Difference between revisions of "Team:Wageningen UR"

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Revision as of 14:42, 19 September 2016

Introduction

Bees are the most important pollinators on earth and may account for a substantial proportion of the food we eat and therefore also for our quality of life [1, 2]. Their importance for the abundance and variety of our diet makes it all the more disturbing that honeybee mortality has been increasing in almost all western countries for at least 30 years [3, 4]. Sometimes even whole bee colonies die in one winter, a phenomenon that has been termed Colony Collapse Disorder (CCD). The most important cause of CCD is the parasitic mite Varroa destructor.

Current treatments

In the Netherlands, the Varroa mite is now combatted by a year-round treatment with organic compounds that include Thymol, Formic acid and Oxalic acid. However, these compounds have to be applied strictly according to the provided instructions. Thymol, for instance, has a small concentration margin between killing the mites and harming bees. The hobbyist character of beekeeping has to be considered in the context of these treatments. Beekeepers might not have the time and resources to apply the treatments in the intended manner.

Synthetic Biological Treatment

We aim to create a new and better solution for the Varroa problem using synthetic biology. Our project would yield a product harmless to both humans and bees because we intend to use a Bacillus thuringiensis protein toxin to target Varroa. B. thuringiensis is known for the production of very specific insecticidal protein endotoxins. Multiple Bacillus strains have now been identified that target the Varroa mite. We will employ the toxins from these strains to relieve bee colonies from this most harmful parasite. In addition to the B. thuringiensis toxin, our synthetic biological system will contain systems to provide efficient production and release of the toxin and to provide users with a high level of control.

References

    1. 1. McGregor, Samuel Emmett. Insect pollination of cultivated crop plants. Vol. 496. Agricultural Research Service, US Department of Agriculture, 1976.
      2. Delaplane, Keith S. "On Einstein, Bees, and Survival of the Human Race." Entomology: UGA Honey Bee Program (2009).
      3. Potts, Simon G., et al. "Declines of managed honey bees and beekeepers in Europe." Journal of Apicultural Research 49.1 (2010): 15-22.
      4. Van der Zee, Romée, et al. "Managed honey bee colony losses in Canada, China, Europe, Israel and Turkey, for the winters of 2008–9 and 2009–10." Journal of Apicultural Research 51.1 (2012): 100-114.