The research is good news for honeybees in helping scientists look at new ways of addressing the worldwide decline of the bee population.

CIBER Director, Professor Boris Baer, said the study found that male honey bee semen produced protein molecules that cause the Nosema apis fungus spores to prematurely germinate, killing them because they cannot survive outside of their hosts’ cells. Another smaller molecule in the bee’s semen was able to quickly kill the fungus spores directly.

“We also found that these immune molecules in the bee semen were specifically active against the fungus but had no effect on other microorganisms,” Professor Baer said. “This finding was surprising, because insect immune systems are often believed to be primitive and not very complex or specific.”

He said the spread of parasites and pathogens globally are known culprits contributing to the alarming losses of millions of bees every year. “This is problematic, given our dependence on honey bees, as they pollinate more than eighty crops of agricultural interest or about a third of what we eat. However this new finding, which confirms honeybees are remarkably capable of defending themselves against parasites, will provide exciting new ways to breed bees that cope with diseases by themselves.

“Suppressing parasites with chemicals has become a major issue, because of contaminations of honey with residuals, as well as bee parasites having become more resistant against available treatments."

Source: The University of Western Australia