- Author: Kathy Keatley Garvey
That's why we're looking forward to hearing Bryony Bonning speak on "Novel Toxin Delivery Strategies for Management of Pestiferous Aphids" at the next UC Davis Department of Entomology seminar, scheduled from 12:10 to 1 p.m., Wednesday, April 18 in 122 Briggs Hall.
Aphids, Bonning says, transmit more than 275 plant viruses "that result in considerable economic loss within the agricultural sector."
Now that's a lot of plant viruses!
A professor with the Iowa State University's Department of Entomology, Bonning is closely linked to UC Davis. She's a former postdoctoral research associate in the Bruce Hammock lab, Department of Entomology. Hammock, a distinguished professor of entomology, worked with her from 1990 to 1994. Her specialty: genetic engineering and optimization of baculovirus insecticides.
Bonning returns here Wednesday with lots of credentials. She's an associate editor for the Journal of Invertebrate Pathology; a Fellow of the American Association for the Advancement of Science (AAAS); a member of the International Committee on Taxonomy of Viruses, Baculovirus Study Group; and a member of the International Committee on Taxonomy of Viruses, Dicistrovirus/Iflavirus Study Group.
Bonning received her bachelor's degree in zoology from the University of Durham, UK in 1985, and her doctorate in applied entomology from the London School of Hygiene and Tropical Medicine, University of London, UK in 1989.
In her abstract for Wednesday's talk, Bonning explains: "Viruses in the Luteoviridae are obligately transmitted by aphids in a persistent manner that requires virion accumulation in the aphid hemocoel. To enter the hemocoel, the virion must bind and traverse the aphid gut epithelium. The molecular mechanisms involved in this process are poorly understood. By screening a phage display library, we identified a peptide that binds to the gut epithelium of the pea aphid Acyrthosiphon pisum (Harris) and impedes the update of Pea enation mosaic virus from the pea aphid gut into the hemocoel. In this talk, the development of two novel aphid management technologies based on knowledge of pea aphid – Pea enation mosaic virus molecular interactions will be described. These technologies provide enhanced delivery of both gut active and neurotoxic peptides."
"I can hardly wait for Bryony Bonning to visit us and present a seminar," Hammock said. "She is one of our most productive alumni in continuing her work on insect developmental biology and green pesticides based on insect viruses and expanded this dramatically into exciting new areas. She is advancing fundamental virology while applying this knowledge in production agriculture in both insect control and in blocking transmission of plant diseases by insects. She clearly is the leader in insect control with recombinant viruses."
Her April 18th seminar promises to zero in on those dratted pea aphids. The more we know about them, the better we can control them.
And the good news is that many of the UC Davis Department of Entomology's seminars will be videotaped and later posted 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.
- Author: Kathy Keatley Garvey
They're there.
If you walk slowly into your garden or backyard, and observe your surroundings, you'll find them. A jumping spider perched on a rose leaf. A soldier beetle climbing out of a tulip. A syrphid fly, aka flower fly or hover fly, foraging on a poppy blossom.
The insects (and spiders!) are back. The springlike temperatures, accompanied by bursts of rain, mean that these tiny little critters are everywhere.
If you pop a macro lens on your single-lens reflex camera, or use the macro setting on your point-and-shoot camera, you'll get them. There's even a set of lenses (macro, wide-angle and telephoto) that magnetically attach to your I-phone camera.
Travelers say it's fun and educational to go to Africa on safari, but you can also go on a Bug Safari in your backyard. It won't cost nearly as much, you don't have to make reservations, you don't have to hire a tour guide, and you don't have to worry about a water buffalo charging you.
Or your credit card company charging you.
- Author: Kathy Keatley Garvey
You've heard of "Got milk?"
With honey bees, it's "Got pollen?"
We spotted a lone honey bee on an African daisy last weekend. It was clear she'd been foraging for pollen. Pollen covered her legs and antennae and rimmed her head. And it was clear where it came from. The pollen on the daisy and the pollen on her matched perfectly.
"The importance of pollen for the health and vigor of the honey bee colony cannot be overstated," writes Norman Gary, emeritus professor of entomology at UC Davis, in his newly published book, Honey Bee Hobbyist: The Care and Keeping of Bees. "Bees need a balanced diet. Honey satisfies the bees' carbohydrate requirements, while all of the other nutrients--minerals, proteins, vitamins and fatty acids--are derived from pollen."
"Nurse bees consume large amounts of pollen, converting it into nutritious secretions that are fed to developing larvae," Gary writes. "During an entire year, a typical bee colony gathers and consumes about 77 pounds of pollen."
Gary further points out: "When she contacts the flower, pollen grains are attracted to her body, similar to the attraction of iron fillings to a magnet."
So, when you see a honey bee covered with pollen grains and think--"What a load!"-- that's just part of the 77 pounds gathered and consumed in a colony per year.
- Author: Kathy Keatley Garvey
And ants, honey bees, bumble bees, beetles, and skeeters, oh yes!
Don't see "Ewww!" Say "Wow!"
Those are just a few of the bugs that will be part of the UC Davis Department of Entomology's activities during the 98th annual campuswide UC Davis Picnic Day on Saturday, April 21.
Entomological activities will take place at two sites: Briggs Hall on Kleiber Hall Drive and the Bohart Museum of Entomology, located at 1124 Academic Surge on California Drive. Hours are from 10 a.m. to 3 p.m.
Forensic entomologist Robert Kimsey, coordinator of the department’s Picnic Day activities, promises not to disappoint. Indeed, thousands of people flock to the Bohart and Briggs every year just to see the bugs. What's a picnic without bugs? Bohart, Briggs and bugs. Now that's alliteration.
At Briggs, the popular events will include Maggot Art, termite trails, cockroach races and honey tasting, as well as displays featuring forensic, medical, aquatic, apiculture and forest entomology. Exhibits also will include such topics as fly fishing/fly-tying, insect pests of ornamentals, and pollinators of California.
Visitors to Briggs can cheer for their favorite cockroach at the American cockroach races; watch a termite follow a line drawn with a Bic ink pen (they follow the line because the ink acts as a pheromone or attractant) and create a Maggot Art painting suitable for framing.
Maggot Art, a term coined and trademarked by forensic entomologist Rebecca O’Flaherty, a former doctoral candidate at UC Davis, involves dipping a maggot in non-toxic, water-based paint to create art. O’Flaherty launched Maggot Art in 2001 as a community outreach project to teach--and reach--youths while she was studying entomology at the University of Hawaii.
At Briggs, the UC Statewide Integrated Pest Management Program (UC IPM) will "display information and tools for managing pests in homes and gardens," said Mary Louise Flint, UC IPM's associate director of urban and community IPM and an Extension entomologist with the UC Davis Department of Entomology. "We'll give advice on managing pests with less toxic, environmentally sound IPM methods. We will have Quick Tips to hand out, people can try out our touch screen IPM kiosk to answer questions and we will also be distributing live lady beetles (aka ladybugs) for children."
Those polka-dotted ladybugs are a big hit--and an even bigger hit if you watch them chow down aphids in your garden.
Also at Briggs, plans call for a “Bug Doctor” to answer insect-related questions from the public. Last year’s “Bug Doctors” included Michael Parrella, professor and chair of the UC Davis Department of Entomology. There's another "doctor in the house," too: Dr. Death. That would be forensic entomologist Robert Kimsey perched at a microscope and inviting folks to have a look-see.
The Bohart Museum of Entomology, home of more than seven million insect specimens, will showcase displays of specimens and live pollinators. The theme: "Insects Are Forever." Bohart Museum officials insist that insects can be a girl’s best friend (just like diamonds or dung beetles). They'll feature photos of UC Davis women entomologists. The Bohart Museum also will include a live “petting zoo” where visitors can hold Madagascar hissing cockroaches and walking sticks.
Also at the Bohart, native pollinator specialist Robbin Thorp, emeritus professor of entomology, and graduate student Emily Bzdyk, who studies with major professor Lynn Kimsey, will provide a live display of pollinators, including bumble bees, carpenter bees, leafcutting bees and green metallic sweat bees.
Is this going to "bee" fun or what?
Perhaps, just perhaps, the entomologists can steer folks clear of saying "yecch!" and "ewww!" and encourage them to ponder the wonderful world of bugs.