scholarly journals Descriptive Analysis of the Varroa Non-Reproduction Trait in Honey Bee Colonies and Association with Other Traits Related to Varroa Resistance

Insects ◽  
2020 ◽  
Vol 11 (8) ◽  
pp. 492 ◽  
Author(s):  
Sonia E. Eynard ◽  
Christina Sann ◽  
Benjamin Basso ◽  
Anne-Laure Guirao ◽  
Yves Le Conte ◽  
...  
Keyword(s):  
Honey Bee ◽  
Empirical Bayes ◽  
Descriptive Analysis ◽  
Field Studies ◽  
Colony Losses ◽  
Bee Colony ◽  
Bee Health ◽  
Honey Bee Health ◽  
Varroa Resistance ◽  
Resistance Traits

In the current context of worldwide honey bee colony losses, among which the varroa mite plays a major role, the hope to improve honey bee health lies in part in the breeding of varroa resistant colonies. To do so, methods used to evaluate varroa resistance need better understanding. Repeatability and correlations between traits such as mite non-reproduction (MNR), varroa sensitive hygiene (VSH), and hygienic behavior are poorly known, due to practical limitations and to their underlying complexity. We investigate (i) the variability, (ii) the repeatability of the MNR score, and (iii) its correlation with other resistance traits. To reduce the inherent variability of MNR scores, we propose to apply an empirical Bayes correction. In the short-term (ten days), MNR had a modest repeatability of 0.4, whereas in the long-term (a month), it had a low repeatability of 0.2, similar to other resistance traits. Within our dataset, there was no correlation between MNR and VSH. Although MNR is amongst the most popular varroa resistance estimates in field studies, its underlying complex mechanism is not fully understood. Its lack of correlation with better described resistance traits and low repeatability suggest that MNR needs to be interpreted cautiously, especially when used for selection.

scholarly journals Descriptive Analysis of the Varroa Non-reproduction Trait in Honey Bee Colonies and Association with Other Traits Related to Varroa Resistance

2020 ◽  
Author(s):  
Sonia E. Eynard ◽  
Christina Sann ◽  
Benjamin Basso ◽  
Anne-Laure Guirao ◽  
Yves Le Conte ◽  
...  
Keyword(s):  
Honey Bee ◽  
Empirical Bayes ◽  
Descriptive Analysis ◽  
Field Studies ◽  
Colony Losses ◽  
Bee Colony ◽  
Bee Health ◽  
Honey Bee Health ◽  
Varroa Resistance ◽  
Resistance Traits

In the current context of worldwide honey bee colony losses, among which the varroa mite plays a major role, hope to improve honey bee health lies in part in the breeding of varroa resistant colonies. To do so, methods used to evaluate varroa resistance need better understanding. Repeatability and correlations between traits such as Mite Non-Reproduction (MNR), Varroa Sensitive Hygiene (VSH) and hygienic behaviour are poorly known, due to practical limitations and to their underlying complexity. We investigate (i) the variability, (ii) repeatability of the MNR score and (iii) its correlation with other resistance traits. To reduce the inherent variability of MNR scores, we propose to apply an Empirical Bayes correction. On the short-term (ten days) MNR had a modest repeatability of 0.4 whereas on the long- term (a month) it had a low repeatability of 0.2, similar to other resistance traits. Within our dataset there was no correlation between MNR and VSH. Although MNR is amongst the most popular varroa resistance estimates in field studies, its underlying complex mechanism is not fully understood. Its lack of correlation with better described resistance traits and low repeatability suggest that MNR need to be interpreted cautiously, especially when used for selection.

scholarly journals Haemolymph removal by the parasite Varroa destructor can trigger the proliferation of the Deformed Wing Virus in mite infested bees (Apis mellifera), contributing to enhanced pathogen virulence

2018 ◽  
Author(s):  
Desiderato Annoscia ◽  
Sam P. Brown ◽  
Gennaro Di Prisco ◽  
Emanuele De Paoli ◽  
Simone Del Fabbro ◽  
...  
Keyword(s):  
Honey Bee ◽  
Varroa Destructor ◽  
Viral Evolution ◽  
Colony Losses ◽  
Viral Pathogen ◽  
Deformed Wing Virus ◽  
Bee Colony ◽  
Bee Health ◽  
Honey Bee Health ◽  
Mite Feeding

AbstractThe association between the Deformed Wing Virus and the parasitic mite Varroa destructor has been identified as a major cause of worldwide honey bee colony losses. The mite acts as a vector of the viral pathogen and can trigger its replication in infected bees. However, the mechanistic details underlying this tripartite interaction are still poorly defined, and, in particular, the causes of viral proliferation in mite infested bees.Here we develop and test a novel hypothesis - grounded in ecological predator-prey theory - that mite feeding destabilizes viral immune control through the removal of both viral ‘prey’ and immune ‘predators’, triggering uncontrolled viral replication. Consistent with this hypothesis, we show that experimental removal of increasing volumes of haemolymph from individual bees results in increasing viral densities. In contrast, we find no support for alternative proposed mechanisms of viral expansion via mite immune-suppression or within-host viral evolution.Overall, these results provide a new model for the mechanisms driving pathogen-parasite interactions in bees, which ultimately underpin honey bee health decline and colony losses.

scholarly journals Identifying the climatic drivers of honey bee disease in England and Wales

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Ben W. Rowland ◽  
Stephen P. Rushton ◽  
Mark D. F. Shirley ◽  
Mike A. Brown ◽  
Giles E. Budge
Keyword(s):  
Honey Bee ◽  
Disease Risk ◽  
Meteorological Data ◽  
Meteorological Variables ◽  
Colony Losses ◽  
Bee Colony ◽  
Bee Health ◽  
Colony Loss ◽  
Honey Bee Health ◽  
Bee Disease

AbstractHoney bee colony health has received considerable attention in recent years, with many studies highlighting multifactorial issues contributing to colony losses. Disease and weather are consistently highlighted as primary drivers of colony loss, yet little is understood about how they interact. Here, we combined disease records from government honey bee health inspections with meteorological data from the CEDA to identify how weather impacts EFB, AFB, CBP, varroosis, chalkbrood and sacbrood. Using R-INLA, we determined how different meteorological variables influenced disease prevalence and disease risk. Temperature caused an increase in the risk of both varroosis and sacbrood, but overall, the weather had a varying effect on the six honey bee diseases. The risk of disease was also spatially varied and was impacted by the meteorological variables. These results are an important step in identifying the impacts of climate change on honey bees and honey bee diseases.

scholarly journals RNAseq Analysis Reveals Virus Diversity within Hawaiian Apiary Insect Communities

Viruses ◽  
2019 ◽  
Vol 11 (5) ◽  
pp. 397 ◽  
Author(s):  
Brettell ◽  
Schroeder ◽  
Martin
Keyword(s):  
Honey Bee ◽  
Large Scale ◽  
Pest Species ◽  
Insect Communities ◽  
Colony Losses ◽  
Viral Pathogen ◽  
Deformed Wing Virus ◽  
Virus Diversity ◽  
Bee Health ◽  
Honey Bee Health

Deformed wing virus (DWV) is the most abundant viral pathogen of honey bees and has been associated with large-scale colony losses. DWV and other bee-associated RNA viruses are generalists capable of infecting diverse hosts. Here, we used RNAseq analysis to test the hypothesis that due to the frequency of interactions, a range of apiary pest species would become infected with DWV and/or other honey bee-associated viruses. We confirmed that DWV-A was the most prevalent virus in the apiary, with genetically similar sequences circulating in the apiary pests, suggesting frequent inter-species transmission. In addition, different proportions of the three DWV master variants as indicated by BLAST analysis and genome coverage plots revealed interesting DWV-species groupings. We also observed that new genomic recombinants were formed by the DWV master variants, which are likely adapted to replicate in different host species. Species groupings also applied when considering other viruses, many of which were widespread in the apiaries. In social wasps, samples were grouped further by site, which potentially also influenced viral load. Thus, the apiary invertebrate community has the potential to act as reservoirs of honey bee-associated viruses, highlighting the importance of considering the wider community in the apiary when considering honey bee health.

scholarly journals Varroamites and honey bee health: canVarroaexplain part of the colony losses?

Apidologie ◽  
2010 ◽  
Vol 41 (3) ◽  
pp. 353-363 ◽  
Author(s):  
Yves Le Conte ◽  
Marion Ellis ◽  
Wolfgang Ritter
Keyword(s):  
Honey Bee ◽  
Colony Losses ◽  
Bee Health ◽  
Honey Bee Health

scholarly journals Pesticide–Virus Interactions in Honey Bees: Challenges and Opportunities for Understanding Drivers of Bee Declines

Viruses ◽  
2020 ◽  
Vol 12 (5) ◽  
pp. 566
Author(s):  
Gyan P. Harwood ◽  
Adam G. Dolezal
Keyword(s):  
Honey Bee ◽  
Honey Bees ◽  
Colony Losses ◽  
Challenges And Opportunities ◽  
Bee Health ◽  
Honey Bee Health ◽  
Varroa Mites ◽  
The Individual ◽  
Inadequate Nutrition ◽  
Virus Interactions

Honey bees are key agricultural pollinators, but beekeepers continually suffer high annual colony losses owing to a number of environmental stressors, including inadequate nutrition, pressures from parasites and pathogens, and exposure to a wide variety of pesticides. In this review, we examine how two such stressors, pesticides and viruses, may interact in additive or synergistic ways to affect honey bee health. Despite what appears to be a straightforward comparison, there is a dearth of studies examining this issue likely owing to the complexity of such interactions. Such complexities include the wide array of pesticide chemical classes with different modes of actions, the coupling of many bee viruses with ectoparasitic Varroa mites, and the intricate social structure of honey bee colonies. Together, these issues pose a challenge to researchers examining the effects pesticide-virus interactions at both the individual and colony level.

scholarly journals Screening of Honey Bee Pathogens in the Czech Republic and Their Prevalence in Various Habitats

Insects ◽  
2021 ◽  
Vol 12 (12) ◽  
pp. 1051
Author(s):  
Petr Mráz ◽  
Marian Hýbl ◽  
Marek Kopecký ◽  
Andrea Bohatá ◽  
Irena Hoštičková ◽  
...  
Keyword(s):  
Czech Republic ◽  
Honey Bee ◽  
National Park ◽  
Urban Ecosystems ◽  
Point Of View ◽  
The Czech Republic ◽  
Bee Colony ◽  
Bee Health ◽  
Honey Bee Health ◽  
Inadequate Nutrition

Western honey bee (Apis mellifera) is one of the most important pollinators in the world. Thus, a recent honey bee health decline and frequent honey bee mass losses have drawn attention and concern. Honey bee fitness is primarily reduced by pathogens, parasites, and viral load, exposure to pesticides and their residues, and inadequate nutrition from both the quality and amount of food resources. This study evaluated the prevalence of the most common honey bee pathogens and viruses in different habitats across the Czech Republic. The agroecosystems, urban ecosystems, and national park were chosen for sampling from 250 colonies in 50 apiaries. Surprisingly, the most prevalent honey bee pathogens belong to the family Trypanosomatidae including Lotmaria passim and Crithidia mellificae. As expected, the most prevalent viruses were DWV, followed by ABPV. Additionally, the occurrence of DWV-B and DWV-C were correlated with honey bee colony mortality. From the habitat point of view, most pathogens occurred in the town habitat, less in the agroecosystem and least in the national park. The opposite trend was observed in the occurrence of viruses. However, the prevalence of viruses was not affected by habitat.

scholarly journals Comb Irradiation Has Limited, Interactive Effects on Colony Performance or Pathogens in Bees, Varroa destructor and Wax Based on Two Honey Bee Stocks

Insects ◽  
2019 ◽  
Vol 10 (1) ◽  
pp. 15 ◽  
Author(s):  
Lilia I. De Guzman ◽  
Michael Simone-Finstrom ◽  
Amanda M. Frake ◽  
Philip Tokarz
Keyword(s):  
Honey Bee ◽  
Honey Bees ◽  
Varroa Destructor ◽  
Adult Population ◽  
Interactive Effects ◽  
Colony Losses ◽  
Deformed Wing Virus ◽  
Bee Health ◽  
Honey Bee Health ◽  
Russian Honey Bees

Parasitic mites and pathogens compromise honey bee health. Development of sustainable and integrative methods of managing these problems will minimize their detrimental impact on honey bees. Here, we aimed to determine if the combination of using mite-resistant stocks along with gamma-irradiated combs influences colony health and productivity. The major finding concerned honey bee genotype confirming that Russian honey bees are more resistant to Varroa destructor than Italian honey bees. The effect of comb irradiation was inconsistent showing a significant increase in adult bee population and amount of stored pollen in 2015, but not in 2016. The increased amount of stored pollen was probably associated with larger adult population in colonies with irradiated combs in September 2015 regardless of honey bee stock. Nevertheless, the ability of bees to collect and store more pollen in the irradiated group does not appear to compensate the negative impacts of mite parasitism on honey bees especially in the Italian bees, which consistently suffered significant colony losses during both years. Results of viral analyses of wax, newly emerged bees, and Varroa and their pupal hosts showed common detections of Deformed wing virus (DWV), Varroa destructor virus (VDV-1), Chronic bee paralysis virus (CBPV), and Black queen cell virus (BQCV). Wax samples had on average ~4 viruses or pathogens detected in both irradiated and non-irradiated combs. Although pathogen levels varied by month, some interesting effects of honey bee stock and irradiation treatment were notable, indicating how traits of mite resistance and alternative treatments may have additive effects. Further, this study indicates that wax may be a transmission route of viral infection. In addition, pupae and their infesting mites from Italian colonies exhibited higher levels of DWV than those from Russian colonies suggesting potential DWV resistance by Russian honey bees. CBPV levels were also reduced in mites from Russian colonies in general and in mites, mite-infested pupae, and newly emerged bees that were collected from irradiated combs. However, BQCV levels were not reduced by comb irradiation. Overall, the contribution of irradiating comb in improving honey bee health and colony survival appears to be subtle, but may be useful as part of an integrated pest management strategy with the addition of using mite-resistant stocks.

scholarly journals RNAi and Antiviral Defense in the Honey Bee

2015 ◽  
Vol 2015 ◽  
pp. 1-10 ◽  
Author(s):  
Laura M. Brutscher ◽  
Michelle L. Flenniken
Keyword(s):  
Honey Bee ◽  
Honey Bees ◽  
Defense Mechanism ◽  
Antiviral Defense ◽  
Virus Infections ◽  
Colony Losses ◽  
The Us ◽  
Bee Health ◽  
Honey Bee Health

Honey bees play an important agricultural and ecological role as pollinators of numerous agricultural crops and other plant species. Therefore, investigating the factors associated with high annual losses of honey bee colonies in the US is an important and active area of research. Pathogen incidence and abundance correlate with Colony Collapse Disorder- (CCD-) affected colonies in the US and colony losses in the US and in some European countries. Honey bees are readily infected by single-stranded positive sense RNA viruses. Largely dependent on the host immune response, virus infections can either remain asymptomatic or result in deformities, paralysis, or death of adults or larvae. RNA interference (RNAi) is an important antiviral defense mechanism in insects, including honey bees. Herein, we review the role of RNAi in honey bee antiviral defense and highlight some parallels between insect and mammalian immune systems. A more thorough understanding of the role of pathogens on honey bee health and the immune mechanisms bees utilize to combat infectious agents may lead to the development of strategies that enhance honey bee health and result in the discovery of additional mechanisms of immunity in metazoans.

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