- Author: Kathy Keatley Garvey
With the Entomological Society of America (ESA), however, being framed is a good thing. No, a great thing!
ESA honors its President's Prize winners (aka first-place winners) in the student research competitions by asking them to step behind a cardboard cut-out and smile for the camera. Voila! Suitable for framing!
Joe Rominiecki, ESA manager of communications, just announced that the images are now available and we have permission to share them.
We earlier wrote that doctoral candidates Danielle Rutkowski and Zachary Griebenow of the UC Davis Department of Entomology and Nematology each won the President's Prize for their individual research presentations at the 2022 Joint Meeting of the Entomological Societies of America, Canada, and British Columbia, held Nov. 13-16 in Vancouver, British Columbia.
And now, we have the images.
Background: At the annual ESA meetings, students are offered the opportunity to present their research and win prizes. They can compete in 10-minute papers (oral), posters, or infographics. The President's Prize winners receive a one-year paid membership in ESA, a $75 cash prize, and a certificate. Second-winners score a one-year free membership in ESA and a certificate.
Rutkowski, who studies with community ecologists Rachel Vannette, associate professor, and distinguished professor Richard “Rick” Karban, spoke on “The Mechanism Behind Beneficial Effects of Bee-Associated Fungi on Bumble Bee Health,” at her presentation in the category, Graduate School Plant-Insect Ecosytems: Pollinators.
Her abstract: "Bees often interact with fungi, including at flowers and within bee nests. We have previously found that supplementing bumble bee colonies with these bee-associated fungi improves bee survival and increases reproductive output, but the mechanisms behind these effects are unclear. This research aimed to determine the mechanisms underlying positive impacts of fungal supplementation in the bumble bee, Bombus impatiens. We tested two hypotheses regarding possible nutritional benefits provided by bee-associated fungi. These included the role of fungi as a direct food source to bees, and the production of nutritionally important metabolites by fungi. To test these mechanisms, we created microcolonies bumble bees and exposed each microcolony to one of four treatment groups. These four treatments were created based on the presence of fungal cells and the presence of fungal metabolites. We found that bee survival and reproduction were unaffected by treatment, with trends of decreased survival and reproduction when fungi were present. This contradicts previous results we've found using this bumble bee species, where fungi had a positive impact. It is possible that this disparity in results is due to differences in pathogen pressure between the two experiments, as bees in the first experiment were exposed to large amounts of pathogen through provided pollen, including Ascosphaera and Aspergillus. This pollen was sterilized for subsequent experiments, reducing pathogen load. Therefore, it is possible that bee-associated fungi benefit bees through pathogen inhibition, and future work exploring this hypothesis is necessary to fully understand the role of these fungi in bumble bee health."
Zachary Griebenow. Griebenow, who studies with major professor and ant specialist Phil Ward, (Griebenow also captained the UC Davis Entomology Games Team in its national championship win at the Entomology Games or Bug Bowl) explained “Systematic Revision of the Obscure Ant Subfamily Leptanillinae (Hymenoptera: Formicidae), Reciprocally Informed by Phylogenomic Inference and Morphological Data.” His category: Graduate School Systematics, Evolution and Biodiversity: Evolution 1.
His abstract: "Ants belonging to the subfamily Leptanillinae (Hymenoptera: Formicidae) are sister to nearly all other extant ants. Miniscule and subterranean, little is known of their behavior. Contrary to the collecting bias observed in most ants, male leptanilline specimens are acquired more easily than workers or queens. The sexes are almost never collected in association, and many subclades within the Leptanillinae are known from male specimens only. Our comprehension of evolutionary relationships among the Leptanillinae is further obstructed by oft-bizarre derivation in male phenotypes that are too disparate for phylogeny to be intuited from morphology alone. These restrictions plague our understanding of the Leptanillinae with probable taxonomic redundancy. My thesis aims at leptanilline taxonomy that reflects phylogeny, inferred from both genotype and phenotype, and integrates morphological data from both sexes. Here I present the results of (1) phylogenomic inference from ultra-conserved elements (UCEs), compensating for potential systematic biases in these data, representing 63 terminals; and (2) Bayesian total-evidence inferences from a handful of loci, jointly with discrete male morphological characters coded in binary non-additive or multistate fashion. Notably, these analyses identify worker specimens belonging to the genera Noonilla and Yavnella, which were heretofore known only from males. Given such discoveries across the Leptanillinae, the number of valid leptanilline genera is reduced from seven to three in order to create a genus-level classification that upholds monophyly along with diagnostic utility."
We also salute our second-place winners (see previous news story:
- Lindsey Mack, who studies with medical entomologist-geneticist Geoffrey Attardo, assistant professor, covered “Three Dimensional Analysis of Vitellogenesis in Aedes aegypi Using Synchrotron X-Ray MicroCT” in the category, Graduate School Physiology, Biochemistry and Toxicology: Physiology
- Addie Abrams, who studies with Extension agricultural entomologist and assistant professor Ian Grettenberger, titled her research, “Hitting the Mark: Precision Pesticide Applications for the Control of Aphids in California Lettuce" in the category, Graduate School Physiology, Biochemistry and Toxicology: Integrated Pest Management
Congrats, all! They do our department and our university proud!
(The 7000-member ESA, founded in 1889, is the largest organization in the world serving the professional and scientific needs of entomologists and individuals in related disciplines. Its members, affiliated with educational institutions, health agencies, private industry, and government, are researchers, teachers, extension service personnel, administrators, marketing representatives, research technicians, consultants, students, pest management professionals, and hobbyists.)
- Author: Kathy Keatley Garvey
When two talented entomologists/artists from the University of California, Davis, collaborate and teach classes, you'll want to see the work that their students create.
And you can do just that from 4:30 to 6:30 p.m., Tuesday, Nov. 29 when UC Davis Department of Entomology and Nematology faculty members Emily Meineke and Diane Ullman host the Entomology (ENT) 001 Art Show, "Insects in the Anthropocene."
The show features the art that their students created this quarter in the Labudio (lab+studio) space in Room 128 of the Environmental Horticulture Building, 200 Arboretum Drive, UC Davis. (See map)
"Please bring a t-shirt if you'd like to screen print one of our designs on it, too," they said. "Kids can make shirts, too. The event will be indoor/outdoor, so please dress accordingly." No reservations are necessary.
Meineke commented that the students "were each assigned an insect species in decline or moving about the planet and becoming invasive in new habitats. The insects students were assigned are among those most impacted by humans, and students were given an opportunity to re-envision how people might interact more gently and intentionally with insects, our small, yet consequential co-inhabitants. We are so proud of how the students interacted with this topic; they were charged with researching their insects and turning that research into designs that could be screen printed on watercolor paper, ceramic tiles to be installed in Briggs 122, and fabric. Their designs are nothing short of spectacular!"
UC Davis distinguished professor Diane Ullman, an artist and entomologist, "helped immensely," said Meineke, adding that she wasn't "an official co-teacher but she essentially acted as one."
Assistant Professor Emily Meineke
Meineke, an urban landscape entomologist and assistant professor, was recently named one of the 12 UC Davis recipients of the prestigious Hellman Fellowships, an annual program supporting the research of early-career faculty. Her project, “Assessing Preservation of Chemical Compounds in Pressed Plants," focuses on whether herbarium specimens collected over hundreds of years harbor chemical compounds that reveal mechanisms responsible for changing insect-plant interactions.
Meineke was among the scholars and artists who helped spearhead the newly created Harvard Museum of Natural History's “In Search of Thoreau's Flowers: An Exploration of Change and Loss," hailed as an examination of the natural world and climate change at the intersections of science, art and history. She helped launch the project in 2017 when she was a postdoctoral fellow at the Harvard University Herbaria. The 648 plant specimens that Henry David Thoreau donated to the museum form the foundation of the exhibit. It opened to the public May 14.
A native of Greenville, N.C., Meineke joined the UC Davis Department of Entomology and Nematology on March 1, 2020, from the Harvard University Herbaria. As a National Science Foundation postdoctoral fellow, she studied how urbanization and climate change have affected plant-insect relationships worldwide over the past 100-plus years.
She received her bachelor of science degree in environmental science, with a minor in biology, in 2008 from the University of North Carolina, Chapel Hill. She obtained her doctorate in entomology in 2016 from North Carolina State University.
Professor Ullman, a celebrated teacher, artist and researcher, is the 2014 recipient of the Entomological Society of America (ESA) National Excellence in Teaching Award and the UC Davis Academic Senate's 2022 Distinguished Teaching Award for undergraduate teaching. She is a fellow of both the American Association for the Advancement of Science (2014) and the ESA (2011).
When she was singled out for the UC Davis Academic Senate Award, her nominators praised her as providing "superb teaching and mentoring for many years, not only in the Department of Entomology and Nematology but as a leader in the Science and Society program. She has brought art-science fusion alive in innovative ways. Her nominees and students rave about her deep dedication, care, and knowledge in all teaching interactions, as well as her overall commitment to student success. One student nominee summed it up: "My experience in her course last spring was one that lifted my spirits, enriched my education, and strengthened my love for art and science during a time when it was difficult to feel positive about anything.”
Ullman's research encompasses insect/virus/plant interactions and development of management strategies for insect-transmitted plant pathogens. She has worked with many insect vector species (thrips, aphids, whiteflies, leafhoppers, mealybugs) and the plant pathogens they transmit, including viruses, phytoplasma and bacteria.
One of her latest art projects--with colleagues, UC Davis students and community members--is the Sonoran Dreams Art Project in the Garden Apartments of the University Retirement Community, Davis. Handmade ceramic tiles depicting the flora, fauna and symbols of the Sonoran Desert surround the elevator.
Ullman received her bachelor of science degree in horticulture from the University of Arizona and her doctorate in entomology from UC Davis in 1985. She joined the UC Davis faculty in 1991 after serving as an associate professor of entomology at the University of Hawaii. Her credentials include: chair of the UC Davis Department of Entomology, 2004-2005; associate dean for undergraduate academic programs for the College of Agricultural and Environmental Sciences, 2005 to 2014; and co-founder and co-director of the UC Davis Art/Science Fusion Program, launched in September 2006.
- Author: Kathy Keatley Garvey
It's Thanksgiving Day, and as we sit down with family and friends to count our blessings, let's thank the bees.
If your table includes pumpkin, cranberries, carrots, cucumbers, onions, apples, oranges, cherries, blueberries, grapefruit, persimmons, pomegranates, pears, sunflower seeds, and almonds, praise the bees for their pollination services.
Honey bees (Apis mellifera) are generalists, while the squash bees (Peponapis pruinosa) are specialists that pollinate only the cucurbits or squash family, Cucurbitaceae.
And don't forget the spices. Honey bees visit the plants that eventually comprise our spices, including sage, basil, oregano and thyme.
Ready for dessert? Ice cream? Even milk and ice cream are closely linked to the honey bee. Cows feed on alfalfa, which is pollinated by honey bees (along with other bees).
Happy Thanksgiving!
- Author: Kathy Keatley Garvey
What are you having for Thanksgiving?
Turkey and all the trimmings?
Well, this little jumping spider had his sights set on ambushing a delicious syrphid fly.
Here's the scenario: The syrphid fly, a pollinator, hovers over a zinnia, sees no danger (the spider is tucked beneath a petal) and touches down. Ms. Fly slurps the nectar--ooh, that's good--and circles the blossom for more.
Ms. Fly, so busy slurping, is unaware that danger lurks with eight legs, excellent acuity and powerful leg muscles.
In a flash, Mr. Jumping Spider leaps.
Missed!
No meal today for Mr. Jumping Spider. Another day for Ms. Fly.
- Author: Kathy Keatley Garvey
She was all bees-ness, this yellow-faced queen bumble bee, Bombus vosnesenskii.
There she was, foraging in a bed of steely blue-purple flowers, Eryngium amethystinum, a genus that belongs to the carrot family, Apiaceae.
A native bee on a non-native plant.
It was Saturday, Nov. 19 and the temperature hovered at a unseasonable 64 degrees in the Sunset Gardens, Sonoma Cornerstone, Sonoma, Calif.
Unseasonable weather and an unseasonable bumble bee.
B. vosnesenskii are spring bees, and this time of year, the queen is usually hibernating, according to the late Robbin Thorp (1933-2019), UC Davis distinguished emeritus professor of entomology and a global authority on bees. In his retirement, he co-authored Bumble Bees of North America: An Identification Guide (Princeton University, 2014) and California Bees and Blooms: A Guide for Gardeners and Naturalists (Heyday, 2014).
“Bumble bees provide an important ecological service--pollination," he told us several years before his passing. "This service is critical to reproduction of a huge diversity of plants that in turn provide shelter, food (seeds, fruits) to diverse wildlife. The potential cascade of effects from the removal of even one localized pollinator may affect us directly and indirectly.”
Professor Thorp would have loved to see this bumble bee in Sonoma. He also would have loved to know that the Bohart Museum of Entomology at UC Davis launched the annual Robbin Thorp Memorial First-Bumble-Bee-of-the-Year Contest in 2021.
Contest coordinator Lynn Kimsey, director of the Bohart Museum and a UC Davis distinguished professor of entomology, seeks the first bumble bee of the year in the two-county area of Yolo or Solano. The rules are simple: photograph it, record the time and date, and email the image to the Bohart Museum at bmuseum@ucdavis.edu.
Coincidentally, this year UC Davis doctoral candidate Maureen Page of the Neal Williams lab, UC Davis Department of Entomology and Nematology and horticulturist Ellen Zagory, retired director of public horticulture for the UC Davis Arboretum and Public Garden each took their images at exactly 2:30 p.m. on Jan. 1 in the Arboretum to share the award.
Page captured her image of B. melanopygus, considered the earliest Bombus species to emerge in this area, and Zagory, of B. vosnesenskii. (See Jan. 3, 2022 Bug Squad blog)
And fittingly, they both knew and worked with Professor Thorp.
Their prize? Each receive a coffee cup designed with the endangered Franklin's bumble bee, a bee that Thorp closely monitored in its small range at the California-Oregon border. The cup features an image of a bee specimen, photographed by Bohart scientist Brennen Dyer, and designed by UC Davis doctoral alumnus Fran Keller, professor at Folsom Lake College.
