Interactions between Nosema microspores and a neonicotinoid weaken honeybees (Apis mellifera)

Global pollinators, like honeybees, are declining in abundance and diversity, which can adversely affect natural ecosystems and agriculture. Therefore, we tested the current hypotheses describing honeybee losses as a multifactorial syndrome, by investigating integrative effects of an infectious orga...

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Veröffentlicht in:	Environmental microbiology 2010-03, Vol.12 (3), p.774-782
Hauptverfasser:	Alaux, Cédric, Brunet, Jean-Luc, Dussaubat, Claudia, Mondet, Fanny, Tchamitchan, Sylvie, Cousin, Marianne, Brillard, Julien, Baldy, Aurelie, Belzunces, Luc P, Le Conte, Yves
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Sprache:	eng
Schlagworte:	Agriculture Animals Apis mellifera Bees - drug effects Bees - microbiology Bees - physiology Humans Imidazoles - toxicity Immunity - drug effects Insecticides - toxicity Life Sciences Microbiology and Parasitology Microsporidia Microsporidiosis - mortality Microsporidiosis - veterinary Neonicotinoids Nitro Compounds - toxicity Nosema Nosema - pathogenicity Nosema - physiology Social Behavior
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creator	Alaux, Cédric Brunet, Jean-Luc Dussaubat, Claudia Mondet, Fanny Tchamitchan, Sylvie Cousin, Marianne Brillard, Julien Baldy, Aurelie Belzunces, Luc P Le Conte, Yves
description	Global pollinators, like honeybees, are declining in abundance and diversity, which can adversely affect natural ecosystems and agriculture. Therefore, we tested the current hypotheses describing honeybee losses as a multifactorial syndrome, by investigating integrative effects of an infectious organism and an insecticide on honeybee health. We demonstrated that the interaction between the microsporidia Nosema and a neonicotinoid (imidacloprid) significantly weakened honeybees. In the short term, the combination of both agents caused the highest individual mortality rates and energetic stress. By quantifying the strength of immunity at both the individual and social levels, we showed that neither the haemocyte number nor the phenoloxidase activity of individuals was affected by the different treatments. However, the activity of glucose oxidase, enabling bees to sterilize colony and brood food, was significantly decreased only by the combination of both factors compared with control, Nosema or imidacloprid groups, suggesting a synergistic interaction and in the long term a higher susceptibility of the colony to pathogens. This provides the first evidences that interaction between an infectious organism and a chemical can also threaten pollinators, interactions that are widely used to eliminate insect pests in integrative pest management.
doi_str_mv	10.1111/j.1462-2920.2009.02123.x
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subjects	Agriculture Animals Apis mellifera Bees - drug effects Bees - microbiology Bees - physiology Humans Imidazoles - toxicity Immunity - drug effects Insecticides - toxicity Life Sciences Microbiology and Parasitology Microsporidia Microsporidiosis - mortality Microsporidiosis - veterinary Neonicotinoids Nitro Compounds - toxicity Nosema Nosema - pathogenicity Nosema - physiology Social Behavior
title	Interactions between Nosema microspores and a neonicotinoid weaken honeybees (Apis mellifera)
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