed bumblebee (Bombus terrestris). Our data shows that exposure to black carbon particulates alters the biofilm structure, gene expression and initial adhesion of beneficial bee gut coloniser, Snodgrassella alvi in vitro. Additionally, our results show that black carbon disrupts adult Bombus terrestris gut microbiome composition, a vital component to bee health. Exposure to black carbon increased bees viable gut bacteria and significantly altered the abundance of beneficial core bacteria Gilliamella and Bombilactobacillus in the microbiome. These findings demonstrate that exposure to black carbon air pollution has direct, measurable effects on bees beneficial gut commensal bacteria and microbiome. Together these data highlight that particulate pollutants are an underexplored risk for the health of insect pollinators.

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Hannah R Sampson

Impact of air pollution on buff-tailed bumblebees (Bombus terrestris) and their gut microbiome

Air pollution modifies key colonization factors of the beneficial bee gut symbiontSnodgrassella alviand disrupts the bumblebee (Bombus terrestris) gut microbiome

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