• Selective breeding sustainably protects

    From ScienceDaily@1:317/3 to All on Thu Apr 7 22:30:40 2022
    Selective breeding sustainably protects honey bees from Varroa mite


    Date:
    April 7, 2022
    Source:
    University of Exeter
    Summary:
    A new breed of honey bees provides a major advance in the global
    fight against the parasitic Varroa mite, new research shows.



    FULL STORY ==========================================================================
    A new breed of honey bees provides a major advance in the global fight
    against the parasitic Varroa mite, new research shows.


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    The invasive mite, which has spread to all continents except Australia
    and Antarctica, has been the prime threat to honey bees since its initial expansion 50 years ago.

    In the study -- by the universities of Louisiana and Exeter, and the Agricultural Research Service of the US Department of Agriculture (USDA) -
    - "Pol-line" bees, bred for resistance to the mite in a rigorous 20-year breeding programme, were trialled alongside a standard variety in a
    large-scale pollination operation.

    The mite-resistant bees were more than twice as likely to survive the
    winter (60% survival compared to 26% in standard honey bees). While the standard honey bees experienced high losses unless extensive chemical
    miticide treatments were used.

    "The Varroa mite is the greatest threat to managed honey bee colonies globally," said Dr Thomas O'Shea-Wheller, of the Environment and
    Sustainability Institute at Exeter's Penryn Campus in Cornwall.

    "So far, new methods to control the mites -- and the diseases that
    they carry - - have had limited success, and the mites are becoming increasingly resistant to chemical treatments. It's a ticking time-bomb.



    ==========================================================================
    "By selectively breeding bees that identify and remove mites from their colonies, our study found a significant reduction in mite numbers,
    and crucially, a two-fold increase in colony survival.

    "While this is the first large-scale trial, continued breeding and use
    of these bees has shown consistently promising results.

    "This kind of resistance provides a natural and sustainable solution
    to the threat posed by Varroa mites, and does not rely on chemicals
    or human intervention." The study took place across three US states (Mississippi, California, and North Dakota), where commercial beekeepers
    move tens of thousands of colonies annually to provide pollination for large-scale agriculture.

    Varroa mites originated in Asia, so European honey bees (the most
    common species kept for pollination) have not evolved alongside them,
    and therefore lack effective resistance.



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    Like humans, managed bees are largely "decoupled" from natural selection,
    Dr O'Shea-Wheller said, so they cannot develop resistance like they
    might in the wild.

    However, managed bees sometimes respond to mites (which reproduce in the
    cells of bee larvae) by expelling infested larvae -- killing both the
    larvae and the mites, in a behaviour known as Varroa-sensitive hygiene
    (VSH).

    By selectively breeding for this trait, colonies can be produced that automatically protect themselves from infestation, while maintaining
    large colony sizes and ample honey production.

    "The great thing about this particular trait is that we've learned honey
    bees of all types express it at some level, so we know that with the
    right tools, it can be promoted and selected for in everyone's bees,"
    said research molecular biologist Dr Michael Simone-Finstrom, of the
    USDA Agricultural Research Service.

    Colony survival over the winter is particularly important for beekeepers, because honey bees are in high demand in the early spring -- a key time
    for pollinating high-value crops such as almonds.

    The study also examined levels of viruses associated with Varroa mites
    in bee colonies.

    The colonies bred for Varroa resistance showed lower levels of three
    major viruses (DWV-A, DWV-B, and CBPV).

    Interestingly however, when examined separately from levels of mite infestation, these viruses were not strong predictors of colony losses.

    "A lot of research is focussed on the viruses, with perhaps not enough
    focus on the mites themselves," Dr O'Shea-Wheller said.

    "The viruses are clearly important, but we need to take a step back and be rigorous in delivering the best practical outcomes, because if you control
    the mites, you automatically control for the viruses that they transmit."
    Dr O'Shea-Wheller said bee breeding and testing is expensive and takes
    time, but that breeding mite-resistant bees is cost-effective in the
    long term, and is likely to be the only sustainable solution to deal
    with the Varroa pandemic.

    The study was funded by USDA.


    ========================================================================== Story Source: Materials provided by University_of_Exeter. Note: Content
    may be edited for style and length.


    ========================================================================== Journal Reference:
    1. Thomas A. O'Shea-Wheller, Frank D. Rinkevich, Robert G. Danka,
    Michael
    Simone-Finstrom, Philip G. Tokarz, Kristen B. Healy. A derived
    honey bee stock confers resistance to Varroa destructor and
    associated viral transmission. Scientific Reports, 2022; 12 (1)
    DOI: 10.1038/s41598-022- 08643-w ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2022/04/220407101021.htm

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