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1. Spatiotemporal, environmental, and behavioral predictors of Varroa mite intensity in managed honey bee apiaries

   https://doi.org/10.1371/journal.pone.0325801  

   Boehm_Vock, Laura; Mossman, Lauren M; Rapti, Zoi; Dolezal, Adam G; Clifton, Sara M (August 2025, PLOS One)

   Rueppell, Olav (Ed.)

   Honey bees contribute substantially to the world economy through pollination services and honey production. In the U.S. alone, honey bee pollination is estimated to contribute at least $11 billion annually, primarily through the pollination of specialty crops. However, beekeepers lose about half of their hives every season due to disease, insecticides, and other environmental factors. Here, we explore and validate a spatiotemporal statistical model ofVarroa destructormite burden (in mites/300 bees) in managed honey bee colonies, exploring the impact of both environmental factors and beekeeper behaviors. We examine risk factors forVarroainfestation using apiary inspection data collected across the state of Illinois over 2018–2019, and we test the models using inspection data from 2020–2021. After accounting for spatial and temporal trends, we find that most environmental factors (e.g., floral quality, insecticide load) are not predictive ofVarroaintensity, while lower numbers of nearby apiaries and several beekeeper behaviors (e.g., supplemental feeding and mite monitoring/treatment) are protective againstVarroa. Interestingly, while monitoringandtreating forVarroais protective, treatingwithoutmonitoring is no more effective than not treating at all. This is an important result supporting Integrated Pest Management (IPM) approaches. 

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2. Neonicotinoids disrupt circadian rhythms and sleep in honey bees

   https://doi.org/10.1038/s41598-020-72041-3  

   Tackenberg, Michael C.; Giannoni-Guzmán, Manuel A.; Sanchez-Perez, Erik; Doll, Caleb A.; Agosto-Rivera, José L.; Broadie, Kendal; Moore, Darrell; McMahon, Douglas G. (December 2020, Scientific Reports)

   Abstract Honey bees are critical pollinators in ecosystems and agriculture, but their numbers have significantly declined. Declines in pollinator populations are thought to be due to multiple factors including habitat loss, climate change, increased vulnerability to disease and parasites, and pesticide use. Neonicotinoid pesticides are agonists of insect nicotinic cholinergic receptors, and sub-lethal exposures are linked to reduced honey bee hive survival. Honey bees are highly dependent on circadian clocks to regulate critical behaviors, such as foraging orientation and navigation, time-memory for food sources, sleep, and learning/memory processes. Because circadian clock neurons in insects receive light input through cholinergic signaling we tested for effects of neonicotinoids on honey bee circadian rhythms and sleep. Neonicotinoid ingestion by feeding over several days results in neonicotinoid accumulation in the bee brain, disrupts circadian rhythmicity in many individual bees, shifts the timing of behavioral circadian rhythms in bees that remain rhythmic, and impairs sleep. Neonicotinoids and light input act synergistically to disrupt bee circadian behavior, and neonicotinoids directly stimulate wake-promoting clock neurons in the fruit fly brain. Neonicotinoids disrupt honey bee circadian rhythms and sleep, likely by aberrant stimulation of clock neurons, to potentially impair honey bee navigation, time-memory, and social communication. 

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3. The Role of Colony Temperature in the Entrainment of Circadian Rhythms of Honey Bee Foragers

   https://doi.org/10.1093/aesa/saab021  

   Giannoni-Guzmán, Manuel A; Rivera-Rodriguez, Emmanuel J; Aleman-Rios, Janpierre; Melendez Moreno, Alexander M; Pérez Ramos, Melina; Pérez-Claudio, Eddie; Loubriel, Darimar; Moore, Darrell; Giray, Tugrul; Agosto-Rivera, Jose L (May 2021, Annals of the Entomological Society of America)

   O'Shea-Wheller, Thomas (Ed.)

   Abstract Honey bees utilize their circadian rhythms to accurately predict the time of day. This ability allows foragers to remember the specific timing of food availability and its location for several days. Previous studies have provided strong evidence toward light/dark cycles being the primary Zeitgeber for honey bees. Work in our laboratory described large individual variation in the endogenous period length of honey bee foragers from the same colony and differences in the endogenous rhythms under different constant temperatures. In this study, we further this work by examining the temperature inside the honey bee colony. By placing temperature and light data loggers at different locations inside the colony we measured temperature at various locations within the colony. We observed significant oscillations of the temperature inside the hive, that show seasonal patterns. We then simulated the observed temperature oscillations in the laboratory and found that using the temperature cycle as a Zeitgeber, foragers present large individual differences in the phase of locomotor rhythms for temperature. Moreover, foragers successfully synchronize their locomotor rhythms to these simulated temperature cycles. Advancing the cycle by six hours, resulting in changes in the phase of activity in some foragers in the assay. The results are shown in this study highlight the importance of temperature as a potential Zeitgeber in the field. Future studies will examine the possible functional and evolutionary role of the observed phase differences of circadian rhythms. 

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4. Unhealthy brood odor scores predict pathogen loads of several important honey bee diseases

   https://doi.org/10.3389/frbee.2025.1509871  

   Alger, Samantha A; Burnham, P Alexander; Miller, M Sydney; Amiri, Esmaeil; Jordan, Corinne; Wagoner, Kaira (April 2025, Frontiers in Bee Science)

   Pests and pathogens are a primary threat to honey bee(Apis mellifera)colonies worldwide. Selective breeding for honey bees resistant to these stressors represents a promising approach for mitigating their impacts on honey bee health. UBeeO is a novel hygiene-eliciting selection tool that has been used to identify honey bee colonies that are resistant to the parasitic miteVarroa destructor, and that are more likely to survive winter without beekeeper intervention. Here, we used three separate case studies to evaluate the effectiveness of the UBeeO assay in identifying colonies resist to disease. In three distinct geographic regions, we measured UBeeO scores along with the prevalence and load of key fungal and viral honey bee pathogens. We show that UBeeO can be used to identify colonies resistant to several other diseases, including the two fungal pathogens chalkbrood (Ascosphaera apis) andVairimorphaspp. (previouslyNosema), and multiple viruses, all critically important to honey bee health and survival. Furthermore, we identify potential UBeeO resistance thresholds for each pathogen, demonstrating an inverse relationship between pathogen virulence and the minimum UBeeO score associated with resistance to that pathogen. These findings suggest that UBeeO-guided selection strategies have the potential to significantly improve honey bee breeding programs by facilitating identification of resilient and pathogen-resistant colonies. The broad geographic range of our study sites underscores the robustness and applicability of UBeeO across varying environmental contexts. Since honey bees provide essential pollination services in both natural and agricultural ecosystems, this work has major implications for environmental health, crop productivity, and food security on a global scale. 

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5. Effects of coumaphos on locomotor activities of different honeybee (Apis mellifera L.) subspecies and ecotypes

   https://doi.org/10.1007/s13592-023-01017-9  

   Arslan, Okan Can; Erdem, Babür; Somel, Mehmet; GIRAY, Tugrul; Kence, Meral (August 2023, Apidologie)

   Abstract The effects of acute sublethal doses of coumaphos, an acaricide used againstVarroa destructorinfestation in beekeeping, on the locomotor activities of four native honeybee subspecies of Türkiye including two ecotypes (Carniolan honeybee -A. m. carnica, Syrian honeybee -A. m. syriaca, Caucasian honeybee-A. m. caucasica, and Muğla and Yığılca ecotypes of Anatolian honeybeeA. m. anatoliaca) were investigated using an individual locomotor activity monitoring system. Analysis of locomotor activity data in the first 12-h, last 12-h, and 24-h time periods showed that bees fromcaucasicaandcarnicasubspecies were not affected by coumaphos at all three acute doses (1, 2, and 5 μg coumaphos in 10 μl sucrose syrup for each bee). In contrast, bees fromA. m. syriacasubspecies showed significantly elevated locomotor activity levels at 2 and 5 μg coumaphos doses within the first 12 h. Bees from both Muğla and Yığılca ecotypes ofanatoliacasubspecies also showed elevated locomotor activity levels at 5 μg coumaphos dose but the magnitude of increase was lower in these ecotypes compared to that seen insyriacasubspecies in the first 12-h period. In general, increasing doses of coumaphos resulted in increased locomotor activity (locomotor activity), with differences in sensitivity across honeybee populations. Possible mechanisms underlying this variance and suggestions for further studies are discussed. 

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