© 2024 Milwaukee Public Media is a service of UW-Milwaukee's College of Letters & Science
Play Live Radio
Next Up:
0:00
0:00
0:00 0:00
Available On Air Stations

Don't Worry, Honey, The Other Bees Have Your Back

Penn State grad student Carley Miller holds up a bumblebee she collected from the wildflower patch on Penn State University's research farm near State College, Pa. Researchers are testing how planting "pollinator strips" of wildflowers near farm fields could help support wild bee populations.
Courtesy of Lou Blouin
Penn State grad student Carley Miller holds up a bumblebee she collected from the wildflower patch on Penn State University's research farm near State College, Pa. Researchers are testing how planting "pollinator strips" of wildflowers near farm fields could help support wild bee populations.

If you want to hang out with a bunch of bees, you'd better be prepared for a little pain.

Mario Padilla, a honeybee researcher at Penn State University, can usually tell when his hives are getting agitated. But he's already been stung three times today. And he's about to get it again.

"I got stung!" Padilla says, half-laughing. "And that was a sting that was not even an invited sting. That was an I-was-minding-my-own-business sting."

Padilla is raising these honeybees for researchers like Maryann Frazier, who is studying the effects of pesticides on honeybees. But she says that as much as we rely on honeybees, we almost can't even think of them as just a species anymore. They've become a system— a technology — that we literally pack in boxes, load onto semitrailers and ship all over the country to do work for us.

"The first crop to be pollinated in the spring is almonds," Frazier says. "And about a third of the colonies in the United States are trucked out to California to pollinate one crop. And then they'll come back to do apples and cherries and stone fruit, mostly in Pennsylvania and New York. Then they'll go up to Maine and pollinate blueberries; then, Massachusetts and pollinate cranberries. And then they'll come south and pollinate pumpkins and squash. It is a huge, huge business."

But it's a business that's wearing honeybees out. A combination of diseases, stress, parasites, pesticides and colony collapse disorder — a mysterious phenomenon that scientists still don't understand — has taken its toll on honeybees. And that could put our own species in a tight spot. Honeybees pollinate about a third of the crops in the U.S.: That's about of the food economy.

So is it time to panic? Not necessarily. Other researchers at Penn State are now investigating whether other bees — unsung bees — could start picking up some of the slack.

Dave Biddinger's all-star bee that he's studying now is a type of osmia bee called the Japanese orchard bee. "We call them JOBS for short," Biddinger says, laughing. And these JOBS — at least in apple orchards — they're kind of showing up honeybees.

"The honeybee is a little bit lazy," Biddinger says. "It will only maybe visit one or two flowers per minute. An osmia will do up to 15 flowers per minute. ... We've seen with osmia that they can carry up to 100 times more pollen than what a honeybee can."

In fact, Biddinger says one osmia bee can do the work of roughly 80 honeybees. And this work ethic means that some apple farmers are finding they can forgo renting honeybees altogether — which can save them tens of thousands of dollars.

Most other bees are solitary and don't live in hives. But researcher Dave Biddinger has found that his osmia bees will live in bee "apartments" (pictured here), and individual bees always return to the same holes.
/ Courtesy of Lou Blouin
/
Courtesy of Lou Blouin
Most other bees are solitary and don't live in hives. But researcher Dave Biddinger has found that his osmia bees will live in bee "apartments" (pictured here), and individual bees always return to the same holes.

And researchers are finding that this is the case with other crops as well. In an experimental pumpkin patch, Carley Miller, a grad student in Penn State's entomology department, can hardly contain herself while she goes looking for another species called a squash bee.

"Oh, look at all these bees!" she shouts. "Scientifically, I appreciate them. But on a personal level, I just feel giddy when I see this many bees."

She says it's hard not to admire how much work the squash bees are getting done out here.

"The squash bees are like little Wall Street bees," Carley says. "They fly around quickly, everywhere, fast — ping, ping! They barely look in a flower and then they're off to the next one, and they can't decide what to do with themselves. Half the time, they'll fly into you, because they're so busy flying, and fall into a flower and they're, like, 'Oh, OK; I'll use this one.' "

For a long time, nobody even knew squash bees were such hard workers. In fact, pumpkin farmers would often rent honeybees, not realizing they probably already had squash bees on their farms doing most of the pollination.

But squash bees don't deserve all the credit. Like a lot of bees, they don't live for very long as free-roaming adults — only about four or five weeks. And at that point in the season, bumblebees take over the pumpkin patch.

And just like in the apple orchards, scientists are finding that between those two kinds of bees, farmers can probably get by without using honeybees. It's all part of a new strategy of diversification that entomologist Shelby Fleischer affectionately refers to as Plan B.

"I think the key to remember is resilience," Fleischer says. "So don't just aim for any one species. Historically, there's been a lot of emphasis on making honeybees our pollinator, and resilience suggests that we should try and support a community of bees."


Lou Blouin is a reporter for , a public radio program based in Pittsburgh that covers the environment.

Copyright 2021 NPR. To see more, visit https://www.npr.org.

Lou Blouin