- Author: Kathy Keatley Garvey
Ever seen honey bees engaging in washboarding?
It's a behavior so named because they look as if they're scrubbing clothes on a washboard or scrubbing their home.
It occurs near the entrance of the hive and only with worker bees. They go back and forth, back and forth, a kind of rocking movement. No one knows why they do it. It's one of those unexplained behaviors they've probably been doing for millions of years.
Bee breeder-geneticist Susan Cobey of the University of California, Davis and Washington State University, has witnessed washboarding scores of times. Last week the unusual behavior occurred on two of her hives at the Harry H. Laidlaw Jr. Honey Bee Research Facility at UC Davis. She hypothesizes that these bees are in the "unemployment line." It's a time when foraging isn't so good, so these bees are "sweeping the porch" for something to do, she speculates.
Emeritus professor Norman Gary of UC Davis Department of Entomology writes about it in his chapter, Activities and Behavior of Honey Bees, in the Dadant publication The Hive and the Honey Bee.
"They stand on the second and third pairs of legs and face the entrance. Their heads are bent down and the front legs are also bent," wrote Gary, who has kept bees for more than six decades. "They make 'rocking' or 'washboard' movements, thrusting their bodies forward and backward. At the same time they scrape the surface of the hive with their mandibles with a rapid shearing movement, sliding over the surface as if cleaning it."
They pick up some material and then clean their mandibles.
Gary thinks that "these rocking movements probably serve as a cleaning process by which the bees scrape and polish the surface of the hive."
Like most people, professor/biologist/bee researcher James Nieh of UC San Diego has never seen this behavior. Nieh, who recently presented at seminar at UC Davis, later commented "It is an interesting behavior that would be particularly fascinating to observe in natural colonies in trees. It does seem to involve some cleaning behavior, although it is possible that bees are depositing some olfactory compound while they are rubbing the surface with their mandibles. We are currently conducting research in my lab on the effects of bee mandibular gland secretions on foraging orientation behavior. A new set of experiments will involve examining the effect of mandibular gland secretions on bee behaviors at the nest. I will definitely consider looking at how this potential pheromone affects washboarding."
We managed to capture the behavior with our Iphone and posted it on YouTube.
It's interesting that of the some 25 research hives at the Laidlaw facility, occupants of two of Cobey's hives exhibited washboarding last week.
So, what are washboarding bees doing? Cleaning their home where pathogenic organisms might congregate, per a theory by Katie Bohrer and Jeffrey Pettis of the USDA-ARS Bee Research Lab?
Or are they just creating "busy work"--"sweeping the porch" for something to do?
It would be interesting to find out!
- Author: Kathy Keatley Garvey
Varroa mites, those pesky little parasites that suck the blood out of honey bees and spread multiple viruses, are now found throughout the world, except in Australia.
Scientists blame these parasites as one of the causes of colony collapse disorder (CCD), characterized by adult bees abandoning the hive and leaving behind the queen, brood and food stores. They attribute CCD to a multitude of factors, including pests, pesticides, parasites, diseases, viruses, malnutrition and stress. Thus, varroa mites are a key factor in the declining honey bee population.
Today's honey bees are ill-equipped to rid their hives of a varroa mite infestation. Indeed, beekeepers consider the varroa mite (scientific name Varroa destructor) as Public Enemy No. 1.
And that's one of the reasons why we like bee breeder-geneticist Susan Cobey's efforts to increase the genetic diversity in our domestic honey bee gene pool.
Cobey, who has a dual appointment at the University of California, Davis and Washington State University, is directing a stock improvement program which aims to do just that.
"Increasing the overall genetic diversity of honey bees will lead to healthier and hardier bees that can better fight off parasites, pathogens and pests," she says.
"We have collected and imported honey bee semen (germplasm) from their original European homeland to inseminate select domestic queens produced by the California bee breeders," Cobey told us. These California breeders supply queen bees and package bees nationwide. Honey bees, as Cobey points out, "provide the essential pollination for our crops, especially in California, "the breadbasket" of our country and our world.
Cobey and her team have also re-introduced the subspecies, Apis mellifera caucasica, a dark race of bee known for its collection and use of propolis, self-medicating plant resins.
What does a mite look like? Check out the mite-infested drone below. A boy bee's only duty is to gather in the drone congregation area and mate with the queen during her maiden flight, but that won't happen with this one. No thanks to the parasitic mites, he has a weakened immune system, crippling his ability to fly.
What will happen to him? His sisters will kick him out of the hive and he will die.
- Author: Kathy Keatley Garvey
Our yard is filled with such bee friendly plants as salvia, lavender, catmint and rock purslane.
Lately, however, the honey bees have taken a liking to the sugar-water mixture from our hummingbird feeder. Manufacturers' bee guards are meant to deter them but frankly, we rather like attracting both the hummers and the buzzers.
"The bees are hungry," said bee breeder-geneticist Susan Cobey of the University of California, Davis and Washington State University.
We like watching the honey bees gather at the "red fountain" as the sun sets. They buzz excitedly around the feeder, sip what they think is a nectar of the gods, and head back to their hive. Soon more of their sisters arrive to partake.
So, will the honey bees make red honey from the sugar-water mixture in the hummingbird feeder? No. The honeycomb will be tinted red, but it's not honey, said Extension apiculturist Eric Mussen of the UC Davis Department of Entomology. It's syrup. Sugar syrup.
- Author: Kathy Keatley Garvey
Bee breeder-geneticist Susan Cobey, who holds a dual appointment at the University of California, Davis and Washington State University (WSU), believes that "increasing the overall genetic diversity of honey bees may lead to healthier and hardier bees that can better fight off parasites, pathogens and pests." Just as stock improvement has served the poultry, dairy and swine industries well, the beekeeping industry needs access “to stocks of origin or standardized evaluation and stock improvement programs,” she says.
You can hear her discuss her research on “Importation of Honey Bee Germplasm to Increase Genetic Diversity in Domestic Breeding Stocks" at the UC Davis Department of Entomology seminar from 12:10 to 1 p.m., Wednesday, May 2 in 122 Briggs Hall.
A UC Davis researcher since May 2007, Cobey is a former student of "Father of Honey Bee Genetics" Harry H. Laidlaw Jr., (1907-2003), for whom the UC Davis bee lab is named. She provided practical application to the Robert Page-Harry Laidlaw Closed Population Breeding Program (CPRP) theory in the development of the New World Carniolan line, in its 31st generation and now an industry standard.
"The many problems that currently face the U.S. honey bee population have underscored the need for sufficient genetic diversity at the colony, breeding, and population levels,” wrote Cobey and colleagues Walter “Steve” Sheppard, professor and chair of the WSU Department of Entomology and David Tarpy of North Carolina State University (formerly a graduate student at UC Davis) in a chapter of the newly published book, Honey Bee Colony Health: Challenges and Sustainable Solutions (Contemporary Topics in Entomology).
European colonists brought a small subset of European bees to America before the U.S. Honey Bee Act of 1922 restricted further importation of Old World honey bees to prevent the introduction of the tracheal mite, Acarapis woodi. These early importations represented "a limited sampling of several subspecies," Cobey said.
“The limited foundation stock has been propagated and expanded to establish the existing U.S. beekeeping industry. In addition, the destruction of a once widespread feral population by parasitic mites and the genetic consequences of large scale queen production practices have contributed to reduce genetic diversity in U.S. honey bee populations. “
Cobey is involved in a number of scientific research projects. She and fellow scientists and beekeepers from UC Davis, WSU and the California Bee Breeders' Association are working together to develop and test protocols for the international exchange of honey bee germplasm and to incorporate imported stocks into established U.S. breeding stocks.
Cobey is also involved in a newly formed international group devoted to preserving the Carniolan honey bee. Research that she co-developed was presented in March at the first International Symposium About the Carniolan Honey Bee in Slovenia. The conference drew scientists, researchers and queen breeders interested in the conservation of Carniolan honey bees (Apis mellifera carnica) and collaboration.
Cobey is known globally for her expertise on the instrumental insemination of queen bees; her classes on queen rearing and instrumental insemination attract students from all over the world.
So it's not surprising that she's in high demand as a speaker. Cobey has lectured throughout the United States, Central and South America, South Africa, New Zealand and Australia, and was recently invited to Cuba for the 3rd Latin-American Beekeepers' Meeting and the 4th Cuban Beekeeping Congress.
Come November, Cobey will be a keynote speaker for the Apimondia Symposium on Honey Bee Breeding in Quebec.
If you're unable to attend the Cobey seminar at UC Davis, not to worry. It's scheduled to be videotaped and posted at a later date on UCTV.
- Author: Kathy Keatley Garvey
It was the first swarm of the season at the Harry H. Laidlaw Jr. Honey Bee Research Facility on Bee Biology Road, University of California, Davis.
The bees swirled, darkening the sky, and then swarmed from one of bee breeder-geneticist Susan Cobey's hives around 2 p.m. It was a sight to "bee-hold." At the onset, the bees looked quite confused, as if not knowing what to do. (Well, after all, they'd never done this before!) Most joined the queen in a cluster on a nearby tree branch. A few stragglers touched down on leaves.
Still others headed buzzed over to the empty hive that Cobey had strategically placed below the swarm.
A few hours later, Cobey hived the swarm. Voila!
The entire scenario reminded us what biologist Thomas Seeley of Cornell University said when he addressed two separate UC Davis crowds on Jan. 19 and Jan. 20.
Seeley, a professor in Cornell's Department of Neurobiology and Behavior (he teaches courses on animal behavior and researches the functional organization of honey bee colonies), outlined what bees do when they swarm.
They do it, he said, through "swarm intelligence, the solving of a cognitive problem by two or more individuals who independently collect information and process it through social interactions."
"With the right organization, a group can overcome the cognitive limitations of its members and achieve a high collective IQ. To understand how to endow groups with swarm intelligence, it is useful to examine natural systems that have evolved this ability. An excellent example is a swarm of honey bees solving the life-or-death problem of finding a new home. A honey bee swarm accomplishes this through a process that includes collective fact-finding, open sharing of information, vigorous debating, and fair voting by the hundreds of bees in a swarm that function as nest-site scouts.”
In his informative book, The Honeybee Democracy, Seeley writes: "Beekeepers have long observed, and lamented, the tendency of their hives to swarm in the late spring and early summer. When this happens, the majority of a colony's members--a crowd of some 10,000 worker bees--flies off with the old queen to produce a daughter colony, while the rest stays at home and rears a new queen to perpetuate the parental colony. The migrating bees settle on a tree branch in a beardlike cluster and then hang there together for several hours or a few days. During this time, these homeless insects will do something truly amazing; they will hold a democratic debate to choose their new home."
What they do IS truly amazing. We watched the swirl of bees cluster on a tree branch where they paused, as if waiting for "directions." (Or a Google map?)
We didn't see what Seeley calls "the collective-decision making of the swarm" and "the democratic debate" but indeed that happened, as it's been happening for millions of years.
In the end, the Laidlaw bees all relocated to their new home.
Home, sweet home.