Creighton University sponsored content

Equipped with comprehensive data on vitellogenin taken by Creighton University undergraduate researcher and junior neuroscience major Ryan Sabotin, biology professor Carol Fassbinder-Orth, PhD, hypothesizes that one of the contributing factors to honeybee colony collapse disorder is premature aging brought on by the viral sapping of vitellogenin.

Like all worthwhile research, the projects undertaken by Creighton University biology professor Carol Fassbinder-Orth, PhD, have had a significant degree of difficulty.

This latest interest, however, has proved hard for reasons related to both the science and the subject.

Two years ago, spurred by her youth spent on a honeybee farm, Fassbinder-Orth began pondering the devastating phenomenon of colony collapse disorder (CCD) in which worker bees leave their home hives in droves, never to return.

Estimates on the impact of the disorder put a more than 50 percent decline on the bee population at various sites around the world.

The American Midwest, Fassbinder-Orth said, has been particularly prone to the problem. At the farm where she grew up in northeast Iowa, more than two-thirds of the European honeybee colonies were lost last winter. 

The disorder, with many potential contributing factors, causes individual bees to commit altruistic suicide, leaving the hive as soon as they realize they’ve become ill.

But by then, it’s too late. The illness has spread and soon, the entire hive will be on its way out to die in the grips of paralysis.

In Fassbinder-Orth’s controlled environment to observe the dynamics of the hive when a virus that may cause CCD is introduced, the bees are kept close to the hive to see what behaviors they exhibit in the runup to leaving and dying. 

“It’s sad,” said Fassbinder-Orth, who still raises honeybees on a farm near Glenwood, Iowa. “It’s hard to watch. In less than a day, you start to see them get really frantic. They know something’s wrong. They’re trying to leave, they’re bouncing off the walls.

“Then they start to shake, and then it’s paralysis,” she said. “And by then, it’s spread through the colony. It’s rather sad to see the progression and then to see its aftermath in colony collapse disorder.” 

Fassbinder-Orth’s project, now gathering steam with a Creighton University Haddix President’s Faculty Research Grant, is to look at one potential cause of colony collapse disorder and determine how, why and — perhaps most importantly — when a virus linked to the disorder and carried by a mite strikes a bee. 

The varroa mite attaches to larval or young bees and introduces a virus that drains a protein called vitellogenin from the bees. Bees are born with a lifetime’s supply of vitellogenin, which gradually is used up over the lifecycle and dictates when a bee leaves the colony at the end of its life.

Equipped with comprehensive data on vitellogenin taken by undergraduate researcher and junior neuroscience major Ryan Sabotin, Fassbinder-Orth hypothesizes that one of the contributing factors to colony collapse disorder is this premature aging brought on by the viral sapping of vitellogenin. 

“Bees are social animals and this altruistic suicide is the way they attempt to preserve the rest of the colony,” Fassbinder-Orth said. “There have been a few studies about this behavior, but nothing looking at viral infection. It’s hard to do that observing in nature, so we hope we can create the conditions to more closely study what’s happening with their behaviors and their responses.” 

With help from a student researcher, Creighton junior computer science major Sam Hughes, and innovation analysts at the university’s RaD Lab, Fassbinder-Orth has been at work creating an environment that can contain and monitor bees in the hopes of learning more about their behavior leading up to their flight from the hive and eventual death. 

Using radio-frequency identification (RFID) chips, Hughes has been devising a way to track the bees and their movements.

Fellow RaD Lab interns Maria Fernanda Correa and Tyler Cash also helped create the simulated hive environment — the “bee box” — that will let Fassbinder-Orth more closely watch the insects. 

Hughes, Correa and Cash, with help from RaD Lab staffers Mark Panning and Steve Maaske, looked at several ways to take accurate counts of the bees and record behavior.

Ultimately, and after many trials and experiments, the researchers decided on the RFID chips applied gently to the bees and corresponding to a chip reader tuned to monitoring the bees’ comings and goings. A main bee box simulating a hive would connect, via clear plastic tubing, to other boxes to which infected bees will presumably travel. 

For Hughes, Correa and Cash, taking steps toward answers in a monumental scientific issue underscores the Creighton mission to engage undergraduates in meaningful research.

“Colony collapse disorder, it’s something in the news, something happening right now,” Cash said. “It’s not every day you get that kind of an opportunity. It’s been a cool project to work on, one we hope can make a difference.” 

Creighton University offers a top-ranked education in the Jesuit, Catholic tradition.  Read more about the university, and connect with Creighton on  Facebook,  Twitter  and  Instagram.

Creighton University founded in 1878 and located in Omaha Neb. offers a top-ranked education in the Jesuit tradition for people who want to contribute something meaningful to the world.

Commenting is limited to Omaha World-Herald subscribers. To sign up, click here.

If you're already a subscriber and need to activate your access or log in, click here.