Remember the massive media frenzy earlier this year when "the murder hornet" became a household word? The media labeled it that, but let's call it AGH. It's a hornet, not some weaponized insect with super powers that belongs in a B-rated movie seen at a Saturday matinee. Drop the drink! Hold the popcorn!
The peer-reviewed publication is the work of two former UC Davis entomologists now with WSU: honey bee geneticist-researcher Susan Cobey, research associate, Department of Entomology, and Timothy Lawrence, associate professor and Island County Extension director (they are a husband-wife team), along with Michael Jensen, associate professor and Pend Oreille County Extension director.
The first four paragraphs zero in on what this is all about:
"The Asian giant hornet (AGH) or Japanese giant hornet, Vespa mandarinia, recently found in British Columbia, Canada, (B. C. Ministry of Agriculture 2019) and in Washington State (McGann 2019), poses a significant threat to European honey bee (EHB), Apis mellifera, colonies and is a public health issue. The AGH is the world's largest species of hornet (Figure 1; Ono et al. 2003), native to temperate and tropical low mountains and forests of eastern Asia (Matsuura 1991). It appears the hornet is well adapted to conditions in the Pacific Northwest.
"If this hornet becomes established, it will have a severe and damaging impact on the honey bee population, the beekeeping industry, the environment, public health, and the economy. It is critical that we identify, trap, and attempt to eliminate this new pest before it becomes established and widespread. Attempts to contain the spread and eradication of this invasive insect will be most effective by trapping queens during early spring before their nests become established. Another strategy is to locate and destroy nests prior to development of virgin queens and drones in the late summer and fall.
"It is critical that surveying and trapping occur before the fall reproductive and dispersal phase of the hornet. Beekeepers in the field are a crucial line of defense in locating, identifying, and trapping the hornets. Yet, everyone should be on the lookout and report any sightings to local authorities and the Washington State Department of Agriculture.
"Here, we will cover how the AGH will impact the honey bee, give the reader a better understanding of the hornet, outline precautions to take, and first aid if attacked by the hornet."
The fact sheet provides crucial information, including what the public and beekeepers need to know, how to trap the hornets, where to report sightings, and information about the life cycle, the stinger, avoidance, and first aid. It details the public health issue and defines "What is a hornet?"
We've heard folks argue that AGH is a "hornet, not a wasp." Noted hymenopterist Lynn Kimsey, director of the Bohart Museum of Entomology and professor of entomology at UC Davis, points out that hornets ARE wasps.
WSU Extension defines a hornet this way:
"A hornet is simply a large wasp. Generally, wasps of the class or genus known as Vespa are considered hornets. Interestingly, there are no true hornets (Vespa) native to North America. The European hornet (Vespa crabro) is well established in much of the eastern half of the United States. The European hornet is not a major threat to honey bees."
"Hornets are part of a large order of insects known as Hymenoptera that include bees, wasps, ants, and sawflies. Worldwide, there are more than 115,000 species belonging to the order Hymenoptera (Hunt and Toth 2017). Most of this group of insects are beneficial for pollination and pest control. There are two types of hornets, solitary and social (Lee et al. 2016). Solitary hornets hunt various insects and spiders. Their 'stinger' is primarily used to paralyze their prey. They often lay an egg on the immobilized victim, and when the egg hatches, the larvae consume the still-living host. Solitary wasps generally do not sting humans and usually are not aggressive unless provoked."
"Social wasps, on the other hand, do use their stingers to defend their nests and can be very aggressive and will readily sting. The most common social wasp in the United States is the yellowjacket. The four most common yellowjacket species in Washington are the western yellowjacket (Paravespula pensylvanica), the common yellowjacket (Paravespula vulgaris), the aerial yellowjacket (Dolichovespula arenaria), and the German yellowjacket (Paravespula germanica) (Berry and Mooney 1998; Landolt and Antonelli 2003)."
"The recently introduced Asian giant hornet (AGH) is also a social wasp. When foraging for food in spring, the AGH ;is not highly aggressive—unless its nest is disturbed. Late summer and fall, with the high demand for protein, they become very aggressive when attacking or occupying a honey bee colony."
AGH appeared in the news last month when the Washington State Department of Agriculture announced it had trapped aVespa mandarinia near Birch Bay in Whatcom County. It was trapped July 14 and identified during processing on July 29. "This was the first hornet to be detected in a trap, rather than found in the environment as the state's five previous confirmed sightings were," according to the news release.
"Because the number of Asian giant hornet workers increases as a colony develops, residents should be most likely to see an Asian giant hornet in August and September," the news release related. "If you think you have seen one, report it at agr.wa.gov/hornets. Provide as much detail as you can about what you saw and where. Also, include a photo if you can safely obtain one, and if you come across a dead specimen keep it for potential testing. You can visit WSDA's website at agr.wa.gov/hornets to learn more about Asian giant hornets. You can also submit questions the WSDA Pest Program at email@example.com or 1-800-443-6684."
At least we never saw a 64-point bold, all-capped, World War II-sized newspaper headline that screamed "MURDER HORNET TRAPPED!"
But some of the misidentifications of Vespa mandarinia flowing in are incredible. Check out Stephane de Greef's Facebook page on "Is This a Murder Hornet?" The latest one spotlighted is a...wait for it...beetle.
It's the work of Washington State University's Honey Bee Research Program, College of Agricultural, Human and Natural Resource Sciences (WSU CAHNRS), and accessible free online on Vimeo at https://vimeo.com/380776410.
The 28-minute video, two years in the making, is aimed at helping beekeepers improve their stock and overcome some of the obstacles they may face in their breeding efforts.
The UC Davis connection is strong. The video chronicles the work of "the father of honey bee genetics," Harry H. Laidlaw Jr., of the University of California, Davis, for whom the Harry H. Laidlaw Jr. Honey Bee Research Facility on Bee Biology Road, UC Davis, is named. The husband-wife scientific team, Susan Cobey and Timothy Lawrence, both formerly of UC Davis and now of WSU, are executive producers and are featured in the video, as is noted bee scientist Steve Sheppard, director of the WSU Center for Reproductive Biology and former chair of the WSU Department of Entomology. The trio, also the authors, describe the Page-Laidlaw Population Breeding Program, one of the most successful bee breeding program and named for Laidlaw and Robert E. Page Jr., now a distinguished emeritus professor at UC Davis and emeritus provost, Arizona State University.
The video is "a guideline, that bees respond to selection but they need to be aware of some of the pitfalls that can hamper progress," said Lawrence, county director of WSU Extension for Island County. He's been working with bees since 1963 and landed his first commercial beekeeping job in 1969.
Sheppard says in the introductory remarks: "Honey bees are fascinating animals to work with and essential to pollination of our food supply. Currently faced with many challenges, one of our most important tools for long-term sustainability and improved honey bee health is a program of selection for stock that is hearty, productive, winters well, and has a reduced susceptibility to pests and pathogens."
Sheppard, Cobey and Lawrence know their bees. Between them, their bee experience encompasses some 150 years. Cobey, a bee breeder-geneticist who began working with bees in 1976, studied with Laidlaw, and later managed the Laidlaw facility. She is recognized as a global expert on instrumental insemination. Sheppard, who specializes in genetics and evolution of honey bees, and insect introductions and mechanisms of genetic differentiation, began working with bees while a graduate student at the University of Georgia.
In the video, Sheppard points out that "beekeepers recognize the need for more rigorous programs to select, improve and maintain their breeding stocks. The varroa mite and the movement of Africanized honey bees adds to this urgency. The principles discussed here serve as a guide to develop and establish a successful and practical breeding program with a focus on the traits you choose to enhance is your breeding population."
- Maintain a diverse population to provide the basis for selection
- A proficiency in queen and drone rearing
- Establish a selection index of desired traits
- Careful record-keeping
- Control of pests and diseases, and
- A method of controlled mating.
"The honey bee colony is a superorganism and this complicates the selection process," says Cobey, who breeds Carniolan bees. "Keeping your breeding program simple is key. Genetic diversity within the colony as well as within the population increases honey bee fitness. Several mechanisms contribute to this diversity:
- The high mating frequency of the queen.
- Semen storage--after mating only about 10 percent of the semen collected migrates to the spermatheca, although this represents each drone she has mated with."
- The high rate of recombination. a queen can mate with up to 60 drones, though typically mates with 15 to 20 drones. This mating behavior seems risky and inefficient, though is very successful in creating a genetically diverse superorganism, the colony."
"The many subfamilies of worker bees represented by the different drones mated, subfamilies specialize in different traits," Cobey says, "which together contribute to colony fitness."
She relates that "beekeepers and bee researchers have been selecting the honey bee for many years--some of the earliest attempts included attempting to mate bees in a confined enclosure or by hand .discoveries in the queens anatomy and physiology led to the first break through in controlled mating of honey bees with instrumental insemination.we owe a lot to some of the early pioneers in bee breeding like Laidlaw, (Lloyd) Watson, (Otto) Mackensen, (William) Roberts and many others."
Page-Laidlaw Closed Population Breeding Program
Noting that the Page-Laidlaw Closed Population Breeding Program "is one of the most successful practical breeding systems used, Cobey explains "the system basically is how most beekeepers approach selection--choose the best and propagate from these. The key component is an annual selection program supported with controlled mating and record keeping. Beekeepers rely on natural selection pressure to increase desirable traits in the population. The goal of the closed population breeding program is to increase the selection pressure and the frequency of desirable traits in the breeding population. Given the behavioral complexity of honey bees, this can be a challenging process. To be successful and give the program, longevity, it must be simple and repeatable."
The video drew nearly 1,000 views the first week. The first comment: "Great video! ....where can i buy that bee hat that Susan is wearing? Thanks so much!"
Cobey does have some nice hats!
"Pollination and Protecting Pollinators" is a 51-minute documentary by Washington State University (WSU) Cooperative Extension that explores how valuable honey bees are, why they're crucial, and what we need to do to protect them.
County Director Timothy Lawrence of Island County, WSU Extension, served as the co-executive producer of the documentary, as well as the writer and the primary narrator.
The Whidbey News-Times, in its May 23, 2010 edition, described Lawrence as an expert on honey bee health:
"Tim Lawrence has the credentials of an old-school extension services director, with a master's degree in rural sociology, a doctorate in environmental sciences and 20 years of experience working with extension programs in three states."
Some background: Tim and his wife, noted WSU bee breeder-geneticist Susan Cobey, were formerly based at the University of California, Davis, where Cobey served as the manager of the Harry H. Laidlaw Jr. Honey Bee Research Facility. Together they operated a commercial queen production business, Vaca Valley Apiaries, in Vacaville, Solano County.
But back to the documentary.
You'll learn about pollen, nectar and how pollen is transferred. You'll learn why honey bees are considered the best of all the pollinators but why honey bees are not the "best pollinators for some crops" and why.
You'll learn about almond pollination, along with many of the other crops that require bee pollination, including apples, cherries, plums, blueberries and cranberries. No bees? No almonds. No bees? No cranberries.
You'll learn who developed the Langstroth Hive and why it's important. Hint: the Rev. Lorenzo Lorraine Langstroth (1810-1895) discovered "bee space." You'll learn what "bee space" is.
You'll learn what Moses Quinby of New York did. Hint: Quinby (1810-1875) is considered the first commercial beekeeper in the United States. You'll learn how many hives he maintained in the Mohawk Valley region of New York.
You'll learn why Lawrence says "we won't starve if bees disappear."
And finally, you'll learn what you can do to help the bees.
"Do your part and we can all do this together," Lawrence says. Good advice. And timely advice as we begin the new year.
You can watch the video at https://vimeo.com/146957716.