Martin-Luther-Universität Halle-Wittenberg

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Tom Leonhardt
Wissenschaftsredakteur
Telefon: +49 345 55-21438

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Professor Robert Paxton
Institute of Biology // General Zoology at MLU
Telefon: +49 345 55-26500


Patrycja Pluta
Institut of Biology at MLU

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Manuela Bank-Zillmann

Telefon: +49 345 55-21004
Telefax: +49 345 55-27404

Universitätsplatz 8/9
06108 Halle

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How does organic farming benefit honeybees?

New study sheds light on impact of agri-environment measures on bee health

Nummer 097/2024 vom 21. August 2024
Organic farming and flower strips promote the health of honey bees. In their vicinity, colonies grow stronger and are generally healthier. This is most likely because the insects have a diverse and continuous food supply there and are less exposed to pesticides. These are the findings of a new study by Martin Luther University Halle-Wittenberg (MLU) and the University of Göttingen, published in the "Journal of Applied Ecology". The team analysed data from 32 bee colonies at 16 locations in Germany with different proportions of organic fields, flower strips and semi-natural habitats.

According to the German Environment Agency (UBA), around half of Germany’s land is used for agriculture. "The way that farmers cultivate their land has a major impact on nature. Intensively farmed fields, pesticides and monocultures pose a threat to many animal and plant species. This is particularly true for pollinators, which include honey bees," says Professor Robert Paxton, a bee researcher at MLU. 

Prominent measures counteracting this development include increasing the proportion of organic farming, planting more flower strips, and creating perennial semi-natural areas near crop fields. "In theory, these measures all make sense. However, we know little about how each of these affect insects, especially honey bees," continues Paxton.

Therefore, the team from Halle and Göttingen carried out a study at 16 locations in Lower Saxony, Germany. Each of these locations differed in their proportion of organic fields, flower strips and perennial semi-natural habitats. The researchers placed honey bee colonies at each of the sites and observed these for around a year. They analysed, for example, colony growth and parasite infestation. Special attention was paid to the varroa mite - a particularly dangerous pest of honey bees which can transmit viruses that are fatal to them. 

The data gathered about the bee colonies was then compared. "Organic farming had the greatest impact - the larger the proportion of these areas, the lower the parasite infestation of a colony. This improved colony growth," explains lead author Patrycja Pluta from MLU. One reason for this could be that organic farming uses fewer pesticides and, instead, other plant protection measures. Flower strips were also advantageous to honey bees: the number of Varroa mites was lower in areas with a lot of flower strips. "This could be due to the fact that a diverse and rich food supply strengthens the honey bees’ immune system," reasons Pluta. 

Perennial semi-natural habitats, on the other hand, tended to be disadvantageous, at least for honey bees. Larger areas generally meant a greater infestation of varroa mites. And, unlike flower strips, the areas are not designed to provide an abundant supply of food for honey bees and other pollinators. "Perennial semi-natural landscapes are an important tool for promoting biodiversity and they serve as a habitat for many animals. Honey bees, that are managed by humans, are the exception," says Paxton. The findings of the study could help to improve agricultural landscape management for bees and other pollinators. 

The study was funded by the Federal Ministry of Food and Agriculture on the basis of a decision by the German Bundestag as part of the Federal Organic Farming Programme and by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation).

Study: Pluta P. et al. Organic farming and annual flower strips reduce parasite prevalence in honey bees and boost colony growth in agricultural landscapes. Journal of Applied Ecology (2024). doi: 10.1111/1365-2664.14723

 

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