Increased survival of honeybees in the laboratory after simultaneous exposure to low doses of pesticides and bacteria
Dickel, F., Münch, D., Amdam, G. V., Mappes, J., & Freitak, D. (2018). Increased survival of honeybees in the laboratory after simultaneous exposure to low doses of pesticides and bacteria. PLoS ONE, 13(1), e0191256. https://doi.org/10.1371/journal.pone.0191256
Published in
PLoS ONEDate
2018Discipline
Ekologia ja evoluutiobiologiaBiologisten vuorovaikutusten huippututkimusyksikköEcology and Evolutionary BiologyCentre of Excellence in Biological Interactions ResearchCopyright
© 2018 Dickel et al.This is an open access article distributed under the terms of the Creative Commons License.
Recent studies of honeybees and bumblebees have examined combinatory effects of different stressors, as insect pollinators are naturally exposed to multiple stressors. At the same time the potential influences of simultaneously occurring agricultural agents on insect pollinator health remain largely unknown. Due to different farming methods, and the drift of applied agents and manure, pollinators are most probably exposed to insecticides but also bacteria from organic fertilizers at the same time. We orally exposed honeybee workers to sub-lethal doses of the insecticide thiacloprid and two strains of the bacterium Enterococcus faecalis, which can occur in manure from farming animals. Our results show that under laboratory conditions the bees simultaneously exposed to the a bacterium and the pesticide thiacloprid thiacloprid had significant higher survival rates 11 days post exposure than the controls, which surprisingly showed the lowest survival. Bees that were exposed to diet containing thiacloprid showed decreased food intake. General antibacterial activity is increased by the insecticide and the bacteria, resulting in a higher immune response observed in treated individuals compared to control individuals. We thus propose that caloric restriction through behavioural and physiological adaptations may have mediated an improved survival and stress resistance in our tests. However, the decreased food consumption could in long-term also result in possible negative effects at colony level. Our study does not show an additive negative impact of sub-lethal insecticide and bacteria doses, when tested under laboratory conditions. In contrast, we report seemingly beneficial effects of simultaneous exposure of bees to agricultural agents, which might demonstrate a surprising biological capacity for coping with stressors, possibly through hormetic regulation.
...
Publisher
Public Library of ScienceISSN Search the Publication Forum
1932-6203Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/27886409
Metadata
Show full item recordCollections
License
Except where otherwise noted, this item's license is described as © 2018 Dickel et al.This is an open access article distributed under the terms of the Creative Commons License.
Related items
Showing items with similar title or keywords.
-
Effects of a glyphosate-based herbicide on survival and oxidative status of a non-target herbivore, the Colorado potato beetle (Leptinotarsa decemlineata)
Rainio, Miia J.; Margus, Aigi; Lehmann, Philipp; Helander, Marjo; Lindström, Leena (Elsevier Inc., 2019)Glyphosate is the globally most used herbicide against a wide range of weeds. Glyphosate has been considered safe to animals as it mainly targets physiological pathways in plants. However, recent toxicological studies have ... -
Natural enemies emerging in cereal fields in spring may contribute to biological control
Tortosa, Axelle; Duflot, Rémi; Rivers‐Moore, Justine; Ladet, Sylvie; Esquerré, Diane; Vialatte, Aude (Wiley-Blackwell, 2022)1. Biological pest control is known to depend on landscape heterogeneity. However, such relationship shows irregular pattern and seems influenced by local farming practices and natural enemies that overwinter within crop ... -
Environmental Remediation using Nanomaterial as adsorbents for Emerging Micropollutants
Nzilu, Dennis Mwanza; Madivoli, Edwin Shigwenya; Sujee, David Makhanu; Otenda, Brian Victor; Kareru, Patrick Gachoki; Kairigo, Pius Kinoti; Tuhkanen, Tuula (Elsevier BV, 2023)Water shortage and scarcity are issues of global concern. Water pollution caused by organic micropollutants further aggravates the problem, by rendering an already scarce resource unfit for human consumption. The existing ... -
The effects of short-term glyphosate-based herbicide exposure on insect gene expression profiles
Rainio, Miia J.; Margus, Aigi; Tikka, Santtu; Helander, Marjo; Lindström, Leena (Elsevier, 2023)Glyphosate-based herbicides (GBHs) are the most frequently used herbicides worldwide. The use of GBHs is intended to tackle weeds, but GBHs have been shown to affect the life-history traits and antioxidant defense system ... -
Rearing background and exposure environment together explain higher survival of aquaculture fish during a bacterial outbreak
Räihä, Ville; Sundberg, Lotta-Riina; Ashrafi, Roghaieh; Hyvärinen, Pekka; Karvonen, Anssi (Wiley-Blackwell Publishing Ltd., 2019)1.Parasitic diseases represent one of the greatest challenges for aquaculture worldwide and there is an increasing emphasis on ecological solutions to prevent infections. One proposed solution is enriched rearing, where ...