- Author: Kathy Keatley Garvey
If you like writing with light (photography), then you'll probably love capturing images of honey bees spinning like helicopters.
In the late afternoon, when the light softens, head over to your favorite Spanish lavender patch. Pull up a chair, listen to the buzz of the bees, and watch them spin their wings somewhat like helicopters do their blades.
Such was the case yesterday. The bees were buzzing so loud in the patch of lavender, Lavandula stoechas, that they sounded like spring unleashed. That buzz you hear is their wings; they've been recorded at 200 beats per second. Honey bees can be long-distance travelers; they can forage up to five or six miles, and can move about 15 miles per hour.
Those streaming purple petals topping the bloom are actually sterile bracts--Wikipedia defines a bract as "a modified or specialized leaf, especially one associated with a reproductive structure such as a flower, inflorescence axis, or cone scale." The bracts resemble rabbit ears, but ironically, Spanish lavender is rabbit-resistant and deer resistant (which is probably why there are no deer or rabbits in our urban yard!)
Meanwhile, if you've been wanting to learn more about honey bees, mark your calendar for these events in Davis and Woodland, Yolo County.
California Honey Festival: The inaugural California Honey Festival will take place Saturday, May 6 in downtown Woodland. Associated with the UC Davis Honey and Pollination Center, it will be held outdoors (Main Street), encompassing four blocks. It's free and open to the public. Expect beekeeper talks, booths, vendors, music, mead, honey tasting and lots of fun, says Amina Harris, director of the Honey and Pollinator Center See http://californiahoneyfestival.com.
UC Davis Bee Symposium: The Honey and Pollination Center and the UC Davis Department of Entomology and Nematology are sponsoring their third annual Bee Symposium, "Keeping Bees Healthy," on Sunday, May 7 in the UC Davis Conference Center. Keynote speaker is noted apiculturist Steve Sheppard of Thurber Professor of Apiculture and chair of the Department of Entomology, Washington State University, Pullman, Wash. Sheppard specializes in population genetics and evolution of honey bees, insect introductions and mechanisms of genetic differentiation. He also heads the Apis Molecular Systematics Laboratory. Registration is underway at http://honey.ucdavis.edu/events/2017-bee-symposium.
Western Apicultural Society (WAS): Founded 40 year ago at UC Davis, WAS will return to its roots for its next conference, set from Sept. 5-8 in Davis. Its president is Eric Mussen, UC Extension apiculturist emeritus, who is based in the UC Davis Department of Entomology and Nematology. He's a familiar face; he's one of the three WAS co-founders and he's serving his sixth term as president. The conference open to the public. Registration is underway on the WAS website, http://www.westernapiculturalsociety.org.
- Author: Kathy Keatley Garvey
Registration for the third annual UC Davis Bee Symposium, "Keeping Bees Healthy," set Sunday, May 7 in the UC Davis Conference Center, gets underway on Wednesday, March 1.
The all-day event is designed for beekeepers of all experience levels, including gardeners, farmers and anyone interested in the world of pollination and bees.
The symposium is sponsored by the UC Davis Honey and Pollination Center and the UC Davis Department of Entomology and Nematology.
Keynote speaker is Steve Sheppard, Thurber Professor of Apiculture and chair of the Department of Entomology, Washington State University, Pullman, Wash.
Sheppard specializes in population genetics and evolution of honey bees, insect introductions & mechanisms of genetic differentiation. He also heads the Apis Molecular Systematics Laboratory.
Sheppard received his bachelor's degree in zoology from the University of Georgia in 1975, and both of his graduate degrees in entomology from the University of Illinois: his master's degree in 1979 and his doctorate in 1986. He worked as a postdoctoral fellow at the USDA Beneficial Insects Laboratory from 1986 to 1988, and as a research entomologist at the USDA Bee Research Laboratory from 1988 to 1996 before joining the WSU faculty in 1996. He was named chair of the department in 2009.
The event will include speakers, displays of graduate student research posters, the latest in beekeeping equipment, books, honey, plants, "and much more," according to Amina Harris, director of the UC Davis Honey and Pollination Center.
Among the other speakers:
- Santiago Ramirez of the UC Davis Department of Evolution and Ecology;
- Extension apiculturist Elina Niño of the UC Davis Department of Entomology and Nematology;
- Maj Rundlöf of the Department of Biology, Lund University, Sweden, and
- Margaret Lombard, National Honey Board, based in Firestone, Colo.
To register, access http://honey.ucdavis.edu/events/2017-bee-symposium.
- Author: Kathy Keatley Garvey
A team of scientists from UC Davis and Washington State University will be heading for Italy tomorrow (June 19) to gather germplasm (sperm) of Old World/Italian honey bee stock. They'll bring it back to the United States to inseminate bee queens.
Bee breeder-geneticist Susan Cobey, who has a joint appointment at UC Davis and WSU, will be in Italy with colleagues Walter "Steve" Sheppard, professor and chair of the WSU Department of Entomology, and Ph.D. student Brandon Hopkins of WSU. They're scheduled to return June 27.
Increasing the overall genetic diversity of honey bees may lead to healthier and hardier bees that can better fight off parasites, pathogens and pests, says Cobey, director of the Honey Bee Stock Improvement Program. 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.”
So, which honey bee did the European colonists introduce to America in 1622? It wasn't the Italian (blond) subspecies, now the most prevalent here. It was the dark subspecies (Apis mellifera mellifera), that made its way to the Jamestown colony (present-day Virginia) from England.
The Italian bees were not introduced into our country until 1859, records show.
"The American beekeeping pubic was enamored with the newly available yellow and relatively gentle bees," authors Cobey, Sheppard and David Tarpy wrote in a chapter of the newly published book, Honey Bee Colony Health: Challenges and Sustainable Solutions. "As a result, Italian-type honey bees form the basis for most present-day commercial beekeeping stocks in the U.S."
However, a genetic bottleneck resulted from the U.S. Honey Bee Act of 1922, which restricted further importation of Old World honey bees to prevent the introduction of the tracheal mite, Acarapis woodi.
The importation of germplasm from the Old World stock of the Italian subspecies could very well result in a better bee.
That's the plan. That's the hope. The trio wants to make it happen.
The UC Davis/WSU team will fan out to bee labs and to commercial beekeepers' apiaries and then deliver the germplasm to the WSU lab in Pullman, Wash., where they'll inseminate queen bees.
Cobey talked about the Stock Improvement Program at her May 2nd seminar presented to the UC Davis Department of Entomology. Based at the Harry H. Laidlaw Jr. Honey Bee Research Facility since 2007, she was trained by Laidlaw (1907-2003) himself. He's known as "the father of honey bee genetics."
If you access this web page, then click on the link at the top of the page below the headline, you can listen to Cobey's seminar.
Fascinating stuff.
- Author: Kathy Keatley Garvey
The story was not about a red light district or "Ladies of the Night" or even linked to humans.
It was about honey bee queens. "Ladies of the Day," if you will.
The story that raised a few eyebrows involved research titled "Characterization of the Active Microbiotas Associated with Honey Bees Reveals Healthier and Broader Communities when Colonies are Genetically Diverse," published March 12 in the PLOs One Journal.
A team headed by researchers at Wellesley (Mass.) College found that "Colonies with genetically diverse populations of workers, a result of the highly promiscuous mating behavior of queens, benefited from greater microbial diversity, reduced pathogen loads, and increased abundance of putatively helpful bacteria, particularly species from the potentially probiotic genus Bifidobacterium."
Scientists and beekeepers know that a virgin queen, on her maiden flight, will mate with 12 to 25 or more drones gathered in the drone congregration area. It's not immoral; it's just what happens.
The drones mate and then they die. All of them. Or as Extension apiculturist Eric Mussen of the UC Davis Department of Entomology tells bee associations: "They die happy, with a smile on their face."
The queen returns to her hive and begins laying eggs, up to 2000 a day in peak season. She'll have enough sperm for the rest of her life, which is usually around two to three years.
This scientific research in the PLoS One Journal is important in that it has led to increased interest in microbial communities and hope for the declining bee population.
Bee breeder-geneticist Susan Cobey of UC Davis and Washington State University has advocated genetic bee diversity for years.
"The primary perceived problem for beekeepers is a diminished quality of queens, and recent survey results from beekeeping operations in the U.S confirm this view," she and her colleagues write in a chapter of the newly published Honey Bee Colony Health: Challenges and Sustainable Solutions.
Beekeepers have long complained of "poor queens."
Cobey and co-chapter authors Walter "Steve" Sheppard of WSU and Dave Tarpy of North Carolina State University write: "The poor queens category encompasses many different problems but most of these reports document premature supersedure (queen replacement), inconsistent brood patterns, early drone laying (indicative of sperm depletion), and failed requeening as indicative of low queen quality."
So the next time you see a headline screaming "immoral" honey bee queens, it was probably written by someone who has no clue about honey bee reproduction.
Or someone trying to be funny...
- Author: Kathy Keatley Garvey
It's a matter of A, B, C.
"A" is for Argentina. "B" is for bees. And "C" is for Cobey.
Bee breeder-geneticist Susan Cobey of the University of California, Davis and Washington State University will deliver the keynote address at the beekeeping technology symposium on Production of Live Material at the 42nd annual Apimondia International Beekeeping Congress, set Sept. 21-25 in Buenos Aires, Argentina.
In addition, Cobey and fellow bee researcher Walter “Steve” Sheppard, professor and chair of the Department of Entomology at Washington State University, Pullman, will present a poster, “Collaborative Stock Enhancement Project to Increase Genetic Diversity of U.S. Honey Bee Populations.”
The poster session is on Sept. 22; her talk on Sept. 23.
Cobey’s research focuses on identifying, selecting and enhancing honey bee stocks that show increasing levels of resistance to pests and diseases. Cobey developed the New World Carniolan stock, a dark, winter hardy race of honey bees, in the early 1980s by back-crossing stocks collected from throughout the United States and Canada to create a more pure strain. Stock imported from the German Carnica Association has recently been added to enhance this breeding program. In collaborations with Steve Sheppard, they are importing honey bee germplasm to increase genetic diversity in the U.S. honey bee gene pool. In addition, stock from the Republic of Georgia has been imported to re-establish the subspecies Apis mellifera caucasica, another dark race of bee that is not currently recognizable in the U.S.
A critical aspect of this program is the technology transfer of beekeeping skills. Cobey teaches queen bee rearing and queen bee inseminations classes every spring at the Harry H. Laidlaw Jr. Honey Bee Research Facility.
Cobey, who has taught the specialized classes since the early 1980s, draws researchers and beekeepers from throughout the world, including Argentina, Brazil, Canada, Chile, China, Costa Rico, England, Egypt, France, Spain India, Indonesia, Israel, Jamaica, Korea, Kuwait, Mexico, New Zealand, Nigeria, Peru, Puerto Rico, Saudi Arabia, Uruguay and Venezuela, Columbia.
By invitation, she’s also taught several classes in the host countries of Argentina, Canada, Chile, Costa Rica Egypt, Jamaica, Mexico, Turkey and South Africa.
It's spring now in Argentina. Time for the spring build-up for the bees. Then in early October, Cobey will head to Santiago, Chile to teach bee breeding techniques and instrumental insemination of queen bees.
Spreading the technology. Saving the bees. Enhancing genetic diversity. That's what it's all about.