- Author: Kathy Keatley Garvey
His seminar is set for 4:10 p.m., Wednesday, April 12 in 122 Briggs Hall. It also will be virtual. The Zoom link:
https://ucdavis.zoom.us/j/95882849672
"Parasitic infections, pesticide exposures, and lack of nutrition are thought to interact to cause synergistic declines in honey bee health," Mayack says in his abstract. "First, I will demonstrate how disease can lead to altered behavior that is linked to the honey bee‚ a highly social nature that results in its inability to buffer against energetic stress. Then I will discuss how environmental chemical exposure biomarker profiles (fingerprints) can be used to predict presence of the most common honey bee diseases and how the two are likely interact along metabolic pathways, which is likely to be key in explaining the underlying mechanisms responsible for synergistic declines in honey bee health."
"Lastly, I will present how a systems biology approach coupled with long term monitoring of bee health will be a central powerful tool, moving forward, for unraveling the mystery that surrounds identifying the specific mechanistic causes of global bee health declines."
"Honey bees pollinate $15 billion worth of crops in the United States each year, including more than 130 types of fruits, nuts, and vegetables," according to USDA-National Agricultural Statistics Service (NASS). "Honey bees also produce honey, worth about $3.2 million in 2017."
New Scientist featured Mayack in its April 28, 2021 edition in an article headlined: "Honeybees Stress Each Other Out by Warning about Minor Parasites."
"A one-celled fungus called Nosema ceranae can infect the guts of individual bees, causing a disease called nosemosis," wrote science journalist Christa Lesté-Lasserre. "Similar to tapeworm infections in humans, nosemosis apparently makes bees hungrier and reduces their resistance to pesticides and probably viruses, but it isn't particularly fatal. Yet, nosemosis is one of the top reasons honeybee populations are declining."
Mayack, then of Swarthmore College, Pennsylvania, "suspected this might have something to do with how the fungus affects the bees' social structures," she wrote.
Mayack, who joined the USDA-ARS in August of 2022, holds a bachelor's degree in biology (2007) from the State University of New York, Geneseo, and a doctorate in zoology (2012) from Colorado State University. He wrote his dissertation on “Behavioral Alteration in the Honeybee Due to Parasite-induced Energetic Stress.” Mayack served as a 2012-2014 Alexander von Humboldt Postdoctoral Fellow at the Zoology Institute, Martin-Luther-University Halle-Wittenberg, Germany.
His research interests include systems biology, improving honey bee health, animal physiology, animal behavior, parasite-host interactions, neurobiology, effects of aging, evolution of social behavior, regulation of appetite and energetic homeostasis, and metabolomics/exposomics.
Seminar coordinator Emily Meineke, urban landscape entomologist and assistant professor, has lined up these seminars for the spring quarter. For technical issues (Zoom), contact Meineke at ekmeineke@ucdavis.edu.
- Author: Kathy Keatley Garvey
In lekking, certain species of males in the animal world, including black grouse, peacock and owl parrots, congregate in a courtship ritual to entice females to mate with them. This is unusual because spiders are notoriously solitary and cannibalistic.
Two UC Davis spider experts played a key role in analyzing the genetics of this spider. The new species is an orb weaver named Isoxya manangona. Its species name is derived from the Malagasy verb meaning to "gather" or "aggregate."
Jason Bond, the Evert and Marion Schlinger Endowed Chair in the UC Davis Department of Entomology and Nematology and project scientist James Starrett headed the genetic analysis. The research paper was recently published in the journal, Insect Systematics and Diversity.
“This paper is significant in a number of respects including the discovery of a new species of orb web-weaving spider that is social; most spiders are solitary predators that are cannibalistic,” said Bond, who doubles as associate dean, UC Davis College of Agricultural and Environmental Sciences. “Although additional behavioral studies are needed to confirm, what is particularly interesting about this paper is that we report what is likely the first known observation of lekking behavior in spiders.”
Ingi Agnarsson, a professor of zoology at the University of Iceland and the Smithsonian Institution, Washington, D.C., headed the international team of researchers.
While looking for bark spiders in the rainforests of Andasibe-Mantadia National Park, the scientists observed large colonies of interconnected webs, built by what they later determined to be a new species.
In examining the webs, the researchers noticed multiple males gathering close together, sometimes touching, in a central, nonsticking line. They counted up to 41 interconnected, single-cohort adult female webs with up to 38 adult males aggregating on a central, single, nonsticky line.
In all, their mile-long research area yielded 22 spider colonies, ranging from 2 to 79 spiders in webs two inches to almost eight inches in size. The spiders are dark gray with black coloring and large protruding spines. The females are about 0.2 inches in size, with “cryptic yellow markings.” The males are smaller but with no yellow markings.
“Spiders are notoriously solitary and cannibalistic, with instances of colonial or social lifestyles in only about 50-60, or ~0.1% of 50,000 described species,” the authors wrote in their abstract. “Population analyses indicate that most colonies consist of multiple cohorts formed by close relatives. Territorial social spiders facultatively form colonies by interlinking individual webs, but further cooperation is infrequent, and only among juveniles or (rarely) females. In spiders therefore, aggregations of males outside of the male-male competition context has been unknown.”
The researchers noted that the males were “resting tightly together,” but they found “no evidence” of male-male aggression. “Genetic analyses from RAD sequencing suggest that most colonies consist of unrelated individuals,” they wrote in their abstract. “Furthermore, genetic variability of males was somewhat less than that of females. Single cohort colonies made up purely of adults, and peaceful male aggregations, have not previously been observed in spiders. Although direct behavioral observations are preliminary, we speculate based on the available evidence that these colonies may represent a novel and first case of lekking in spiders.”
Since it was near the end of the field season, the researchers had no opportunity for more observations, and never witnessed mating.
Other co-authors of the paper are Zachary Babbitz of Boston College, Matjaž Gregoric of the Slovenian Academy of Sciences and Arts, Onjaherizo Christian Raberahona of the University of Madagascar; Steven Williams, Oxford Brookes University, UK, and Matjaž Kuntner of the Smithsonian Institution.
Starrett, who joined the Bond lab in 2018, holds a doctorate in genetics, genomics and bioinformatics from UC Riverside. He is a former postdoctoral fellow (2016-2018) in the Jason Bond lab at Auburn University. Professor Bond joined the UC Davis faculty in 2018 from Auburn University, where he directed its Museum of Natural History (2011–2016), and served as professor and chair of the Auburn Department of Biological Sciences (2016–2018).
- Author: Kathy Keatley Garvey
UC Davis urban landscape entomologist Emily Meineke has been selected an Early Career Fellow of the Ecological Society of America (ESA).
Meineke, an assistant professor who joined the UC Davis Department of Entomology and Nematology faculty in 2020 (and during the COVID-19 pandemic, too) is one of 10 faculty members to receive the honor from the ESA Governing Board. She will be recognized at ESA's Aug. 6-11 meeting in Portland, Ore.
"This is one of the most prestigious awards an ecologist can receive," said nominator Rachel Vannette, community ecologist and associate professor, UC Davis Department of Entomology and Nematology.
“Early Career Fellows are members within eight years of completing their doctoral training (or other terminal degree) who have advanced ecological knowledge and applications and show promise of continuing to make outstanding contributions to a wide range of fields served by ESA,” an ESA spokesperson announced. “They are elected for five years.”
Meineke 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 (NCU), studying with major professors Steven Frank and Robert Dunn. She wrote her dissertation on "Understanding the Consequences of Urban Warming for Street Trees and Their Insect Pests."
AtNCU, the U.S. Environmental Protection Agency (EPA) awarded her with the Science to Achieve Results (STAR) fellowship. As anEPA STAR Fellow,Meineke pioneered research characterizing the effects of urban heat islands on insect herbivores. And, as a National Science Foundation Postdoctoral Fellow at the Harvard University Herbaria,Meineke studied how urbanization and climate change have affected global plant–insect relationships over the past 100-plus years. She helped spearhead Harvard Museum of Natural History's Thoreau project.
At UC Davis, the Meineke laboratory "leverages natural history collections, citywide experiments, and observations to characterize effects of recent anthropogenic change on plant–insect herbivore interactions," said Vannette. Meineke has received funding from the National Science Foundation's Faculty Early Career Development (NSF-CAREER) Program; USDA's Agriculture and Food Research Initiative (AFRI); and the UC Davis Hellman Fellows Program. She was named one of 12 recipients of the Hellman award in 2022. 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.
Among Meineke's scores of other activities: coordinating her department's seminars for the 2022-23 academic year, and being involved as a researcher in the Seed Pile Project, a community science initiative by Miridae Living Labs and UC Davis faculty. In the Seed Pile Project, citizen scientists spread seeds along well-traveled areas, including bus stops, alleys and sidewalks, "to better understand the dynamics of native plant seed dispersal in human-dominated landscapes," as Miridae co-founder and director Billy Kimmel, a UC Davis doctoral alumnus, explains.
Only one other UC faculty member was named an ESA Early Career Fellow this year: Holly Moeller of UC Santa Barbara, a theoretical ecologist who uses mathematical and empirical approaches to understand acquired metabolism, joins the elite group.
ESA, founded in 1915 aims to promote ecological science by improving communication among ecologists; raise the public's level of awareness of the importance of ecological science; increase the resources available for the conduct of ecological science; and ensure the appropriate use of ecological science in environmental decision making by enhancing communication between the ecological community and policy-makers.
- Author: Kathy Keatley Garvey
What's a picnic without bugs?
UC Davis entomologists--students, faculty, staff and emeriti--will set up educational and entertaining displays at the 109th annual UC Davis Picnic Day, set Saturday, April 15. The "bug" exhibits will be at two sites:
- Briggs Hall, home of the UC Davis Department of Entomology and Nematology, Kleiber Hall Drive, from 9 a.m. to 5 p.m., and
- Bohart Museum of Entomology, located in Room 1124 of the Academic Surge Building, 455 Crocker Lane, from 10 a.m. to 2 p.m.
Theme of the Bohart Museum will be "Bugs, Boom, Bang!" The insect museum houses a global collection of eight million insect specimens, a live "petting zoo" (including Madagascar hissing cockroaches, stick insects and tarantulas) and an insect-themed gift shop.
Forensic entomologist Bob Kimsey, and doctoral student Grace Horne of the lab of urban landscape entomologist Emily Meineke are coordinating the department's Picnic Day activities. Bohart Museum Picnic Day coordinators are UC Davis distinguished professor Lynn Kimsey, director of the Bohart, and Tabatha Yang, education and outreach coordinator.
Cockroach races are among the popular activities at Briggs Hall. The roaches will run from 11 a.m. to 3 p.m. on a specially made race track in front of the building. These are American cockroaches, Periplaneta americana, from a colony kept by the late UC Davis entomology emeritus professor, Charles Judson (1926-2015). Bob Kimsey, who doubles as the advisor of the UC Davis Entomology Club, maintains the roach colony and is assuring everyone that the athletes"are ready to race."
The roach races involve a roach track, an air pump (to get the roaches moving), volunteers, and spectators. Sometimes a roach jumps from the track and lands on scurrying feet.
The line-up of entomological events at Briggs Hall also includes:
Bug Doctor
Briggs Hall Entryway
9 a.m. to 5 p.m.
Meet an entomologist and talk about insects! Bring an insect from your garden to identify.
Maggot Art
Briggs Hall Courtyard
9 a.m. to 5 p.m.
Create maggot art by dipping a live maggot into water-based, non-toxic paint. Voila! Art suitable or framing (or at least a spot on the refrigerator door
Dr. Death
Room 122 of Briggs Hall
9 a.m. to 5 p.m.
Forensic entomologist Robert Kimsey will display and discuss his research
Entomology at UC Davis
Room 122 of Briggs Hall
9 a.m. to 5 p.m.
Displays of insects, including bees, ants and more
Graduate students, faculty and emeriti will staff the tables
Scavenger Hunt
Room 122 of Briggs Hall
9 a.m. to 5 p.m.
There will be several drawers of insects that people can look through to see if they can spot the insects on the check list
Fly-Tying
Briggs Hall courtyard
9 a.m. to 5 p.m.
Fly Fishers of Davis will show you how to tie a fly.
Insect-Themed T-shirt Sales
Briggs hall entryway
9 a.m. to 3 p.m.
Members of the Entomology Graduate Student Association (EGSA) will be selling popular insect-themed t-shirts, including "The Beetles"
Mosquito Control
Briggs Hall entrance
9 a.m. to 5 p.m.
Sacramento-Yolo Mosquito and Vector Control District will be providing information on mosquitoes and how to protect yourself
Other Creepy Crawlies
122 Briggs Hall
9 a.m. to 5 p.m.
UC Davis doctoral candidate Emma Jochim of the Jason Bond lab and others will display live arachnids, myriapods, tarantulas, scorpions, millipedes and more
UC Statewide Integrated Pest Management (UC IPM)
Briggs Hall Courtyard
9 a.m. to 5 p.m.
Learn about pests and how to control them from UC IPM scientists. The staff will be giving away lady beetles, aka ladybugs.
The UC Davis Honey and Pollination Center, headed by director Amina Harris and affiliated with the UC Davis Department of Entomology and Nematology, will host a honey tasting from 10 a.m. to 2 p.m. in the courtyard of Robert Mondavi Institute for Wine and Food Science, 392 Old Davis Road. "Come taste and learn about UC Davis honey and honey varietals from North America," she said. "Honey available for purchase."
The UC Davis Department of Entomology and Nematology is chaired by nematologist and professor Steve Nadler. Molecular geneticist-physiologist and professor Joanna Chiu serves as the vice chair.
- Author: Kathy Keatley Garvey
A tip of the insect veil to:
- Doctoral student Grace Horne, who studies with urban landscape entomologist Emily Meineke, assistant professor
- Doctoral student Alexia “Lexie" Martin, who studies with community ecologist Rachel Vannette, associate professor
- Doctoral student Marshall Nakatani, who studies with bee scientist Brian Johnson, associate professor
- Undergraduate student Mingxuan “Gary” Ge, entomology major and research scholar in the Research Scholars Program in Insect Biology. He is advised by community ecologist and professor Louie Yang of the UC Davis Department of Entomology and Nematology, and UC Davis distinguished professor and lepidopterist Art Shapiro of the Department of Evolution and Ecology.
Each recipient will receive a five-year fellowship providing three years of financial support, inclusive of an annual stipend of $37,000. The NSF-GRFP is the most prestigious award of its type and highly competitive. The annual acceptance rates are about 16 percent from among more than 12,000 annual applicants. The awards are given to outstanding graduate students who have demonstrated “the potential to be high-achieving scientists and engineers early in their careers.”
Grace Horne, Emily Meineke Lab
Grace Horne, who grew up in Marlborough, N.H., is a 2021 graduate of Colby College, Waterville, Maine, where she double-majored in biology (evolution and ecology), and environmental science (conservation biology), receiving magna cum laude (with distinction) in both majors. Horne, who joined the Meineke lab in 2021, studies plant-insect interactions, urban ecology, global change biology, natural history and community science.
Horne submitted this successful proposal:
Title: "Natural History Collections for Backcasting Plant-Insect Interactions in a Changing World."
Description: "Herbivory by caterpillars can have negative impacts on plant survival, growth, and reproduction. Interactions between plants and caterpillars, which are both metabolically tied to temperature, are particularly consequential for ecosystems. However, investigations of how species have and will interact under a changing climate are lacking. In particular, insects are in decline in many areas, but the downstream effects of insect herbivore losses and simultaneous climate change on plants are unclear. Thus, I propose to combine modern observations, a controlled experiment, and data cached in natural history collections to investigate effects of climate change on plant-insect interactions in a biodiversity hotspot."
Lexie Martin, a native of Cypress, Texas, is a 2021 graduate of the University of Texas, Austin, where she received her bachelor of science degree in biology, with a concentration in ecology, evolution and behavior, and a bachelor of science and arts in chemistry. She graduated with research distinction and as a dean's honored graduate. Martin's research interests include bees, mutualism, bee-microbe interactions, bee diversity, plant-pollination interactions, conservation and bee health. Her career plans are to pursue a professor position at a university, to continue researching bee-microbe interactions and other factors affecting bee health. Martin submitted this successful proposal
Title: "Effects of Intraspecifically Transmitted Versus Environmentally Acquired Microbes on Bees."
Description: "Although most social organisms can obtain microbes through intraspecific and environmental acquisition routes, few studies have directly compared how microbial acquisition route affects host health. In this project, I am investigating how microbes in the bee core gut microbiota vs. microbes obtained from flowers establish within the gut and affect the overall health of bumblebees (Bombus impatiens) and blue orchard bees (Osmia lignaria). I selectively introduced microbes obtained through each route to bees and will be measuring establishment within the gut, survivorship, fitness, and lipid stores. The results of this project will be applicable to other social organisms, as well as relevant to the management of commercial bees and crops."
Marshall Nakatani, from Lansdale, Pa., is a 2021 graduate of George Washington Univeristy, where he received his bachelor of science degree in biology, with a concentration in cell and molecular biology. He is in his second year as a UC Davis doctoral student. Nakatani's general interests include eusociality, the division of labor in social insects, and how genetics and the environment interact to determine phenotype. His career plans: to continue working in academia.
Nakatani submitted this winning proposal:
Title: "Social Influence on Molecular Mechanisms of Phenotypic Plasticity in Honeybee Circadian Rhythm."
Description: "The goal of my research is to uncover the social cues that entrain the clock and how the ontogeny of circadian rhythm is controlled in honeybees. These efforts will involve examining clock function in all four worker castes, along with the queens, drones, accelerated foragers, and reverted nurses through the use of western blots, immunocytostaining, and single cell RNAseq. The project will also examine how social cues, specifically brood pheromones, influence the rhythmicity of worker activity. This project will attempt to advance the understanding of the ontogeny of the honeybee circadian clock, specifically untangling the relationship between phenotype and the molecular state of the clock."
Gary Ge, who anticipates receiving his bachelor of science degree in entomology from UC Davis in 2023, was born in Beijing China, and schooled in New York City, Singapore and Hawaii.
In his project, he uses the American Apollo butterfly (Parnassius clodius) as a model to study how microclimatic conditions affect cold-adapted insects. P. clodius, a white butterfly, is found at high elevations in western United States (Washington, Oregon, Nevada and Canada) and in British Columbia, Canada.
“The genus Parnassius is prone to global warming due to its affinity for alpine and arctic habitats, and several species are considered to be threatened,” Ge wrote in his winning proposal. “The American Apollo has habitats ranging from coastal forests to above the tree line. Thus, they experience very different combinations of microclimatic variations depending on time and location. Unlike most other butterflies, their larvae develop under cold macroclimatic temperatures and demonstrate active behavioral thermoregulation. This makes them highly dependent and consequently sensitive to microclimatic temperatures. In addition, the adults are poor dispersers, limiting gene flow between spatially close populations. Their larvae are also likely the sole insect herbivore of the host plant species, thus microhabitat identification is easy in the field.”
Ge's project also factored in his winning the 2023 Dr. Stephen Garczynski Undergraduate Research Scholarship from the Pacific Branch, Entomological Society of America (PBESA), which encompasses 11 Western states, plus Canada, Mexico and U.S. territories.