Genomic study explores evolution of gentle ‘killer bees’ in Puerto Rico
Natural processes apparently achieve what 1950s scientists failed to do
The findings, reported in the journal Nature Communications, could lead to advances that will bolster honey bee populations in the Americas, the researchers said.
Africanized bees are the offspring of African honey bees and their European counterparts. In the late 1950s, these aggressive "killer bees" escaped from an experimental breeding program in Brazil. That program had set out to produce a desirable mix of traits from the gentle European bees and their African counterparts, which were more aggressive, disease-resistant and adapted to a tropical climate.
Ironically, what scientists failed to do in the laboratory was eventually accomplished by happenstance. Africanized honey bees arrived in Puerto Rico (most likely on a ship, by accident) in the 1990s, and within three decades had evolved into the gentle, yet hardy, Africanized bees that dominate the island today. Biology professor Tugrul Giray, of the University of Puerto Rico, first reported on the gentle Puerto Rican bees in the journal Evolutionary Applications in 2012. Giray is a co-author of the new study.
"The benefit of having these three populations is that you can compare and contrast between the three," said University of Illinois postdoctoral researcher Arian Avalos, who conducted the research with U of I entomology and School of Integrative Biology professor Gene Robinson; crop sciences professor Matthew Hudson; and Guojie Zhang and Hailin Pan, of the Chinese Academy of Sciences. "We asked, 'How is the genome of the gentle Africanized bee different than other Africanized populations? What parts of the genome are similar to European bees?'"
The team discovered that, for the most part, the genomes of the gentle bees resembled those of their Africanized forebears. Specific regions of the DNA, however, had shifted in the gentle bees, reflecting more of their European heritage. These regions appeared to be under "positive selection." This means that something in the bees' environment was favoring these genetic signatures over others.
The scientists hypothesize that the bees evolved to be more docile as a result of living on a very densely populated island from which they could not easily escape. Humans likely eradicated the most aggressive bees, aiding their more docile counterparts.
"Evolution involves changes in the frequency of gene variants across a population, and that's what we're seeing in Puerto Rico," said Robinson, who directs the Carl R. Woese Institute for Genomic Biology at Illinois. "Now we know that these gentle Africanized bees can be genetically distinguished both from other Africanized honey bees and from European honey bees."
The new findings offer a bit of hope for the beleaguered beekeeping industry, the researchers said. European honey bees tend to have less genetic diversity than Africanized bees, which carry both European and African honey bee genes. European honey bees also are more susceptible to a host of debilitating parasites and pathogens. Their rapid decline since 2005, a phenomenon known as colony collapse disorder, is disrupting agriculture around the world.
"The fact that we've shown that the genetics of these Puerto Rican bees are very distinct from the European bees, and the fact that they are demonstrably gentle, makes it very interesting as a potential way to mitigate pollinator decline," Hudson said.
In particular, the Africanized bees are highly resistant to the varroa mite, a parasite of bees that undermines their health and spreads disease. The mites - along with pesticides used to treat infested bees - are believed to be major factors in the widespread decline of honey bees across the globe.
In previous research in the Giray laboratory, scientists showed that Puerto Rico's gentle Africanized bees groom themselves aggressively when infested with varroa, removing the mites almost as soon as they appear.
"Infestation of European honey bees with the mites elicits very little response," said Avalos, who previously worked with Giray in Puerto Rico. "This could be good news for beekeepers who want to develop a gentle honey bee that is also varroa-resistant."
The National Science Foundation, Beijing Genomics Institute, and University of Illinois supported this research.
Diana Yates, Illinois News Bureau
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