- Author: Kathy Keatley Garvey
But when she began delivering her first-ever presentation at a scientific conference, “I found it quite fun to present my work and see people's excitement.”
Quayle, a first-year doctoral student in the Jason Bond lab, UC Davis Department of Entomology and Nematology, went on to win first place in the doctoral student competition at the annual meeting of the Pacific Branch, Entomological Society of America (PBESA), held recently in Seattle. The organization encompasses 11 Western states, plus Canada, Mexico and U.S. territories.
Quayle discussed her research, “Colorless but Never Dull: Unraveling Population Genetics and Color Evolution in ‘White' Darkling Beetles (Onymacris).”
“It was a really great conference with a lot of interesting talks,” Quayle said, “so I feel very honored to have placed first in the Ph.D student competition.”
“Iris has hit the ground running in all respects," said Bond, the Evert and Marion Schlinger Endowed Chair in Insect Systematics, Department of Entomology and Nematology, and associate dean, College of Agricultural and Environmental Sciences. "Winning the student paper award, the first time ever presenting her research, reflects her exceptional capabilities as a scientist and as a future professor and teacher. Iris comes from a non-traditional STEM background and it is exactly those experiences that will continue to contribute to her success as she evolves as a scientist. I predict that this is only a prelude of things to come.”
Quayle is focusing her dissertation on the evolutionary relationships and color/trait evolution in Onymacris. “This genus displays a lot of phenotypically and behaviorally charismatic traits and I am excited for my dissertation research to expand and grow in the next few years,” she said.
In her talk, Quayle noted that Tenebrionidae (darkling beetles) comprise “more than 80 percent of all known beetle species in the Namib, where the genus Onymacris contains a rarity unexpected from aptly named darkling beetles--the presence of several species with striking ‘white' elytra (wing sheaths).”
“A known history of hybridization, strong inclination towards polytypic taxa, and paraphyletic status with another genus reveals that coloration and speciation in Onymacris is anything but straightforward,” said Quayle, who is examining “the phylogenetic relationships between white Onymacris species to determine whether multiple derivations of pure white elytra is due to convergence or introgression.”
In her population genomic analysis, Quayle extracted DNA from all white Onymacris, using additional specimens for the four species with the largest geographical ranges (O. marginipennis, O. bicolor, O. candidipennis, O. langi cornelii).
“Studying the population structure and genomic components leading to white coloration highlights behavioral and ecological adaptations of organisms to an arid environment which is increasingly vital in the face of global trends towards aridity,” she told the group.
Quayle fielded several questions about the potential ecological pressures that may be driving diverse coloration. She noted that the darkest of white species (O. marginipennis which is brown and striped) is found primarily on vegetated hummocks, while all white species (O. candidipennis and O. bicolor) are found only on sandy coastal dunes with no vegetation.
Quayle served a year as a National Science Foundation Research Experience for Post-Baccalaureate Students (NSF-REPS) in the Bond lab before being accepted into the doctoral program in 2022. “I'm so grateful that I've been able to start this work early in my first year as a Ph.D. student,” she said.
Quayle, who grew up in Paradise, Calif., holds an associate of science degree in biology from Sacramento City College. Formerly known as Iris Bright, she received her bachelor of fine arts degree (creative writing and literature) in the honors program from Emerson College, Boston, Mass., in 2015 before switching to science. Fascinated with insects in her early childhood, she began collecting specimens at age 7. Her grandfather was an amateur entomologist.
Her career plans? Becoming a professor “so I can do further research and also share my passion and interests with the next generations!”
- Author: Kathy Keatley Garvey
One involved the fanaticism directed at the English rock band, The Beatles.
The other? It's taking place Sunday, Jan. 22 at the Bohart Museum of Entomology at the University of California, Davis.
Beetle Mania!
The Bohart Museum is sponsoring an open house, starring the insects--not the rock band--from 1 to 4 p.m., in Room 1124 of the Academic Surge Building, Crocker Lane, on the UC Davis campus. It's free, family friendly and open to the public.
Scientists will display scores of beetle species, ranging from burying beetles and darkling beetles to dung beetles and lady beetles (aka ladybugs).
Among the presenters will be Tracie Hayes, a doctoral student in the laboratory of Professor Louie Yang, UC Davis Department of Entomology and Nematology. She researches burying beetles, genus Nicrophorus, at the Bodega Marine Reserve. She will show a video she created, display specimens, and answer questions. Burying beetles, as the name implies, are known for burying the carcasses of small vertebrates, such as mice, squirrels and birds, and using them as a food source for their larvae. The American burying beetle, Nicrophorus americanus, endemic to North America, is a critically endangered species.
Folsom Lake College professor Fran Keller, a Bohart Museum scientist and a UC Davis doctoral alumna of entomology, is scheduled to discuss darkling beetles, members of the family Tenebrionidae.
Scientists from the California Department of Food and Agriculture also will be a key part of the open house.
Beetles, belonging to the order Coleoptera, the largest insect order, total some 400,000 species. They make up "about 40 percent of all insect species so far described, and about 25 percent of all animals," according to Wikipedia.
Beneficial beetles include the lady beetle, aka ladybug, which devours aphids and other small soft-bodied insects. Another beneficial beetle: the dung beetle, which feed on feces. Serious pests include the boll weevil, the Colorado potato beetle, the coconut hispine beetle, and the mountain pine beetle.
The family arts-and-crafts activity at the open house will be coloring a burying beetle, art that's the work of Tracie Hayes.
The Bohart Museum, dedicated to "understanding, documenting and communicating terrestrial arthropod diversity," is directed by Lynn Kimsey, UC Davis distinguished professor of entomology. Founded in 1946 and named for UC Davis professor and noted entomologist Richard Bohart, it houses a global collection of eight million insect specimens; a live "petting zoo," featuring Madagascar hissing cockroaches, walking sticks and tarantulas; and a year-around gift shop, stocked with insect-themed books, posters, jewelry, t-shirts, hoodies and more.
The museum is open to the public from 8 a.m. to noon, and 1 to 5 p.m., Mondays through Thursdays.
- Author: Kathy Keatley Garvey
And with an exclamation point!
That's the theme of the Bohart Museum of Entomology open house, set from 1 to 4 p.m., Sunday, Jan. 22 in Room 1124 of the Academic Surge Building, 455 Crocker Lane, UC Davis campus.
It's free, family friendly and open to the public. Scientists will display scores of beetle species, ranging from burying beetles and darkling beetles to dung beetles and lady beetles (aka ladybugs).
Among the presenters will be Tracie Hayes, a doctoral student in the laboratory of Professor Louie Yang, UC Davis Department of Entomology and Nematology. She researches burying beetles, genus Nicrophorus, at the Bodega Marine Reserve. She will show a video she created, display specimens, and answer questions. Burying beetles, as the name implies, are known for burying the carcasses of small vertebrates, such as mice, squirrels and birds, and using them as a food source for their larvae. The American burying beetle, Nicrophorus americanus, endemic to North America, is a critically endangered species.
Folsom Lake College professor Fran Keller, a Bohart Museum scientist and a UC Davis doctoral alumna of entomology, will discuss the beetles she and other scientists collected in Belize.
"In November I started working in the Natural History Museum London Coleoptera collection, working on Belize Cerambycidae to facilitate identification and then catalog specimens for the Belize National Insect Collection," Keller said. "I worked with Larry Bezark, via the internet/email/Google Drive, who is retired from the California Department of Food and Agriculture. There were 28 new country records for Belize and two new species to science that Larry will describe."
Scientists from the California Department of Food and Agriculture also will be a key part of the open house.
Beetles, belonging to the order Coleoptera, the largest insect order, total some 400,000 species. They make up "about 40 percent of all insect species so far described, and about 25 percent of all animals," according to Wikipedia.
Beneficial beetles include the lady beetle, aka ladybug, which devours aphids and other small soft-bodied insects. Another beneficial beetle: the dung beetle, which feed on feces. Serious pests include the boll weevil, the Colorado potato beetle, the coconut hispine beetle, and the mountain pine beetle.
The family arts-and-crafts activity at the open house will be coloring a burying beetle, art that's the work of Tracie Hayes.
The Bohart Museum, dedicated to "understanding, documenting and communicating terrestrial arthropod diversity," is directed by Lynn Kimsey, UC Davis distinguished professor of entomology. Founded in 1946 and named for UC Davis professor and noted entomologist Richard Bohart, it houses a global collection of eight million insect specimens; a live "petting zoo," featuring Madagascar hissing cockroaches, walking sticks and tarantulas; and a year-around gift shop, stocked with insect-themed books, posters, jewelry, t-shirts, hoodies and more.
The museum is open to the public from 8 a.m. to noon, and 1 to 5 p.m., Mondays through Thursdays.
- Author: Kathy Keatley Garvey
And if you attended the UC Davis Bohart Museum of Entomology open house on Dec. 5, 2015, you may have seen entomology student Wade Spencer showing visitors the larvae devouring his Styrofoam bicycle helmet.
And if you've been following the news from Environmental Protection Agency (EPA), you may have heard about the UC Davis doctoral student who just received a $15,000 grant in EPA's National Student Design Competition for Sustainability Focusing on People Prosperity and the Planet (P3).
That would be Trevor Fowles, a second-year doctoral student in the UC Davis Department of Entomology and Nematology, who submitted his research project, “Beetle Larvae as Biodegraders of Styrofoam and Organic Waste.” He now has an opportunity to score a $75,000 grant in Phase 2 of the competition. He'll be in Washington DC April 7-8 for the National Sustainable Design Expo at the Science and Engineering Festival.
Meanwhile, his 100,000 mealworms in the Briggs Hall lab of his major professor Christian Nansen, are munching up a storm (well, a blizzard of the white stuff) in a project that Fowles hopes will make a difference in breaking down Styrofoam--especially a problem in the nation's landfills--and offer sustainable environmental solutions.
“It's about insects processing waste,” Fowles said of his research. “In three weeks they ate three-fourths of a pound of styrofoam, converting it into biodegradable waste.”
“Trevor's project should be viewed as an example of what entomological agricultural research is all about in the 21st Century--developing new and highly innovative ways to recycle resources and more sustainable food production systems," said agricultural entomologist Christian Nansen, an associate professor of entomology who specializes in applied insect ecology, integrated pest management (IPM) and remote sensing. In addition, the project has an applied evolutionary angle, which Fowles intends to explore.
"Our plan is to selectively breed insects and their microbial gut biome, so that they become highly adapted to breakdown, not only Styrofoam, but also different kinds of agricultural waste products," Nansen said. "Similar to orchard growers bringing in bee hives during flowering periods for pollination, we envision that, in the future, companies will be able to order strains of insects for biodegradation of specific wastes. That is, the future of applied entomology will in different ways be about identifying and developing ways for insects to provide different societal services, including pollination, biological control, and biodegradation."
The UC Davis research project involves designing a pilot-scale styrofoam biodegradation unit to take in regional Styrofoam and organic waste, and establish a high-performance beetle lineage, or the “best beetle larvae to do the job.” The adult beetles also eat Styrofoam, but not as much.
“Organization of our food systems will be a defining challenge in the upcoming century and I believe insects will play a significant role in transforming our agricultural sectors,” Fowles said.
The design emphasizes economic feasibility, community engagement, and environmental stewardship. To be sustainable, the project is aimed at connecting local community stakeholders with research expertise to produce an ecofriendly alternative for Styrofoam disposal.
After biodegrading the Styrofoam, the beetles can be pelletized for animal feed, Fowles said, and the excrement or frass can be used as “high-value amendment to compost mixtures.” He figures that that since Styrofoam by itself is a poor nutrient source for the beetle larvae, he eventually will mix it with organic waste materials, such as, pulp from wine and tomato industries, to optimize beetle development.
The darkling beetles and larvae are pests of stored grains, but the larvae are widely used throughout the world as food for humans; for captive pets, including fish, reptiles and birds; and as fish bait. They are reared commercially on fresh oats, wheat bran or grain, and often with sliced potato, carrots, or apple as a moisture source.
In the wild, darkling beetles and larvae are general decomposers, eating decaying leaves, sticks, grasses, and carcasses.
Fowles said he received his first colony of mealworms in 2016 from then graduate student Tom Nguyen at the Bohart Museum of Entomology (Nguyen is now a researcher at the Smithsonian Institution). Fowles purchased his 100,000 mealworms from the insect farm, Rainbow Mealworms and Crickets in Compton.
Fowles, who grew up in West Sacramento, received his bachelor's degree in biology in 2011 from San Diego State University. Before entering the UC Davis graduate student program, he served as a lab manager for five years for Carroll/Loye Biological Research, launched by the UC Davis entomological team of Scott Carroll and Jenella Loye.
In a news release, EPA Administrator Scott Pruitt said: “This year's P3 teams are applying their classroom learning to create valuable, cutting-edge technologies. This next generation of scientists is designing sustainable solutions that will help protect public health and the environment and ensure America continues to lead the world in innovation and science for decades to come.”
Fowles obtained his first colony of mealworms in 2016 from then graduate student Tom Nguyen at the Bohart Museum of Entomology, now a researcher at the Smithsonian Institution. Fowles purchased his 100,000 mealworms from the insect farm, Rainbow Mealworms and Crickets in Compton.
The project in the Christian Nansen lab is all good news for the environment. Who would have thought that beetle larvae would chow down on Styrofoam, the stuff that fills our landfills and what holds our coffee and take-out orders?
Stanford researchers say that every year we Americans throw away 2.5 billion plastic foam cups alone. And that's just a fraction of the 33 million tons of plastic that Americans discard every year. Another statistic: less than 10 percent of that total gets recycled. And as a Stanford news release indicated "the remainder presents challenges ranging from water contamination to animal poisoning."
Bring on the high-performance UC Davis beetles!
- Author: Kathy Keatley Garvey
Fowles, a second-year doctoral student in the UC Davis Department of Entomology and Nematology, just received a $15,000 grant from the Environmental Protection Agency for his research on “Beetle Larvae as Biodegraders of Styrofoam and Organic Waste” and now has an opportunity to score a $75,000 grant.
Meanwhile, his 100,000 mealworms in the Briggs Hall lab of his major professor Christian Nansen, are munching away in a project that Fowles hopes will make a difference in breaking down Styrofoam--especially a problem in the nation's landfills--and offer sustainable environmental solutions.
The larvae of the darkling beetle larvae, Tenebrio molitor, eat polystyrene or plastic foam, generically known as Styrofoam, a fact first revealed in 2015 by Stanford University researchers.
“It's about insects processing waste,” Fowles said of his research. “In three weeks they ate three-fourths of a pound of Styrofoam, converting it into biodegradable waste.”
“Trevor's project should be viewed as an example of what entomological agricultural research is all about in the 21st Century--developing new and highly innovative ways to recycle resources and more sustainable food production systems," said agricultural entomologist Christian Nansen, an associate professor of entomology who specializes in applied insect ecology, integrated pest management (IPM) and remote sensing.
In addition, the project has an applied evolutionary angle, which Fowles intends to explore.
Fowles received one of 31 Phase 1 grants in in the National Student Design Competition for Sustainability Focusing on People Prosperity and the Planet (P3), amounting to $463,000 in funding. His project now advances to the Phase 2 level, to take place April 7-8 at the National Sustainable Design Expo at the Science and Engineering Festival in Washington, DC.
In his research project, Fowles seeks to design a pilot-scale styrofoam biodegradation unit to take in regional styrofoam and organic waste, and establish a high-performance beetle lineage, or the “best beetle larvae to do the job.” The adult beetles also eat Styrofoam, but not as much.
“Organization of our food systems will be a defining challenge in the upcoming century and I believe insects will play a significant role in transforming our agricultural sectors,” Fowles said.
His design emphasizes economic feasibility, community engagement, and environmental stewardship. To be sustainable, the project is aimed at connecting local community stakeholders with research expertise to produce an ecofriendly alternative for styrofoam disposal. Fowles is zeroing in on four components to meet these objectives:
- optimizing parameters influencing styrofoam biodegradation
- modeling and designing a pilot system that maximizes degradation and nutritional value of beetle larvae
- project integration in collaboration with local agricultural producers and waste management to meet real world waste demands and
- community engagement to share the novel aspect of this concept and educate local school children about the concepts of sustainability.
After biodegrading the styrofoam, the beetles can be pelletized for animal feed, Fowles said, and the excrement or frass can be used as “high-value amendment to compost mixtures.” He figures that that since Styrofoam by itself is a poor nutrient source for the beetle larvae, he eventually will mix it with organic waste materials, such as, pulp from wine and tomato industries, to optimize beetle development.
The darkling beetles and larvae are pests of stored grains, but the larvae are widely used throughout the world as food for humans; for captive pets, including fish, reptiles and birds; and as fish bait. They are reared commercially on fresh oats, wheat bran or grain, and often with sliced potato, carrots, or apple as a moisture source.
In the wild, darkling beetles and larvae are general decomposers, eating decaying leaves, sticks, grasses, and carcasses.
Fowles said he received his first colony of mealworms in 2016 from then graduate student Tom Nguyen at the Bohart Museum of Entomology, now a researcher at the Smithsonian Institution. Fowles purchased his 100,000 mealworms from the insect farm, Rainbow Mealworms and Crickets in Compton.
Fowles, who grew up in West Sacramento, received his bachelor's degree in biology in 2011 from San Diego State University. Before entering the UC Davis graduate student program, he served as a lab manager for five years for Carroll/Loye Biological Research, launched by the UC Davis entomological team of Scott Carroll and Jenella Loye.
In a news release, EPA Administrator Scott Pruitt said: “This year's P3 teams are applying their classroom learning to create valuable, cutting-edge technologies. This next generation of scientists is designing sustainable solutions that will help protect public health and the environment and ensure America continues to lead the world in innovation and science for decades to come.”