- Author: Kathy Keatley Garvey
Her Oct. 7th seminar was recorded. You can access it via Aggie Videos on the ENT website at https://entomology.ucdavis.edu/seminars. Here's the direct link.
Her topic: "Don't Compromise: Food Lipid Contest Shapes Protein-Lipid Regulation in Honey Bee (Apis melliera) Nurses," which she delivered in Room 122 of Briggs and also on Zoom.
Posada was introduced by apiculturist Elina Lastro Niño, associate professor of Cooperative Extension and founder and director of the California Master Beekeeper Program.
Posada began her talk by noting that one of the hot topics of honey bee research is nutrition. She went on to explain what bees need and the research her team is doing.
Her abstract: "Regulating nutrient intake is a fundamental and multidimensional challenge for all animals. Typically, animals prioritize macronutrient intake, and we know much about protein-carbohydrate regulation. In contrast, we know relatively little about protein-lipid regulation, especially among palynivores like bees that feed on food (pollen) that has high, but variable, protein and lipid content."
"Using a Geometric Framework or nutrition experimental approach, we show that nurse honey bees (Apis melliera) maximized their protein-lipid intake on diets that had a 3:2 protein:lipid ratio and that it was lowest on highly lipid-based diets. In choice experiments with nutritionally complementary diets, bees self-selected a protein-based diet. However, total consumption was suppressed when a lipid-biased food was present. Our collective results suggest bees actively regular the intake of both protein and lipid, but that lipid regulation is particularly strict. Our findings have implications for honey bee and palynivore ecology, and nutritional ecology more broadly."
All ENT seminars recorded will appear at https://entomology.ucdavis.edu/seminars. The first speaker in the fall series was Kyle Wickings of Cornell, who spoke Sept. 30 on "Composition and Function of Soil Invertebrate Communities in Residential Greenspaces." The direct link to his seminar is here.
The fall seminars begin Monday afternoon, Sept. 30 and will continue every Monday through Dec. 2.
Nematologist Amanda Hodson, assistant professor of soil ecology and pest management, is coordinating the seminars. All, except one, will be held in 122 Briggs Hall. All, but one (Nov. 18), will be on Zoom. The Zoom link:
https://ucdavis.zoom.us/j/95882849672.
Here's the remaining schedule:
Monday, Oct. 14, 4 p.m. to 7 p.m. Thomas and Nina Leigh Distinguished Alumni Award Seminar, Putah Creek Lodge
Michael Hoffmann
Professor Emeritus, Cornell University
Title: “Our Changing Menu: Using the Power of Food to Confront Climate Change”
This will take place beginning at 4 p.m. in the Putah Creek Lodge and will include a social, lecture and dinner. Reservations are closed, but his seminar will be recorded and archived. (See more)
Monday, Oct. 21, 4:10 to 5 p.m.,122 Briggs
Andrew Corbett
Research Affiliate, UC Davis Department of Entomology and Nematology (formerly with the lab of UC Davis distinguished professor Jay Rosenheim, now emeritus)
Title: "In Silico Experiments with the Effect of Natural Habitats on Biological Control in Agricultural Landscapes."
Monday, Oct. 28, 4:10 to 5 p.m., 122 Briggs
Jolene Saldivar
UC Davis Chancellor's Postdoctoral Fellow, lab of Professor Louie Yang
Title: "Disturbance in Coastal Sage Scrub and the Implications for Migratory Butterflies”
Monday, Nov. 4, 4:10 to 5 p.m., 122 Briggs
Eliza Litsey (exit seminar)
Litsey, a former graduate student in the honey bee lab of Elina Niño, UC Davis Department of Entomology, received her master's degree in entomology in June 2024 and is now a laboratory technician at the lab of research entomologist Julia Fine, USDA/ARS, Davis. Litzey also holds a bachelor's degree from UC Davis.)
Monday, Nov. 18, 122 Briggs (in-person only; will not on Zoom)
Andre Custodio Franco
Assistant Professor, Indiana University Bloomington
Title: "Deciphering the Soil Macrobiome: Belowground Communities Driving Ecosystem Responses to Global Change”
Monday, Nov. 25, 4:10 to 5 p.m., 122 Briggs
Christine Sprunger
Associate Professor of Soil Health at Michigan State University
Title: "Nematodes as Bioindicators of Soil Health and Climate Resiliency”
Monday, Dec. 2, 4:10 to 5 p.m., 122 Briggs
Inga Zasada
Research Plant Pathologist, USDA-ARS
Title: "How an Applied Nematolgist Uses Genomic Tools to Address Plant-Parasitic Nematode Research”
For more information contact Hodson at akhodson@ucdavis.edu
- Author: Kathy Keatley Garvey
An international leader in honey bee research--Juliana Rangel Posada--will speak on "Don't Compromise: Food Lipid Content Shapes Protein-Lipid Regulation in Honey Bee (Apis Mellifera) Nurses" at 4:10 p.m. on Monday, Oct. 7 in 122 Briggs Hall. Her seminar also will be broadcast on Zoom. The Zoom link:
https://ucdavis.zoom.us/j/95882849672.
Can't attend or Zoom in? Her seminar will be archived on the Entomology and Nematology seminar website at https://entomology.ucdavis.edu/seminars.
"Regulating nutrient intake is a fundamental and multidimensional challenge for all animals," Posada says in her abstract. "Typically, animals prioritize macronutrient intake, and we know much about protein-carbohydrate regulation. In contrast, we know relatively little about protein-lipid regulation, especially among palynivores like bees that feed on food (pollen) that has high, but variable, protein and lipid content."
"Using a Geometric Framework or nutrition experimental approach, we show that nurse honey bees (Apis melliera) maximized their protein-lipid intake on diets that had a 3:2 protein:lipid ratio and that it was lowest on highly lipid-based diets," she continued. "In choice experiments with nutritionally complementary diets, bees self-selected a protein-based diet. However, total consumption was suppressed when a lipid-biased food was present. Our collective results suggest bees actively regular the intake of both protein and lipid, but that lipid regulation is particularly strict. Our findings have implications for honey bee and palynivore ecology, and nutritional ecology more broadly."
Posada joined the TAMU College of Agriculture and Life Sciences faculty in January 2013. She is active in the Texas Beekeepers Association and has addressed dozens of beekeeping associations across the United States and internationally.
Posada and her research group at Texas A&M found that a widely used pesticide—the miticide amitraz—used to protect honey bees from mite infestation, has an effect on mating among the queens. (See Entomology Today, a publication of the Entomological Society of America)
She's also an outstanding teacher, the recipient of TAMU awards and the 2023 Excellence Achievement Award in Teaching, Southwestern Branch of the Entomological Society of America.
Nematologist Amanda Hodson, assistant professor, is coordinating the ENT seminars. The full list is here. For more information or for technical issues, contact Hodson at akhodson@ucdavis.edu.
Resources:
- Interview with a Social Insect Scientist, published in 2017 by Insectessociaux
- Biology of Mating, National Honey Show Lecture Series 2015, YouTube
- Bee Happy: Maximizing Honey Bee Characteristics for Health Bees, Finding Genus Podcast
- Posada lab Facebook page: facebook.com/TAMUhoneybeelab
- Author: Kathy Keatley Garvey
It's Labor Day, but honey bees aren't relaxing. They're out in force collecting nectar, pollen, water and propolis.
Ever seen them weighted down with huge pollen loads?
They seem to have "Herculean strength," don't you think? That's what Norman "Norm" Gary, emeritus professor of entomology at the University of California, Davis, writes in his book, Honey Bee Hobbyist: The Care and Keeping of Bees, considered the bible for hobby beekeepers.
"Ten pollen foraging trips a day is par for the typical pollen forager," Gary relates. "When pollen is abundant, a bee can gather a full load in as little as 10 minutes by visiting several dozen flowers...When all factors are favorable, bees from a strong colony can collect many thousands of loads a day. Incidentally, when.beekeepers describe their colonies as strong. they really mean populous--even though bees as individuals seem to have Herculean strength, flying with loads nearly as heavy as their body weight."
In an email, he wrote: "A worker honey bee weighs about 100 milligrams and are reported to be able to carry about 75 milligrams…approximately 75 percent of is body weight!"
Gary, now 90, served as a member of the UC Davis faculty from 1962-1994. He has kept bees for 75 years, starting at age 15.
As an aside, you may know him as not only a professor, scientist, musician, and author but one of the world's most incredible professional bee wranglers. He used to wear full-body bee suits and play the b-flat clarinet. (See Bug Squad blog of Nov. 30, 2016). He once trained bees to fly into his mouth to collect food from a small sponge saturated with his patented artificial nectar. He holds the Guinness World record (109 bees inside his closed mouth for 10 seconds) for the stunt.
Norm Gary knows bees.
- Author: Kathy Keatley Garvey
Titled "Robert E. Page, Jr.: The Spirit of the Bee," it's a great article chronicling his life, his love of bees, and his massive number of achievements. Rice captured it well.
Rob, a native of Bakersfield and now 74, received his doctorate in 1980 from UC Davis, studying with major professor Norman Gary and doctoral research mentor Harry H. Laidlaw Jr. He advanced to professor and chair of the Department of Entomology (now the Department of Entomology and Nematology). A second career emerged when Arizona State University (ASU) recruited him.
Today Page holds the titles of ASU University Provost Emeritus and Regents Professor Emeritus as well as UC Davis Distinguished Emeritus Professor and Emeritus Chair of the UC Davis Entomology Department.
Page is known for his research on honey bee behavior and population genetics, particularly the evolution of complex social behavior. One of his most salient contributions to science was to construct the first genomic map of the honey bee, which sparked a variety of pioneering contributions not only to insect biology but to genetics at large.
Page pioneered the use of modern techniques to study the genetic basis of social behavior evolution in honey bees and other social insects. He was the first to employ molecular markers to study polyandry and patterns of sperm use in honey bees. He provided the first quantitative demonstration of low genetic relatedness in a highly eusocial species.
He is "arguably the most influential honey bee biologist of the past 30 years," his peers say.
At UC Davis, Page worked closely with Laidlaw. Together they published many significant research papers and the landmark book, “Queen Rearing and Bee Breeding” (Wicwas Press, 1998), considered the most important resource book for honey bee genetics, breeding, and queen rearing.
For 24 years, from 1989 to 2015, Page maintained a UC Davis honey bee-breeding program, managed by bee breeder-geneticist Kim Fondrk. Their contributions include discovering a link between social behavior and maternal traits in bees. Their work was featured in a cover story in the journal Nature. In all, Nature featured his work on four covers from work mostly done at UC Davis.
Page authored two books: The Spirit of the Hive: The Mechanisms of Social Evolution (Harvard University Press, 2013) and the Art of the Bee: Shaping the Environment from Landscapes to Societies (Oxford University Press, 2020). In 2023, he launched a publicly accessible YouTube Channel, https://youtube.com/@artofthebee.
When Rice asked Page "Who was the most influential person in your education," Page replied: "Today, all my research approaches, the way I thought about things, everything I did I can point back to four people. Norm Gary taught me the importance of knowing behavior and having good behavioral assays. He was superb at it. Nobody knows better what bees will do than Norm Gary, but he doesn't care much about why they do it. Which then brings me to my training in evolution from Tim Prout, who was an evolutionary biologist and population geneticist. He taught me population genetics, which I use to develop a population way of thinking about the work that I do. Harry Laidlaw taught me the value of breeding and the value of attention to detail. When we wrote papers together, we went over every word. Harry believed that every word had to be there for a reason. Every word had to be right. Robert A. Metcalf, an incredible guy, really turned me on to social insects, and got me interested in using molecular and biochemical markers. Everything I did for the rest of my career came from those four people."
This week we asked Gary, now 90, what it was like to have Rob as his graduate student.
In a June 17th email, Gary wrote: “When I first met Rob Page at the beginning of his graduate studies, I was immediately impressed that he was a very exceptional student in all respects! He was enthusiastic about insect behavior, especially honey bee behavior. I became his major professor. His fascination with behavior soon evolved into behavioral genetics. Consequently, I encouraged him to conduct his graduate research under the direction of Harry Laidlaw whose research program focused on honey bee genetics."
"Rob and I shared several bee research projects, one of which involved research on honey bees to determine if insects would be adversely affected by exposure to microwaves from solar power satellites that were under consideration as a future source of energy for mankind. Rob excelled in all activities. His enthusiasm was contagious! He richly deserves the many rewards he has received during his career, especially for his superior skills in research, teaching, and leadership in every facet of the academic world.”
You may know Norm Gary as not only a professor, scientist, musician, and author but one of the world's most incredible professional bee wranglers. He used to wear full-body bee suits and play the b-flat clarinet. (See Bug Squad blog of Nov. 30, 2016). He once trained bees to fly into his mouth to collect food from a small sponge saturated with his patented artificial nectar. He holds the Guinness World record (109 bees inside his closed mouth for 10 seconds) for the stunt.
It's all about The Bees for Rob Page and Norm Gary.
It's always been about The Bees.
- Author: Kathy Keatley Garvey
If you're struggling with triple-digit temperatures, think about the honey bees.
They need to collect water for their colony to cool the hive so their brood can develop. And for other purposes.
Just call them "The Water Girls."
Lately the bees have taken a liking to our birdbath. The birds? They're practicing social distancing.
We remember Extension apiculturist Eric Mussen (1946-2022) telling us "Like most other animals, the bodies of honey bees are mostly water. Thus, they need to drink water routinely as we do. Additionally, water (or sometimes nectar) is critical for diluting the gelatinous food secreted from the head glands of nurse bees, so that the queen, developing larvae, drones, and worker bees can swallow the food. They use water to keep the brood nest area at the proper relative humidity, especially when it gets hot and dry outside the hive. Water droplets, placed within the brood nest area, are evaporated by fanning worker bees and that cools (air conditions) the brood nest area to keep the eggs and developing brood at the critical 94 degrees Fahrenheit required for proper development."
Unlike us, honey bees cannot simply turn on a faucet. "They will fly up to nearly five miles to find a suitable watering source," Mussen told us back in 2014. "Suitable to honey bees might not be suitable to us, but if it is moist, it may be visited. Suitable to the neighbors is a separate question. Honey bees can become quite a nuisance if they visit drippy irrigation lines or hose connections, birdbaths, pet water dishes, swimming pools, fountains, or wet laundry and the like. The water foragers become habituated to those sites. If you try to dissuade the bees by drying up the source for a while, it becomes evident that the bees will visit the site every so often so they'll be around quickly after the water is returned."
What to do? "People have tried to use repellents in the water, but the bees are likely to use the odor as an attractant when attempting to relocate the water source. Some people have had success keeping bees and wasps out of their swimming pools with very lightweight oils or monomolecular films--their purpose is to prevent mosquitoes from being able to breathe. But, if the water is splashed very much, you'll require a new layer."
And all those bees struggling in your swimming pool? "Not all moribund honey bees in a swimming pool are there because they were trying to get a drink. Every day, approximately 1,000 old honey bees from each colony die naturally. This normally occurs during foraging, and the bees just flutter down to the ground, sidewalk, driveway, parking lot, or whatever they were passing over. Some flutter into swimming pools. They are not dead, yet, so they can and do inflict stings on people who bump into them on the surface of the water. "
Beekeepers should make sure there's a watering source on their property so the bees won't hunt for water elsewhere, Musssen pointed out. It should be available all year around. "Once the bees are habituated to the site, most of them will use that source."
It's also a good idea to place corks in a birdbath for the bees to stand on. Bees don't like to get their feet wet. And if they drop into the water structure, they can drown.
As for the bee tenants in our watering hole, bring 'em on.
We absolutely love "The Water Girls." The birds, well, not so much. (But they do have access to a second birdbath and a fish pond.)