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      The vectoring competence of the mite Varroa destructor for deformed wing virus of honey bees is dynamic and affects survival of the mite

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          Abstract

          The ectoparasitic mite, Varroa destructor and the viruses it vectors, including types A and B of Deformed wing virus (DWV), pose a major threat to honey bees, Apis mellifera. Analysis of 256 mites collected from the same set of field colonies on five occasions from May to October 2021 showed that less than a half of them, 39.8% (95% confidence interval (CI): 34.0 - 46.0%), were able to induce a high (overt) level DWV infection with more than 10 9 viral genomes per bee in the pupa after 6 days of feeding, with both DWV-A and DWV-B being vectored at similar rates. To investigate the effect of the phoretic (or dispersal) stage on adult bees on the mites’ ability to vector DWV, the mites from two collection events were divided into two groups, one of which was tested immediately for their infectiveness, and the other was kept with adult worker bees in cages for 12 days prior to testing their infectiveness. We found that while 39.2% (95% CI: 30.0 – 49.1%) of the immediately tested mites induced overt-level infections, 12-day passage on adult bees significantly increased the infectiousness to 89.8% (95% CI: 79.2 – 95.6%). It is likely that Varroa mites that survive brood interruptions in field colonies are increasingly infectious. The mite lifespan was affected by the DWV type it transmitted to pupae. The mites, which induced high DWV-B but not DWV-A infection had an average lifespan of 15.5 days (95% CI: 11.8 - 19.2 days), which was significantly shorter than those of the mites which induced high DWV-A but not DWV-B infection, with an average lifespan of 24.3 days (95% CI: 20.2 - 28.5), or the mites which did not induce high levels of DWV-A or DWV-B, with an average survival of 21.2 days (95% CI: 19.0 - 23.5 days). The mites which transmitted high levels of both DWV-A and DWV-B had an intermediate average survival of 20.5 days (95% CI: 15.1 - 25.9 days). The negative impact of DWV-B on mite survival could be a consequence of the ability of DWV-B, but not DWV-A to replicate in Varroa.

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          Most cited references41

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          Biology and control of Varroa destructor.

          The ectoparasitic honey bee mite Varroa destructor was originally confined to the Eastern honey bee Apis cerana. After a shift to the new host Apis mellifera during the first half of the last century, the parasite dispersed world wide and is currently considered the major threat for apiculture. The damage caused by Varroosis is thought to be a crucial driver for the periodical colony losses in Europe and the USA and regular Varroa treatments are essential in these countries. Therefore, Varroa research not only deals with a fascinating host-parasite relationship but also has a responsibility to find sustainable solutions for the beekeeping. This review provides a survey of the current knowledge in the main fields of Varroa research including the biology of the mite, damage to the host, host tolerance, tolerance breeding and Varroa treatment. We first present a general view on the functional morphology and on the biology of the Varroa mite with special emphasis on host-parasite interactions during reproduction of the female mite. The pathology section describes host damage at the individual and colony level including the problem of transmission of secondary infections by the mite. Knowledge of both the biology and the pathology of Varroa mites is essential for understanding possible tolerance mechanisms in the honey bee host. We comment on the few examples of natural tolerance in A. mellifera and evaluate recent approaches to the selection of Varroa tolerant honey bees. Finally, an extensive listing and critical evaluation of chemical and biological methods of Varroa treatments is given. This compilation of present-day knowledge on Varroa honey bee interactions emphasizes that we are still far from a solution for Varroa infestation and that, therefore, further research on mite biology, tolerance breeding, and Varroa treatment is urgently needed. Copyright 2009 Elsevier Inc. All rights reserved.
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            Approximate Is Better than "Exact" for Interval Estimation of Binomial Proportions

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              Deformed wing virus.

              Deformed wing virus (DWV; Iflaviridae) is one of many viruses infecting honeybees and one of the most heavily investigated due to its close association with honeybee colony collapse induced by Varroadestructor. In the absence of V.destructor DWV infection does not result in visible symptoms or any apparent negative impact on host fitness. However, for reasons that are still not fully understood, the transmission of DWV by V.destructor to the developing pupae causes clinical symptoms, including pupal death and adult bees emerging with deformed wings, a bloated, shortened abdomen and discolouration. These bees are not viable and die soon after emergence. In this review we will summarize the historical and recent data on DWV and its relatives, covering the genetics, pathobiology, and transmission of this important viral honeybee pathogen, and discuss these within the wider theoretical concepts relating to the genetic variability and population structure of RNA viruses, the evolution of virulence and the development of disease symptoms. Copyright 2009 Elsevier Inc. All rights reserved.
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                Author and article information

                Contributors
                Journal
                Front Insect Sci
                Front Insect Sci
                Front. Insect Sci.
                Frontiers in Insect Science
                Frontiers Media S.A.
                2673-8600
                2673-8600
                23 September 2022
                2022
                : 2
                : 931352
                Affiliations
                [1] 1 United States Department of Agriculture - Agricultural Research Service, Bee Research Laboratory , Beltsville, MD, United States
                [2] 2 Department of Entomology, University of Maryland , College Park, MD, United States
                Author notes

                Edited by: Michael Lattorff, University of Nairobi, Kenya

                Reviewed by: Jinzhi Niu, Southwest University, China; Ernesto Guzman-Novoa, University of Guelph, Canada; Per Kryger, Aarhus University, Denmark; Benjamin Dainat, Agroscope, Switzerland

                *Correspondence: Steven C. Cook, steven.cook@ 123456usda.gov ; Francisco Posada-Florez, francisco.posada@ 123456usda.gov ; Eugene V. Ryabov, eugene.ryabov@ 123456gmail.com

                †These authors have contributed equally to this work and share last authorship

                This article was submitted to Insect Health and Pathology, a section of the journal Frontiers in Insect Science

                Article
                10.3389/finsc.2022.931352
                10926515
                38468796
                cc60bcb0-1af1-4ed8-a566-62873282ed2c
                Copyright © 2022 Ryabov, Posada-Florez, Rogers, Lamas, Evans, Chen and Cook

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                : 28 April 2022
                : 12 September 2022
                Page count
                Figures: 4, Tables: 0, Equations: 0, References: 40, Pages: 11, Words: 6513
                Funding
                Funded by: National Institute of Food and Agriculture , doi 10.13039/100005825;
                Funded by: National Institute of Food and Agriculture , doi 10.13039/100005825;
                Categories
                Insect Science
                Original Research

                insect virus vector,rna virus,arthropod vector,varroa destructor,tripartite interactions,integrated pest management (ipm),apis mellifera

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