- Author: Kathy Keatley Garvey
John Mola, a fourth-year doctoral student in the Neal Williams lab, UC Davis Department of Entomology and Nematology, won the $850 first-place award with his presentation on "Bumble Bee Movement and Landscape Genetics."
“In conservation biology and ecological study, we must know the distances organisms travel and the scales over which they go about their lives,” Mola said of his work. “To properly conserve species, we have to know how much land they need, how close those habitats need to be to each other, and the impact of travel on species success. For instance, if I'm told there's free burritos in the break room, I'm all over it. If the 'free' burritos require me traveling to Scotland, it's not worth it and I would spend more energy (and money) than I would gain. For pollinators, it's especially important we understand their movement since the distances they travel also dictates the quality of the pollination service they provide to crop and wild plants."
“Despite this importance, we know comparatively little about the movements of bees--the most efficient of pollinators--due to the difficulty of tracking individuals," Mola explained. "Unlike birds or large mammals, we can't just attach large radio collars and follow them around. As such, my work has focused on improving methods that we can use for study. I use a combination of landscape ecology and molecular genetics to identify the locations of siblings (colony-mates) in landscapes. From that information, we can infer all sorts of useful information about the potential foraging range, habitat use, population size, etc. It's a very exciting time to be working on these topics as the availability of new genetic and GPS technologies allows us to answer or re-address scientific and conservation issues with bees.”
In his abstract, Mola related: "Understanding the way organisms move through environments is crucial to our ability to monitor, study, or conserve species--after all, a habitat that is wholly inaccessible is no habitat at all. However, studies of wild bee movement lag far behind those of many numerous individuals. This limits our ability to answer basic questions like how large of an area is needed for individuals to forage? Or how close do conservation areas need to be connected? For honey bees, we can answer these questions through the study of their infamous waggle dance--which reveals the distance and director of their travel. However, most bees do not possess these complex communication behaviors and so our ability to understand their patterns of movement has rlied on mark-recapture, observation, and nascent advances in radar tracking or molecular methods."
He went on to share that "Here, I present a novel methodology for studying bumble bee movement using high-throughput sequencing techniques. This method provides substantial improvement in the accuracy of estimations while simultaneously giving us insight into fine-scale population genetics. Both factors can be important in the conservation and study of pollinators and our ability to 'keep bees healthy." I demonstrate the method's utility by presenting a few case studies of its implementation, and the insight we gain into wild bumble bee movement."
Judges were Tom Seeley, professor at Cornell University, the symposium's keynote speaker; speaker Santiago Ramirez, assistant professor of evolution and ecology at UC Davis, and native pollinator specialist Robbin Thorp, distinguished emeritus professor at UC Davis. Master beekeeper/journalist Mea McNeil of San Anselmo served as the timer and coordinator for the panel.
Mola, who aims for a career "to run a collaborative research program as a faculty member at a research-oriented university,” received his bachelor's degree in environmental studies in 2011 from Florida State University,Tallahassee, and his master's degree in 2014 from Humboldt State University, Arcata, in biology.
Second place of $600 went to Maureen Page, a second-year Ph.D. student in Neal Williams lab for her research, “Impacts of Honey Bee Abundance on the Pollination of Eschscholzia californica (California golden poppy).”
Page presented her research on the impacts of honey bee abundance on native plant pollination. “While honey bees are economically important, they are not native to North America and may have negative impacts on native bees and native plant communities in certain contexts,” she related. “My research is ongoing, but preliminary results suggest that honey bee abundance may negatively affect the pollination of California poppies.”
In her abstract, Page wrote: "Many studies support the claim that introduced honey bees compete with native pollinators. However, little is known about how honey bee introductions will affect native plant communities and plant species' persistence."
Page, who seeks a career as a professor and principal investigator, received her bachelor's degree in biology from Scripps College, Claremont, Calif. in 2006, cum laude.
Other winners:
Third-Place, $300: Doctoral student Emily Kearney of UC Berkeley, for her research on “How Does Landscape Context Affect the Pollinator Community of Chocolate (Theobroma cacao)."
Fourth-Place (tie, $250 each): Doctoral student Jacob Francis of the University of Nevada, for his “A Sweet Solution to the Pollen Paradox: Nectar Mediates Bees' Responses to Defended Pollen” and Katie Uhl, a master's student, UC Davis Department of Food Science and Technology, for her “Determination of Volatile Organic Compounds in Mono-Floral Honey Using HS-SPME/GC/MS."
Fifth-Place ($150): Doctoral student Kimberly Chacon, UC Davis Geography Graduate Group, for her “A Landscape Ecology Approach to Bee Conservation and Habitat Design."
The annual Bee Symposium is sponsored by the UC Davis Honey and Pollination Center, headed by director Amina Harris, and the UC Davis Department of Entomology and Nematology, chaired by nematologist and professor Steve Nadler. Neal Williams serves as the co-faculty director of the Honey and Pollination Center.
- Author: Kathy Keatley Garvey
So said bee scientist and author Tom Seeley of Cornell University, Ithaca, N.Y., when he keynoted the fourth annual UC Davis Bee Symposium, held March 3 in the UC Davis Conference Center.
"EVERYTHING that colonies do when they are living on their own (not being managed by beekeepers) is done to favor their survival and their reproduction, and thus their success is contribution to the next generation of colonies," Seeley said in his talk on "Darwinian Beekeeping."
"And I mean everything."
Seeley, the Horace White Professor in Biology, Department of Neurobiology and Behavior, where he teaches courses on animal behavior and researches the behavior and social life of honey bees, visually transported the symposium crowd to his research site, the 4200-acre Arnot Teaching and Research Forest owned by Cornell University.
Located about 15 miles from the campus, Arnot Forest is a place where the honey bees live in the wild, that is, they are not managed by beekeepers, Seeley pointed out. They build small nest cavities high in the trees, about 25 feet high, and space their colonies apart by at least 750 meters. They build drone comb freely, amounting to 15 to 20 percent of the nest cavity. They live as they did millions of years ago.
It's survival by natural selection.
"We can learn from the wild colonies," Seeley said. "I go into the wild areas and track down where bees are living and follow the bees home. It takes me about two days to find a bee tree."
Does the Arnot Forest have Varroa mites, the worldwide parasitic, virus-transferring mite that's considered the No. 1 enemy of beekeepers? A pest that arrived in the New York area around 1994?
Yes, they do. All the colonies in the forest are infested with Varroa mites. And they survive.
Seeley's research shows that before 1978 (pre-Varroa mite), the forest contained 2.8 colonies per square mile. After 2002 (post-Varroa mite), the forest still contained 2.8 colonies per square mile.
Honey bees typify the Charles Darwinian concept of evolution by natural selection, Seeley said. Indeed, "all bees living today are the products of natural selection."
Darwin, who described comb building as "the most wonderful of all (insect) instincts" and Lorenzo L. Langstroth, who invented the movable-frame hive, "both had important insights that can help us with our beekeeping," Seeley related.
"Darwinian beekeeping is allowing the bees to use their own beekeeping skills fully."
However, Darwinian beekeeping or "bee friendly beekeeping" is not for everyone, Seeley emphasized. "It's not for large-scale beekeepers, it's not for urban beekeepers. It is an option for small-scale rural beekeepers who want to avoid chemical treatments and who are satisfied with modest honey crops."
With Darwinian beekeeping, the emphasis is on the "environment of evolutionary adaptedness, "or the original environment in which wild colonies live," Seeley said. "Colonies are genetically adapted to their location."
How can beekeepers practice Darwinian beekeeping?
"Keep bees that are adapted to your location," he said. "Rear queens from your best survivor colonies, OR capture swarms with bait hives in remote locations OR purchase queens from a queen breeder who produces locally adapted queens."
"If the mite level gets high (more than 10 mites per 100 bees), then euthanize the colony; pour warm, soap water into hive at dusk," he said. "This does two things: it eliminates your non-resistant colonies and it avoids producing mite bombs. An alternative to euthanasia of the colony: treat for Varroa and requeen with a queen of resistant stock."
The issues of hive size and proximity are also important. Many modern beekeepers use "multi-storied wooden kits, super-sized like McDonald's," the professor said. "And managed bee hives are often a meter away from one another, as compared to 750 meters in the wild."
Seeley also said it's important "not to disturb colonies in winter: no checking, no stimulative feeding, no pollen patties, etc. Even a brief removal of the lid causes winter cluster to raise its temperature in alarm for several hours."
In his presentation, Seeley touched on nine Darwinian beekeeping tips, summarized here:
1. Keep bees that are adapted to your location
2. House colonies in small hives and let them swarm
3. Space colonies as widely as possible
4. Line hives with propolis collection screens or untreated lumber to allow them to build a "propolis (antimicrobial) shield"
5. Provide the most resilient (lowest mite count) colonies with 10 to 20 percent drone comb
6. Keep the nest structure intact
7. Use a small, bottom entrance
8. Do not disturb colonies in winter
9. Refrain from treating colonies for Varroa
He lists 20 Darwinian beekeeping tips in his article published in the March 2017 edition of the American Bee Journal. (The article also appears on the Natural Beekeeping Trust website, printed with permission.)
Seely is the author of Honeybee Ecology: A Study of Adaptation in Social Life(1985), The Wisdom of the Hive: the Social Physiology of Honey Bee Colonies (1995), and Honeybee Democracy (2010), all published by Princeton Press.
The UC Davis Honey and Pollination Center and the UC Davis Department of Entomology and Nematology sponsored the event, which drew a crowd of 250. Amina Harris, director of the center, coordinated the event.
In introducing the keynote speaker, Professor Neal Williams of the entomology faculty and the faculty co-director of the Honey and Pollination Center board, described Seeley's work as "innovative and insightful. He is truly a gifted author who blends science and philosophy."
- Author: Kathy Keatley Garvey
Except for a little liquid sunshine.
Unexpected rain, however, won't deter beekeepers, bee scientists and other bee enthusiasts from gathering in the UC Davis Conference Center on Alumni Drive at 8:30 a.m. for the all-day conference. They'll wear their rain gear and wield their umbrellas.
One thing, however, has changed. the outdoor reception planned for the Häagen-Dazs Honey Bee Haven on Bee Biology Road, west of the central campus, has been moved indoors to the Sensory Building, Robert Mondavi Institute for Wine and Food Science on Old Davis Road.
Keynote speaker is noted bee scientist/professor/author Tom Seeley of Cornell University, Ithaca, N.Y., who will speak on "Darwinian Beekeeping."
The event is sponsored by the UC Davis Honey and Pollination Center, Robert Mondavi Institute of Wine and Food Science, and the UC Davis Department of Entomology and Nematology.
The daylong event "is designed for beekeepers of all experience levels, including gardeners, farmers and anyone interested in the world of pollination and bees," said Amina Harris, director of the Honey and Pollination Center. "In addition to our speakers, there will be lobby displays featuring graduate student research posters, the latest in beekeeping equipment, books, honey, plants, and much more."
As of today (March 1), 25 more attendees can be accommodated.
The conference begins with registration and a continental breakfast at 8:30 a.m., with welcomes and introductions at 9 a.m., by Amina Harris and Neal Williams, UC Davis professor of entomology and faculty co-director of the center. Seeley's keynote address at 9:15 a.m. follows.
10:15 a.m. The Evolution and Chemical Ecology of Orchid Bees
Santiago Ramírez, assistant professor, UC Davis Department of Evolution and Ecology
10:45 a.m. Break
Graduate student posters available for viewing
11 a.m. Understanding the Nuances of Honey: An Educational Tasting
Amina Harris, director, Honey and Pollination Center, Robert Mondavi Institute of Wine and Food Science, UC Davis
12 Noon. Master Beekeeper Program
Honoring the Apprentice Level Master Beekeepers—Pin Ceremony
Elina Lastro Niño, Extension Apiculturist, UC Davis Department of Entomology and Nematology
Bernardo Niño, staff research associate, UC Davis Department of Entomology and Nematology
12:30 p.m. Lunch
Graduate student poster presentations
Educational exhibits
2 p.m. An Update from Project Apis m
Danielle Downey, executive director, Project Apis m
2:45 p.m. Designing Bee-Friendly Gardens
Kate Frey of Hopland, Calif., ecological garden designer, consultant and columnist, and co-author of The Bee-Friendly Garden (with Gretchen LeBuhn, professor of biology, San Francisco State University). The book won the American Horticultural Society 2017 Book Award.
3:30 p.m. Break
3:30 p.m. Lightning Round
4 to 6-minute presentations about many different programs in the world of beekeeping followed by a question and answer session
4:30 p.m. Winners of the Graduate Student Poster Competition Announced
4:45 p.m. Close
Reception in the Sensory Building, Robert Mondavi Institute for Wine and Food Science, Old Davis Road
To register for one of the 25 spots available, just access the Honey and Pollination Center website. For more information, contact Amina Harris at aharris@ucdavis.edu or Liz Luu at luu@caes.ucdavis.edu.
- Author: Kathy Keatley Garvey
Spring doesn't "spring" on the University of California, Davis campus. Sometimes it skitters, scampers and scoots. That's in between the cool and warm temperatures that deceive us--and the bees.
Actually, spring won't punch the clock until March 20, but if you stroll around the central campus, you'll see honey bees nectaring on almond, rosemary, and tidy tip blossoms.
And over at the UC Davis Honey and Pollination Center, director Amina Harris is gearing up for the fourth annual UC Davis UC Davis Bee Symposium: Keeping Bees Healthy, set Saturday, March 3 in the UC Davis Conference Room on Alumni Drive.
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," Harris says. "In addition to our speakers, there will be lobby displays featuring graduate student research posters, the latest in beekeeping equipment, books, honey, plants, and much more."
The event is sponsored by the UC Davis Honey and Pollination Center (located in the Robert Mondavi Institute of Wine and Food Science), and the UC Davis Department of Entomology and Nematology.
Keynote speaker is noted bee scientist/professor/author Tom Seeley of Cornell University, Ithaca, N.Y., who will speak on "Darwinian Beekeeping." Seeley is the Horace White Professor in Biology, Department of Neurobiology and Behavior, where he teaches courses on animal behavior and researches the behavior and social life of honey bees. He's the author of Honeybee Ecology: A Study of Adaptation in Social Life (1985), The Wisdom of the Hive: the Social Physiology of Honey Bee Colonies (1995), and Honeybee Democracy (2010), all published by Princeton University Press. His books will be available for purchase and signing at the symposium.
A pending deadline: Graduate students throughout the country are invited to submit their research posters. The winners will share $1800 in cash prizes. Applications must be submitted to Liz Luu at luu@caes.ucdavis.edu, by Feb. 12. For the rules, see this web page.
The conference begins at 8:30 a.m. with registration and a continental breakfast. At 9 a.m., Amina Harris and Neal Williams, UC Davis professor of entomology and the center's faculty co-director will welcome the crowd and introduce Seeley, who speaks at 9:15 a.m. Then a host of speakers will address and interact with the crowd throughout the day. To check out the agenda and to register, access this page. Or contact Harris at aharris@ucdavis.edu or Liz Luu at luu@caes.ucdavis.edu for more information. Registration is $85 (general) and $25 for students.
The symposium ends at 4:45, when the crowd heads to the reception in the Häagen-Dazs Honey Bee Haven, a bee demonstration garden located next to the Harry H. Laidlaw Jr. Honey Bee Research Facility on Bee Biology Road, west of the central campus.
It's all about the bees-our littlest agricultural workers--and keeping them healthy.
- Author: Kathy Keatley Garvey
Take Benicia, Solano County. Its little hot spots near the Carquinez Strait--think trees growing near sun-warmed asphalt--yield early almond blooms, often as early as New Year's Day.
At the Matthew Turner Park in Benicia, today, honey bees buzzed around the almond blossoms, gathering pollen and nectar. But the honey bees were not alone.
Yellow-faced bumble bees, Bombus vosnesenskii, were foraging, too. It's always a treat to see honey bees in the almonds, but it's a double treat to see a bumble bee.
Pollination of California's almond acreage is as intense as it is huge. The 2016 almond acreage totaled 1.2 million acres--940,000 bearing and 300,000 acres non-bearing, according to a report issued in April 2017 by the California Department of Food and Agriculture, in cooperation with the National Agricultural Statistics Service of the U.S. Department of Agriculture. This year, California has more than a million acres of bearing almonds, and each acre requires two bee hives for pollination. The leading almond-producing counties? Kern, Fresno, Stanislaus, Merced and Madera.
Solano County, of course, doesn't make the list, but when you want to see the early almond blooms, it's the place to "bee."
Which reminds us of the research, Synergistic Effectgs of non-Apis Bees and Honey Bees for Pollination Services, published by an international team of scientists in the Jan. 10, 2013 edition of The Proceedings of the Royal Society B. The researchers, including pollination ecologist Neal Williams of UC Davis, found that honey bees are more effective at pollinating almonds when other species of bees are present.
When blue orchard bees and wild (non-managed) bees such as bumble bees, carpenter bees and sweat bees, are foraging in almonds with honey bees, the behavior of honey bees changes, resulting in more effective crop pollination, said lead author Claire Brittain, then of the Neal Williams lab. She earlier worked as a post-doctoral fellow at Leuphana University of Lüneburg, Germany.
“These findings highlight the importance of conserving pollinators and the natural habitats they rely on,” Brittain told us in a news release. “Not only can they play an important direct role in crop pollination, but we also show that they can improve the pollination service of honey bees in almonds.”
Agroecologist Alexandra-Maria Klein, now a professor at Leuphana University, served as the project lead while a postdoctoral fellow in the UC Berkeley lab of conservation biologist/professor Claire Kremen. In fact, Klein and Kremen initiated the project in 2008 and continued working on the project together in 2009 and 2010. Williams joined the team in 2010.
Native pollinator specialist Robbin Thorp, now a distinguished emeritus professor of entomology at UC Davis, identified 50 different species that the team found. They included bumble bees, small carpenter bees, sweat bees, digger bees, mining bees and blue orchard bees.
Take a look around you during the almond pollination season. The honey bees are not alone.