Understanding COVID-19 from an exotic honey bee-disease perspective

This article compares the development of the highly infectious COVID-19 disease in humans with infections or infestations in honey bees. The importance of knowledge on the exotic nature of COVID-19 and each of its variants in providing a useful insight as to how it would be expected to develop, and in particular the expected reduction in its virulence over time, is also discussed.

A Comprehensive Review on the Medicinal Benefits of Honey with an Emphasis on Unani Medicine

Background: Honey has been used medicinally in folk medicine since the dawn of civili-zation. It is a necessary component of medicine and food in a wide variety of cultures. It has been used in Unani Medicine for centuries to treat a variety of ailments. Objective(s): This review article aims to explore the medicinal characteristics of honey in view of Unani and modern concepts, highlight its potential in the treatment of the ailments stated in Unani medical literature, and also explore the relevant evidence-based phytochemistry, pharmacological, and clinical data. Method(s): The authors searched classical texts exhaustively for information on the temperament (Mizaj), pharmacological activities, mechanism of action, and therapeutic benefits of honey. Addition-ally, a comprehensive search of internet databases was conducted to compile all available information on the physicochemical, phytochemical, and pharmacological properties of this compound. Result(s): Evidence suggests that honey contains about 180 different types of various compounds, including carbohydrates, proteins, enzymes, flavonoids, and other chemical substances. In Unani classical literature, it exerts important pharmacological actions besides its immense nutritional signifi-cance. Unani physicians advocated many tested/experimented prescriptions and formulations, which still have their relevance in the amelioration of various diseases. Conclusion(s): This analysis concludes that honey has been successfully utilized in Unani medicine for centuries to treat a variety of maladies and is a potential natural source of remedy for a variety of medical disorders. Future research on honey should include a combination of Unani and modern principles.Copyright © 2023 Bentham Science Publishers.

Crude Extracts of Talaromyces Strains (Ascomycota) Affect Honey Bee (Apis mellifera) Resistance to Chronic Bee Paralysis Virus.

Viruses contribute significantly to the global decline of honey bee populations. One way to limit the impact of such viruses is the introduction of natural antiviral compounds from fungi as a component of honey bee diets. Therefore, we examined the effect of crude organic extracts from seven strains of the fungal genus Talaromyces in honey bee diets under laboratory conditions. The strains were isolated from bee bread prepared by honey bees infected with chronic bee paralysis virus (CBPV). The antiviral effect of the extracts was also quantified in vitro using mammalian cells as a model system. We found that three extracts (from strains B13, B18 and B30) mitigated CBPV infections and increased the survival rate of bees, whereas other extracts had no effect (B11 and B49) or were independently toxic (B69 and B195). Extract B18 inhibited the replication of feline calicivirus and feline coronavirus (FCoV) in mammalian cells, whereas extracts B18 and B195 reduced the infectivity of FCoV by ~90% and 99%, respectively. Our results show that nonpathogenic fungi (and their products in food stores) offer an underexplored source of compounds that promote disease resistance in honey bees.

Surveillance of Viruses in Varroa destructor Samples Collected from Honey Bee Colonies in Ontario, Canada, between 2015 and 2019

Varroa destructor parasitism is associated with extreme honey bee (Apis mellifera) colony losses in the northern hemisphere. Varroa destructor causes severe damage, including a decrease in bee longevity and immunosuppression, and acts as a vector for viruses, such as Deformed wing virus (DWV-A). The surveillance of viral pathogens in V. destructor samples is essential to assess risks of emerging virulent viral variants (such as VDV-1) and evaluate their impact on honey bee health. Thus, the objective of this study was to identify viral pathogens in V. destructor and honey bee samples collected in Ontario, Canada, from 2015 to 2019 with the use of metagenomics and real time PCR (qPCR). DWV-A and VDV-1 had the highest abundance of viral transcripts (7.5 log2 and 5.72 log2, respectively). Acute bee paralysis virus (ABPV) and Bee macula virus were also identified. Viral identification and quantification in V. destructor samples using metagenomics will facilitate the surveillance of viral pathogens. This surveillance technique will assist diagnostic laboratories in delivering timely and accurate diagnoses and risk assessments, which in turn will help honey bee producers to take adequate measures to mitigate the damage caused by V. destructor and associated viruses. [ FROM AUTHOR]

Does sending honey bee, Apis mellifera (Hymenoptera: Apidae), colonies to lowbush blueberry, Vaccinium angustifolium (Ericaceae), for pollination increase Nosema spp. (Nosematidae) spore loads?

In the Canadian Maritimes, many beekeepers rent honey bee, Apis mellifera Linnaeus (Hymenoptera: Apidae), hives to growers of lowbush blueberry, Vaccinium angustifolium (Ericaceae), for pollination services. Anecdotally, hives have less vigour following pollination, potentially due to higher Nosema spp. (Nosematidae) spore loads, the microsporidian causing nosemosis. We undertook a study to determine whether sending honey bee hives to lowbush blueberry fields for pollination (blueberry hives) results in higher Nosema spp. spore loads relative to hives remaining in apiaries (home hives). Nosema spp. spore loads were quantified using light microscopy. Nosema apis and Nosema ceranae were differentiated using polymerase chain reaction and sequencing. Nosema spp. spore loads were greatest in April and May and declined to low levels from June to September. Ninety-eight per cent of Nosema detections were positive for N. ceranae. In April, blueberry hives had a lower spore load than home hives did;however, in June, spore loads were significantly higher in blueberry hives. No other differences in Nosema spp. spore loads were observed between hive types. We conclude that Nosema ceranae is the dominant Nosema species in the Canadian Maritimes and that using hives for lowbush blueberry pollination does not appear to influence long-term Nosema spp. spore loads.

Effects of Covid-19 pandemic lockdown and environmental pollution assessment in Campania region (Italy) through the analysis of heavy metals in honeybees.

The Covid-19 outbreak had a critical impact on a massive amount of human activities as well as the global health system. On the other hand, the lockdown and related suspension of working activities reduced pollution emissions. The use of biomonitoring is an efficient and quite recent tool to assess environmental pollution through the analysis of a proper bioindicator, such as bees. This study set out to ascertain the impact of the Covid-19 pandemic lockdown on the environmental occurrence of eleven heavy metals in the Campania region (Italy) by analyzing bees and bee products. A further aim of this study was the assessment of the Honeybee Contamination Index (HCI) in three different areas of the Campania region and its comparison with other Italian areas to depict the current environmental pollutants levels of heavy metals. The results showed that the levels of heavy metals bioaccumulated by bees during the pandemic lockdown (T1) were statistically lower than the sampling times after Covid-19 restrictions and the resumption of some or all activities (T2 and T3). A comparable trend was observed in wax and pollen. However, bee, pollen, and wax showed higher levels of Cd and Hg in T1 than T2 and T3. The analysis of the HCI showed a low contamination level of the sampling sites for Cd and Pb, and an intermediate-high level as regards Ni and Cr. The biomonitoring study highlighted a decrease of heavy metals in the environmental compartments due to the intense pandemic restrictions. Therefore, Apis mellifera and other bee products remain a reliable and alternative tool for environmental pollution assessment.

56th Congress of Veterinary Epidemiology

This proceedings contains 10 papers on risk management policy of the ministry of health, labour and welfare for ensuring safe wild game meat, prospective of application of food safety risk assessment for game meat, coronavirus disease (COVID-19) for animal owners, shelter medicine and COVID-19, the characteristics of bats as natural reservoirs of the novel coronavirus, chalkbrood in honey bees and its control measures, the economic impact of classical swine fever in Japan, benzalkonium chloride resistance in Listeria monocytogenes isolated in Japan, COVID-19 outbreak and epidemiological research in Japan and the amendment of the act on domestic animal infectious diseases control.

Chemical composition, biological activity and factors influencing the quality of Algerian bee-honey (Apis mellifera)

For centuries, honey, the main bee-hive product, has been widely used as an effective therapeutic agent against several health disorders, in addition to its extensive uses as a natural-healthy and energetic food. Further, bee-honey is a beneficial substance when we explore the many uses in medicine, including bacteria-and-virus killing such as Covid-19, body-protecting chemicals, anti-inflammatory, antioxidant, and anti-cancer activities. Honey is characterized by complex and variable chemical compositions depending on several fac-tors;botanical origin, climatic condition, bee health, and other stress factors, in particular, uncontrolled use of pesticides and adulteration in this product. Additionally, honey contains an important number of bioactive compounds (carbohydrates, lipids, amino acids, proteins, vitamins, and minerals) whose main roles are involved in medical therapies and wound healing. Thus, this review summarizes the literature about the chemical composition, biological activity, and factors affecting bee-honey production and quality.

Honey bee (Apis mellifera L.) colonies as bioindicators of environmental SARS-CoV-2 occurrence.

SARS-CoV-2 is responsible for the COVID-19 pandemic. Airflows sustain the infection spread, and in densely urbanized areas airborne particulate matters (PMs) are deemed to aggravate the viral transmission. Apis mellifera colonies are used as bioindicators as they allow environmental sampling of different nature, PMs included. This experiment demonstrates for the first time the possible use of honey bee colonies in the SARS-CoV-2 monitoring. The trial was conducted in Bologna on 18 March 2021, when the third wave of the Italian pandemic was at its peak and environmental conditions allowed high PM concentrations in the air. Sterile swabs were lined up at the hive entrance to sample the dusty material on the body of returning foragers. All of them resulted positive for the target genes of viral SARS-CoV-2 RNA. Likewise, internal samples were taken, but they resulted in no amplification of the target sequences. This experiment does not support speculations about the role of honey bees or their products in SARS-CoV-2 transmission. However, it indicates a novel use of A. mellifera colonies in the environmental detection of airborne human pathogens, at least in a densely urbanized area, deserving better understanding and possible integration with data from automatic air samplers.