- Author: Kathy Keatley Garvey
"I took a gap decade. During that time I had a series of eclectic jobs and life experiences. Those experiences proved extremely useful during my PhD."
Lamas, a former commercial beekeeper in New Hampshire, will share his life and research experiences at a seminar hosted by the UC Davis Department of Entomology and Nematology, on Monday, April 15.
His seminar, titled "How Doing a PhD Is Like Building a House," begins at 4:10 p.m. in Room 122 of Briggs Hall. It also will be on Zoom. The Zoom link:
https://ucdavis.zoom.us/j/9 5882849672
"This presentation describes how the intersection of life experiences and my PhD led to creative and generative research that led to large discovery in disease transmission dynamics in collapsing honey bee colonies," Lamas says.
A first-generation college student, Lamas received his bachelor's degree in biology in 2008 from Colby-Sawyer College, a private college in New London, New Hampshire. He obtained his doctorate in entomology at the University of Maryland in 2022.
He credits his mentor, USDA-ARS research entomologist Jay Evans of the Bee Research Laboratory, Beltsville, MD., with encouraging him to apply to become an Oak Ridge Institute for Science and Education (ORISE) fellow with the USDA-ARS Research Participation Program.
Lamas, known as "Dr. Zac," has presented programs on his research and beekeeping management to state beekeeping associations in California, Texas, Florida, Colorado, Virginia, Missouri, West Virginia, and Washington State, among others, and has addressed the American Beekeeping Federation, American Honey Producers' Association and Apimondia. Globally, he has delivered presentations to Apimondia, Montreal, Canada, and to the Eurbee 8th Congress of Apidology, Ghent, Belgium.
Lamas rears open-mated carniolans. "These are docile, productive bees, that I produce for my own experiments," he writes on his website. "We can literally pet our bees during experiments. This level of docility allows us to work intimately with the bees, sitting in front of open colonies for long periods to collect samples."
Lamas is a noted researcher on varroa mites. "Who do Varroa really feed on? Check out this presentation where I share a new finding of Varroa destructor I carried out three years of research, and along with collaborators (including my family!) individually inspected over 30,000 bees to describe the distribution of Varroa inside a colony." (See YouTube presentation.)
Lamas' recent publications involve varroa mites, infectious diseases and pesticides:
- Zachary S. Lamas, Eugene V. Ryabov, David J. Hawthorne, Jay D. Evans, "Oversharing by honey bees and the spread of viruses," bioRxiv 2022.05.15.492017; DOI: https://doi.org/10.1101/2022.05.15.492017
- Ryabov EV, Posada-Florez F, Rogers C, Lamas ZS, Evans JD, Chen Y and Cook SC (2022) "The vectoring competence of the mite Varroa destructor for deformed wing virus of honey bees is dynamic and affects survival of the mite," Frontiers in Insect Science. 2:931352. DOI: 10.3389/finsc.2022.931352
- Posada-Florez, F., Lamas, Z.S., Hawthorne, D.J. et al. "Pupal cannibalism by worker honey bees contributes to the spread of deformed wing virus," Scientific Reports 11, 8989 (2021). https://doi.org/10.1038/s41598-021-88649-y
- Alger, S.A.1, Burnham, P.A., Lamas, Z.S2, Brody, A.K., Richardson, L.R., (2017). "Home sick: impacts of migratory beekeeping on honey bee (Apis mellifera) pests, pathogens, and colony size," PeerJ 6:e5812; DOI 10.7717/peerj.5812
- Kirsten S. Traynor, Dennis vanEngelsdorp, Zachary S. Lamas, "Social disruption: Sublethal pesticides in pollen lead to Apis mellifera queen events and brood loss," Ecotoxicology and Environmental Safety, Volume 214, 2021, 112105, ISSN 0147-6513, https://doi.org/10.1016/j.ecoenv.2021.112105
Honey bee scientist Brian Johnson, associate professor, UC Davis Department of Entomology and Nematology, is coordinating the department's seminars for the 2023-24 academic year. For any Zoom technical issues, he may be reached at brnjohnson@ucdavis.edu.
The complete list of spring quarter seminars is here.
- Author: Kathy Keatley Garvey
Bees comprise more than 20,000 described species in seven families and are found on all continents except Antarctica, but where did they originate? And when did they originate?
Cornell University alumnus Eduardo Almeida, an associate professor at the University of São Paulo, Brazil, will discuss “The Evolutionary History of Bees in Time and Space” at a seminar hosted by the UC Davis Department of Entomology and Nematology on Monday, April 8.
The seminar begins at 4:10 p.m. in 122 Briggs Hall, and also will be on Zoom. The Zoom link:
https://ucdavis.zoom.us/j/95882849672
"Bees likely originated in the Early Cretaceous (120 million years ago), shortly before the breakup of Western Gondwana (Africa and South America), and the early evolution of any major bee lineage is associated with either the South American or African land masses," Almeida says in his abstract.
"I will present the results of an investigation on bee biogeograpy using extensive new genomic and fossil data to demonstrate that bees originated in Western Gondwana. Bees later colonized northern continents via a complex history of vicariance and dispersal. The notable early absences of these insects from large landmasses, particularly in Australia and India, have important implications for understanding the assembly of local floras and diverse modes of pollination. The partnership between flowering plants and bees began in the Cretaceous, and the history of how bees spread around the world from their hypothesized southern hemisphere origin parallels the histories of numerous plant clades."
Almeida, who joined the University of São Paulo in 2011, conducts research on bee evolution, and is particularly interested in phylogenomics, comparative morphology, biogeography, and associations with host plants.
A native of Brazil, he received his doctorate in 2007 from Cornell University, where he studied with major professor Bryan Danforth. Almedia's focus: the biogeographic history of colletid bees. Prior to enrolling in the doctoral program at Cornell, he obtained his bachelor of science degree (biology) and his master's degree (ecology) from the Universidade Federal de Minas Gerais, Brazil. He speaks Portuguese, English, Spanish and French.
Almeida and his colleagues published a research paper in August 2023 in the journal, Current Biology, on "The Evolutionary History of Bees in Time and Space."
The summary: "Bees are the most significant pollinators of flowering plants. This partnership began ca. 120 million years ago, but the uncertainty of how and when bees spread across the planet has greatly obscured investigations of this key mutualism. We present a novel analysis of bee biogeography using extensive new genomic and fossil data to demonstrate that bees originated in Western Gondwana (Africa and South America). Bees likely originated in the Early Cretaceous, shortly before the breakup of Western Gondwana, and the early evolution of any major bee lineage is associated with either the South American or African land masses. Subsequently, bees colonized northern continents via a complex history of vicariance and dispersal. The notable early absences from large landmasses, particularly in Australia and India, have important implications for understanding the assembly of local floras and diverse modes of pollination. How bees spread around the world from their hypothesized Southern Hemisphere origin parallels the histories of numerous flowering plant clades, providing an essential step to studying the evolution of angiosperm pollination syndromes in space and time."
Coordinating the department's spring seminars is associate professor Brian Johnson. For any technical Zoom issues, he may be reached at brnjohnson@ucdavis.edu.
The complete list of spring quarter seminars is here.
- Author: Kathy Keatley Garvey
All seminars are on Mondays at 4:10 p.m. in Room 122 of Briggs Hall and also will be on Zoom. The Zoom link:
https://ucdavis.zoom.us/j/95882849672.
No seminar will take place on Monday, Jan. 15, which is Martin Luther King Jr. Day, a university holiday.
On tap for Monday, Jan. 22 is William Ja, associate professor, Herbert Wertheim Scripps UF Institute for Biomedical Innovation and Technology in Jupiter, Florida.
He will present "Eat, Excrete, & Die: Regulation of Homeostatic Behaviors and Aging in Drosophila."
"The Ja lab uses the fruit fly, Drosophila melanogaster, as a model organism for uncovering the genetic and neuronal mechanisms that drive aging, behavior, and disease, Ja says in his abstract. "Recently developed tools allow us to track fly feeding behavior with unparalleled resolution. These tools facilitate the identification of genes and circuits that regulate food intake at diverse time scales, including studies of: 1) meal intake; 2) daily (circadian) feeding rhythms; and 3) compensatory feeding in response to high or low quality food. Our studies of feeding behavior and nutrition also inform aging interventions, including a novel caloric restriction paradigm and an intermittent fasting regime that extends fly life through the stimulation of circadian-regulated autophagy. Overall, our fly studies shed light on basic neurobiological principles that drive animal behavior, providing insights that potentially inform the development of conserved therapeutic strategies."
Ja received his chemistry degree at UC Berkeley, working with Richard Mathies and Alex Glazer on DNA sequencing technologies. He pursued doctoral studies at the California Institute of Technology with Rich Roberts, utilizing mRNA display technology to identify modulators of G protein signaling. Ja remained at Cal Tech as a postdoctoral scholar to work with Seymour Benzer on developing longevity ‘drugs' in Drosophila. His laboratory focuses on aging and nutrition, animal behavior, and host-microbiome interactions.
Upcoming seminars:
Monday, Jan. 29
Todd Johnson
Assistant professor of forest entomology, Louisiana State University
Title: "Characterizing Ecological Interactions of Arthropods in Forests under Global Change"
Monday, Feb. 5
Orie Shafer
Professor of biology and cognitive neuroscience, City University of New York
Title: "Circadian and Homeostatic Regulation of Fly Sleep"
Monday, Feb. 12
Peter Piermarini
Professor and associate chair of entomology, The Ohio State University, Wooster
Title: "Discovery of Novel Chemical Tools for Controlling the Most Dangerous Animals on Earth"
Monday, Feb. 26
Dorith Rotenberg
Professor and director of graduate programs, Department of Entomology and Plant Pathology, North Carolina State University
Title: "Advances and Innovations in the Characterization of Molecular Interactions Between Frankliniella occidentalis and Tomato Spotted Wilt Virus."
Monday, March 4
Salil Bidaye
Research Group Leader, Max Planck Florida Institute for Neuroscience
Title: "How Flies Control How They Walk by Knowing When and How to Stop"
Adler Dillman, professor of parasitology and nematology and chair of the Department of Nematollgoy, UC Riverside, launched the series on Jan. 8. (See Bug Squad blog)
Seminar coordinator is Brian Johnson, associate professor, UC Davis Department of Entomology and Nematology. For Zoom technical issues, he may be reached at brnjohnson@ucdavis.edu. More information on the seminars is here.
/span>- Author: Kathy Keatley Garvey
His seminar will be in Room 122 of Briggs Hall and also will be on Zoom. The Zoom link: https://ucdavis.zoom.us/j/95882849672. Associate professor and nematologist Shahid Siddique of the Department of Entomology and Nematology is the host.
Dillman, a professor of parasiotology and nematology, chairs the UCR Department of Nematology. He holds a bachelor's degree in microbiology from Brigham Young University (2006) and a doctorate in genetics (2013) from the California Institute of Technology.
The abstract of his UC Davis seminar:
Known as an excellent investigator and teacher, Dillman won the 2022 UC Riverside Chancellor's Award for Excellence in Undergraduate Research and Creative Achievement; the 2021 Award for Excellence in Teaching from the Society of Nematologists, and a 2020 Outstanding Investigator Award, Maximizing Investigators' Research Award (MIRA).
His lab page details his research. Recently a guest of an episode on the podcast Something Offbeat, he discussed a scientific article on a case of Ophidascaris robertsi infection in a human brain.
Seminar coordinator is Brian Johnson, associate professor, UC Davis Department of Entomology and Nematology. For Zoom technical issues, he may be reached at brnjohnson@ucdavis.edu. The list of seminars is here.
- Author: Kathy Keatley Garvey
Seminar coordinator and associate professor Brian Johnson has announced the list of UC Davis Department of Entomology and Nematology seminars for the winter quarter, from Jan. 8 through March 11.
All seminars will be on Mondays at 4:10 p.m. in Room 122 of Briggs Hall and also will be on Zoom.The Zoom link: https://ucdavis.zoom.us/j/95882849672.
No seminar will take place on Monday, Jan. 15, which is Martin Luther King Jr. Day, a university holiday.
Adler Dillman
Professor of parasitology and nematology, and chair of the Department of Nematology, UC Riverside
Title: "Nematode Parasitism of Insects with Toxic Cardenolides"
Abstract: (Partial) "Target-site insensitivity (TSI) is an important mechanism of animal resistance to toxins. TSI evolved in parallel in the monarch butterfly and other insects that specialize on milkweeds and is thought to have facilitated sequestration of cardiac glycosides (CGs) that may protect these insects from predation and parasitism....Our results suggest that a molecular evolutionary cascade of parallel substitutions across hosts and parasites, last sharing common ancestry 600 million years ago, may shape multitropic interactions across plant communities."
Biography: He holds a bachelor's degree in microbiology from Brigham Young University (2006) and a doctorate in genetics (2013) from the California Institute of Technology.
William Ja
Associate professor, Herbert Wertheim Scripps UF Institute for Biomedical Innovation and Technology in Jupiter, Florida.
Title: "Eat, Excrete, & Die: Regulation of Homeostatic Behaviors and Aging in Drosophila"
Abstract: "The Ja lab uses the fruit fly, Drosophila melanogaster, as a model organism for uncovering the genetic and neuronal mechanisms that drive aging, behavior, and disease. Recently developed tools allow us to track fly feeding behavior with unparalleled resolution. These tools facilitate the identification of genes and circuits that regulate food intake at diverse time scales, including studies of: 1) meal intake; 2) daily (circadian) feeding rhythms; and 3) compensatory feeding in response to high or low quality food. Our studies of feeding behavior and nutrition also inform aging interventions, including a novel caloric restriction paradigm and an intermittent fasting regime that extends fly life through the stimulation of circadian-regulated autophagy. Overall, our fly studies shed light on basic neurobiological principles that drive animal behavior, providing insights that potentially inform the development of conserved therapeutic strategies."
Biography: Ja received his chemistry degree at UC Berkeley, working with Richard Mathies and Alex Glazer on DNA sequencing technologies. He pursued doctoral studies at the California Institute of Technology with Rich Roberts, utilizing mRNA display technology to identify modulators of G protein signaling. Ja remained at Cal Tech as a postdoctoral scholar to work with Seymour Benzer on developing longevity ‘drugs' in Drosophila. His laboratory focuses on aging and nutrition, animal behavior, and host-microbiome interactions.
Todd Johnson
Assistant professor of forest entomology, Louisiana State University
Title: "Characterizing Ecological Interactions of Arthropods in Forests under Global Change'
Abstract: "Forests cover approximately 30% of the Earth's landmass and provide important ecosystem services that include food, fuel, and timber, as well as habitat for diverse organisms. Threats posed to forests by invasive and pestiferous species are rapidly growing. Global change, an umbrella term that includes may human-mediated processes such as climate change and international trade, is altering the structure and functioning of forests. Our recently formed research group studies how natural variation impacts the outcomes of interactions between trees, herbivores, and the natural enemies of herbivores. My seminar will provide an overview of our ongoing and developing studies to better understand how variation in chemistry across the landscape shapes the fitness of woodboring insects, and how this variation can be harnessed to optimize management of forest ecosystems."
Biography: His research group studies the behavioral and chemical ecology of forest arthropods, with an emphasis on building fundamental knowledge that can further our understanding and management of natural and managed ecosystems. Johnson received his bachelor's degree in biology from Moravian College, his master's degree in entomology from the University of Wisconsin-Madison, and his doctorate from the University of Illinois at Urbana-Champaign. Prior to accepting his position at LSU in the fall of 2022, he was a postdoctoral research associate at the University of New Hampshire.
Orie Shafer
Professor of biology and cognitive neuroscience, City University of New York
Title: "Circadian and Homeostatic Regulation of Fly Sleep"
Abstract: "Sleep-like states are ubiquitous in the animal kingdom and are regulated by two distinct forms of regulation, circadian and homeostatic. Homeostatic mechanisms promote increases in sleep pressure during prolonged wakefulness. Circadian mechanisms determine the likelihood of sleep, increasing or decreasing its probability across the day. Though the molecular and neural mechanisms of circadian timekeeping are relatively well-understood, much less is known about the mechanistic basis of sleep homeostasis. The fly Drosophila melanogaster is a powerful model organism for the studying of sleep regulation. In this talk I will describe recent work from my lab examining how circadian timekeeping and sleep homeostasis operate in this fly and how these two regulatory processes converge to produce the proper timing and amount of sleep."
Biography: He received his doctorate in biology from the University of Washington, and served as a postdoctoral researcher at Washington University School of Medicine, St. Louis.
Peter Piermarini
Professor and associate chair of entomology, The Ohio State University, Wooster
Title: "Discovery of Novel Chemical Tools for Controlling the Most Dangerous Animals on Earth"
Abstract: "Mosquitoes are considered the most dangerous animals on Earth due to the deadly pathogens they transmit to humans. Controlling the transmission of mosquito-borne diseases often relies on chemical tools that prevent mosquitoes from biting humans (e.g., insecticides, repellents). However, the evolution of resistance in mosquitoes to commonly used control agents with similar modes of action has generated a need to discover novel chemistries for killing and/or repelling mosquitoes. To address this need, my lab is engaged in collaborative research that is discovering synthetic small molecules to disrupt novel physiological targets in mosquitoes and screening natural products for insecticidal and repellent activity against mosquitoes. My talk will summarize examples for each of these approaches and their potential for development into novel mosquito control tools."
Biography: He received his bachelor's degree in biology from James Madison University and doctorate in zoology from the University of Florida, before completing postdoctoral training at the Yale University School of Medicine and Cornell College of Veterinary Medicine. His laboratory studies the molecular physiology and toxicology of mosquitoes with the goal of discovering and developing insecticides with novel modes of action.
Monday, Feb. 26
Professor and director of graduate programs, Department of Entomology and Plant Pathology, North Carolina State University
Title: "“Advances and Innovations in the Characterization of Molecular Interactions Between
Frankliniella occidentalis and Tomato Spotted Wilt Virus.”
Biography: Dorith (pronounced Doreet) Rotenberg received three degrees from the University of Wisconsin-Madison: bachelor of science degree in biochemistry and her master's and doctorate in plant pathology. She is a professor in the Department of Entomology and Plant Pathology at North Carolina State University (NCSU) and the director of Graduate Programs in Plant Pathology. She co-directs the NCSU Plant Virus Vector Interactions Lab. Her foundational research initiatives center on the long-range goal of identifying and characterizing insect vector determinants of plant virus transmission to crop plants using a combination of ecological and genomics-based tools. Her research program has provided to the international science community vector genome, transcriptome, and proteome sequence resources to dig deeply into commonly-shared questions revolving around insect evolution, development, and transmission biology.
Abstract: "Arthropod-transmitted plant pathogens cause crippling monetary losses to U.S. and global economies. Tomato spotted wilt virus (Order Bunyavirales, family Tospoviridae, genus Orthotospovirus) is one of those pathogens, and it is transmitted in a circulative-propagative manner by Frankliniella occidentalis, the principal thrips vector. The overarching goal of my research program is to contribute fundamental knowledge towards developing alternative, effective and innovative tools for diminishing vector-transmitted crop diseases. My lab has been on the forefront of generating and sharing vector ‘omics resources to enable the identification and characterization of molecular determinants of vector competence as a means to specifically disrupt the virus transmission cycle. Using a combination of proteomic, transcriptomic and functional tools developed by my team and collaborators for F. occidentalis and TSWV, we aim to drill down on gut proteins associated with thrips host response to virus activities (indirect interactions) and/or gut proteins that physically interact with the viral attachment protein (GN) (direct). My talk will cover research advances made towards identifying and functionally characterizing two promising gut-expressed proteins, and new tools to interrogate F. occidentalis genes associated with virus transmission."
Salil Bidaye
Research Group Leader, Max Planck Florida Institute for Neuroscience
Title: "How Flies Control How They Walk by Knowing When and How to Stop"
Abstract: "Walking is a complex motor program involving coordinated and distributed activity across the brain and the spinal cord. Halting appropriately at the correct time is a critical but often overlooked component of walking control. While recent studies have delineated specific genetically defined neuronal populations in the mouse brainstem that drive different types of halting, the underlying neural circuit mechanisms responsible for overruling the competing walking-state neural activity to generate context-appropriate halting, remain unclear. Here, we elucidate two fundamental mechanisms by which Drosophila implement context-appropriate halting. The first mechanism (“walk-OFF” mechanism) relies on GABAergic neurons that inhibit specific descending walking commands in the brain, while the second mechanism (“brake” mechanism) relies on excitatory cholinergic neurons in the nerve-cord that lead to an active arrest of stepping movements. Using connectome-informed models and functional studies, we show that two neuronal types that deploy the “walk-OFF” mechanism inhibit distinct populations of walking-promotion neurons, leading to differential halting of forward-walking or steering. The “brake” neurons on the other hand, override all walking commands by simultaneously inhibiting descending walking promoting pathways and increasing the resistance at the leg-joints leading to an arrest of leg movements in the stance phase of walking. We characterized two ethologically relevant behavioral contexts in which the distinct halting mechanisms were used by the animal in a mutually exclusive manner: the “walk-OFF” pathway was engaged for halting during feeding, and the “brake” pathway was engaged for halting during grooming. To our knowledge, this represents the first mechanistic understanding of halting in fruit-flies and hence a major step in our larger goal of uncovering the fundamental principles governing walking control in animals."
Biography: Bidaye studies neuronal control of locomotion."While a graduate student in Barry Dickson's lab in the beautiful city of Vienna, Austria, as I observed fruit-flies chasing each other during courtship, I got hooked on to the intricate control that comprises insect walking. This fascination kindled by powerful fly genetic tools, has led me to persistently device new behavioral assays and neural recording techniques, aimed at elucidating the fundamental control mechanisms that underlie the exquisite locomotor control that is commonplace in all animals."
Inga Zasada
Research plant pathologist, USDA-ARS Horticultural Crops Research Laboratory, Corvallis, Ore.
Title: "How an Applied Nematologist Uses Genomic Tools to Address Plant-Parasitic Nematode Research"
Abstract: "Advancements in molecular plant pathology have created an environment in which applied, field-based research programs have the opportunity to utilize genomic tools in their programs. There are potential rewards for incorporating genomics into a research program including enhanced nematode diagnostics, population genetics of infestations, and novel biological discoveries. However, along with these rewards come many considerations including cost, tempered expectations, and the capacity to generate and analyze data. A cautionary tale of such a journey will be presented. Efforts to characterize the nematode microbiomes from a diversity of plant-parasitic nematodes, understand the population genetics of a potato cyst nematode infestation, and sequence and annotate nematodes genomes will be presented to highlight the rewards and challenges of this type of research. Underpinning all of these efforts is the need to establish and maintain productive collaborations with scientists with diverse backgrounds."
Biography: Inga Zasada is a research plant pathologist with USDA-ARS. She received her doctorate in plant pathology from UC Davis. She has spent her entire career with USDA-ARS, first in Beltsville, MD and now in Corvallis, OR. Her research program focuses on the management of plant-parasitic nematodes in raspberry, wine grapes, potatoes and other high value crops.
For Zoom technical issues, contact seminar coordinator Brian Johnson, associate professor, at brnjohnson@ucdavis.edu.