Effects of neonicotinoids on honey bee autogrooming behavior against the tracheal mite Acarapis woodi

The European honey bee, Apis mellifera , is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral...

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Published in	Ecotoxicology (London) Vol. 31; no. 2; pp. 251 - 258
Main Authors	Sakamoto, Yoshiko, Yoshiyama, Mikio, Maeda, Taro, Goka, Koichi
Format	Journal Article
Language	English
Published	New York Springer US 01.03.2022 Springer
Subjects	Acarapis woodi Animal behavior Animals Apis mellifera Bees Crops, Agricultural Earth and Environmental Science Ecology Ecotoxicology endoparasites Environment Environmental Management grooming (animal behavior) honey honey bees Honeybee immune system Insecticides - toxicity Mites - physiology Neonicotinoids - toxicity nicotinic receptors pollinators Thiamethoxam toxicity Self-grooming Anti-parasite defense Pollinator Insecticide Sub-lethal effect
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Abstract	The European honey bee, Apis mellifera , is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral effects because these compounds alter the central role of nicotinic acetylcholine receptor in insect brains. In this study, we assessed the effects of three neonicotinoids that have a high toxicity to bees—imidacloprid, thiamethoxam, and clothianidin—on the behavioral immune system of honey bees. We used A. mellifera and the endoparasitic mite Acarapis woodi as a behavioral immune system model because A. mellifera can effectively remove the mite by autogrooming. Our results did not demonstrate an effect of neonicotinoid application on whether bees show autogrooming or on mite removal, but the time to initial autogrooming became shorter and the number of autogrooming attempts increased. As opposed to previous studies, our findings indicate that the honey bee response to parasitic mites becomes more sensitive after exposure to neonicotinoids. Clinical Trials Registration: Not applicable
AbstractList	The European honey bee, Apis mellifera, is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral effects because these compounds alter the central role of nicotinic acetylcholine receptor in insect brains. In this study, we assessed the effects of three neonicotinoids that have a high toxicity to bees-imidacloprid, thiamethoxam, and clothianidin-on the behavioral immune system of honey bees. We used A. mellifera and the endoparasitic mite Acarapis woodi as a behavioral immune system model because A. mellifera can effectively remove the mite by autogrooming. Our results did not demonstrate an effect of neonicotinoid application on whether bees show autogrooming or on mite removal, but the time to initial autogrooming became shorter and the number of autogrooming attempts increased. As opposed to previous studies, our findings indicate that the honey bee response to parasitic mites becomes more sensitive after exposure to neonicotinoids.Clinical Trials Registration: Not applicable. The European honey bee, Apis mellifera, is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral effects because these compounds alter the central role of nicotinic acetylcholine receptor in insect brains. In this study, we assessed the effects of three neonicotinoids that have a high toxicity to bees-imidacloprid, thiamethoxam, and clothianidin-on the behavioral immune system of honey bees. We used A. mellifera and the endoparasitic mite Acarapis woodi as a behavioral immune system model because A. mellifera can effectively remove the mite by autogrooming. Our results did not demonstrate an effect of neonicotinoid application on whether bees show autogrooming or on mite removal, but the time to initial autogrooming became shorter and the number of autogrooming attempts increased. As opposed to previous studies, our findings indicate that the honey bee response to parasitic mites becomes more sensitive after exposure to neonicotinoids.Clinical Trials Registration: Not applicable.The European honey bee, Apis mellifera, is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral effects because these compounds alter the central role of nicotinic acetylcholine receptor in insect brains. In this study, we assessed the effects of three neonicotinoids that have a high toxicity to bees-imidacloprid, thiamethoxam, and clothianidin-on the behavioral immune system of honey bees. We used A. mellifera and the endoparasitic mite Acarapis woodi as a behavioral immune system model because A. mellifera can effectively remove the mite by autogrooming. Our results did not demonstrate an effect of neonicotinoid application on whether bees show autogrooming or on mite removal, but the time to initial autogrooming became shorter and the number of autogrooming attempts increased. As opposed to previous studies, our findings indicate that the honey bee response to parasitic mites becomes more sensitive after exposure to neonicotinoids.Clinical Trials Registration: Not applicable. The European honey bee, Apis mellifera, is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral effects because these compounds alter the central role of nicotinic acetylcholine receptor in insect brains. In this study, we assessed the effects of three neonicotinoids that have a high toxicity to bees—imidacloprid, thiamethoxam, and clothianidin—on the behavioral immune system of honey bees. We used A. mellifera and the endoparasitic mite Acarapis woodi as a behavioral immune system model because A. mellifera can effectively remove the mite by autogrooming. Our results did not demonstrate an effect of neonicotinoid application on whether bees show autogrooming or on mite removal, but the time to initial autogrooming became shorter and the number of autogrooming attempts increased. As opposed to previous studies, our findings indicate that the honey bee response to parasitic mites becomes more sensitive after exposure to neonicotinoids.Clinical Trials Registration: Not applicable The European honey bee, Apis mellifera , is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites, but they also have evolved a behavioral immune system to remove them. Exposures to neonicotinoids, however, can cause significant behavioral effects because these compounds alter the central role of nicotinic acetylcholine receptor in insect brains. In this study, we assessed the effects of three neonicotinoids that have a high toxicity to bees—imidacloprid, thiamethoxam, and clothianidin—on the behavioral immune system of honey bees. We used A. mellifera and the endoparasitic mite Acarapis woodi as a behavioral immune system model because A. mellifera can effectively remove the mite by autogrooming. Our results did not demonstrate an effect of neonicotinoid application on whether bees show autogrooming or on mite removal, but the time to initial autogrooming became shorter and the number of autogrooming attempts increased. As opposed to previous studies, our findings indicate that the honey bee response to parasitic mites becomes more sensitive after exposure to neonicotinoids. Clinical Trials Registration: Not applicable
Audience	Academic
Author	Yoshiyama, Mikio Maeda, Taro Goka, Koichi Sakamoto, Yoshiko
Author_xml	– sequence: 1 givenname: Yoshiko orcidid: 0000-0002-6026-242X surname: Sakamoto fullname: Sakamoto, Yoshiko email: sakamoto.yoshiko@nies.go.jp organization: National Institute for Environmental Studies – sequence: 2 givenname: Mikio surname: Yoshiyama fullname: Yoshiyama, Mikio organization: Institute of Livestock and Grassland Science, National Agriculture and Food Research Organization – sequence: 3 givenname: Taro surname: Maeda fullname: Maeda, Taro organization: Institute of Agro-Environmental Sciences, National Agriculture and Food Research Organization – sequence: 4 givenname: Koichi surname: Goka fullname: Goka, Koichi organization: National Institute for Environmental Studies
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Snippet	The European honey bee, Apis mellifera , is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites,... The European honey bee, Apis mellifera, is the most common and important pollinator of crops worldwide. Honey bees are damaged by destructive parasitic mites,...
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SubjectTerms	Acarapis woodi Animal behavior Animals Apis mellifera Bees Crops, Agricultural Earth and Environmental Science Ecology Ecotoxicology endoparasites Environment Environmental Management grooming (animal behavior) honey honey bees Honeybee immune system Insecticides - toxicity Mites - physiology Neonicotinoids - toxicity nicotinic receptors pollinators Thiamethoxam toxicity
Title	Effects of neonicotinoids on honey bee autogrooming behavior against the tracheal mite Acarapis woodi
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