- Author: Kathy Keatley Garvey
The Gulf Fritillary, Agraulis vanillae, and the Mexican sunflower, Tithonia rotundifola, seem made for one another.
Both are a showy orange. Both are show-stoppers. And both attract a photographer's eye.
Especially when a Gulf Frit flutters over a Tithonia on a warm sunny day in a Vacaville garden.
A shutter speed of 1/5000 of a second (Nikon D500 with a 200mm lens) stopped the action.
"This dazzling bit of the New World Tropics was introduced into southern California in the 19th Century--we don't know how--and was first recorded in the Bay Area before 1908, though it seems to have become established there only in the 1950s," writes butterfly guru Art Shapiro, UC Davis distinguished professor emeritus, on his website, Art's Butterfly World. "It can be quite common in the East and South Bay --particularly in Berkeley-- and has been found breeding spontaneously as far inland as Fairfield where, however, it is not established."
Shapiro, who has monitored butterfly populations in Central California since 1972, continues: "There are scattered records in the Central Valley and even up to Folsom, perhaps resulting from people breeding the species for amusement or to release at social occasions. According to Hal Michael, who grew up in South Sacramento, this species bred there in abundance on garden Passiflora in the early 1960s. It seems to have died out by the early 1970s, however. Intolerant of hard freezes, it still managed to survive the record cold snap of 1990 that largely exterminated the Buckeye regionally!"
"This butterfly has no native host plant in California and is entirely dependent on introduced species of the tropical genus Passiflora (Passion Flower, Passion Vine), including the common Maypop (P. incarnata) and P. X alatocaerulea. However, it will not eat all of the Passiflora in cultivation in California."
"In the Bay Area this species can be seen flying any day of the year, if it is warm and sunny enough."
On this day in Vacaville, it was indeed warm and sunny enough: 100 degrees.
- Author: Kathy Keatley Garvey
So here's this praying mantis, a female Mantis religiosa, tucked beneath a Mexican sunflower, Tithonia rotundifola, in a Vacaville garden.
She's as still as a stone, and you know how still stones are.
Along comes a honey bee, Apis mellifera. She's packing a load of orange pollen. She lands on the blossom and begins foraging.
She does not see the mantis, commonly known as "the European mantis."
The mantis sees her.
What happened?
Well, Ms. Bee continued to forage, oblivious to the predator and the pending danger, and then buzzed away.
Ms. Mantis remained as still as a stone.
And then, she, too, took flight...in the opposite direction.
No prayers answered today--for the mantis.
- Author: Kathy Keatley Garvey
It's Labor Day, but honey bees aren't relaxing. They're out in force collecting nectar, pollen, water and propolis.
Ever seen them weighted down with huge pollen loads?
They seem to have "Herculean strength," don't you think? That's what Norman "Norm" Gary, emeritus professor of entomology at the University of California, Davis, writes in his book, Honey Bee Hobbyist: The Care and Keeping of Bees, considered the bible for hobby beekeepers.
"Ten pollen foraging trips a day is par for the typical pollen forager," Gary relates. "When pollen is abundant, a bee can gather a full load in as little as 10 minutes by visiting several dozen flowers...When all factors are favorable, bees from a strong colony can collect many thousands of loads a day. Incidentally, when.beekeepers describe their colonies as strong. they really mean populous--even though bees as individuals seem to have Herculean strength, flying with loads nearly as heavy as their body weight."
In an email, he wrote: "A worker honey bee weighs about 100 milligrams and are reported to be able to carry about 75 milligrams…approximately 75 percent of is body weight!"
Gary, now 90, served as a member of the UC Davis faculty from 1962-1994. He has kept bees for 75 years, starting at age 15.
As an aside, you may know him as not only a professor, scientist, musician, and author but one of the world's most incredible professional bee wranglers. He used to wear full-body bee suits and play the b-flat clarinet. (See Bug Squad blog of Nov. 30, 2016). He once trained bees to fly into his mouth to collect food from a small sponge saturated with his patented artificial nectar. He holds the Guinness World record (109 bees inside his closed mouth for 10 seconds) for the stunt.
Norm Gary knows bees.
- Author: Kathy Keatley Garvey
UC Davis Distinguished Professor Emeritus Howard Ferris can.
Internationally recognized for his “exceptional, wide-ranging and unparalleled contributions to nematology” over a 64-year career, Ferris is a newly elected Honorary Member of the Society of Nematologists (SON), the international organization's highest award.
Ferris received the well-deserved award at SON's 63rd annual conference, held in Park City, Utah.
“Dr. Ferris has devoted most of his adult life to the field of nematology,” according to the SON statement read at the awards ceremony. “Similar to the ecological concepts that are central to much of his work, his research record of over 200 peer-reviewed publications has created a web of connections that touch a huge number of nematologists across the world.”
The award, first given in 1968, is an honor achieved by only 2 percent of the membership. Ferris, who served on the UC Davis faculty for 36 years, is the 36th nematologist and the third UC Davis faculty member to receive the honor. SON awarded UC Davis professor Merlin Allen (1912-1974) the honor in 1970, and Dewey Raski (1917-2014) in 1988.
"Howard's contributions and dedication to the discipline of nematology are remarkable in their impact,” said UC Davis Distinguished Professor of Nematology Steve Nadler, former chair of the Department of Entomology and Nematology, and a member of the nominating team.
UC Davis Distinguished Professor Emeritus of Entomology Frank Zalom of the Department of Entomology and Nematology and director of the UC Statewide Integrated Pest Management Program (UC IPM) for 16 years, and a past president and Honorary Member of the Entomological Society of America, said Ferris is “perhaps the premier IPM research nematologist of our time.”
He developed and continues to maintain Nemaplex and Nemabase, “two of the most important online nematology resources available,” wrote the trio of nominators, Inga Zasada, USDA-ARS research plant pathologist, Oregon State University; Professor Larry Duncan, University of Florida; and Nadler. “It is unlikely that there is a nematologist in the world that hasn't used the online resources that Howard created.”
A curious student or an established nematologist who has forgotten something can find what they need in Nemaplex, which covers all things nematode including taxonomy, methodologies, biology, ecology, management,” the nominators wrote, adding that it is a “virtual encyclopedia of nematodes…There are also online tools for selecting cover crops and making economic threshold decisions.”
Nematology Defined. Ferris defines nematology as "Unsegmented roundworms; they inhabit freshwater, marine and soil environments, in fact almost any environment that provides sources of carbon and water. Many are free-living, feeding on microbes and on small animals and plants and so contributing to critical ecosystem services such as nutrient cycling and regulation of communities," Ferris says. "Others are important parasites of plants and animals, including humans. Estimates, although difficult to substantiate, are that 80 percent (4 out of 5) multicellular animals on the planet are nematodes. That is numbers of individuals, not numbers of species.”
Ferris launched Nemaplex in 1987, and since his “retirement,” devotes at least three days each week to developing it and associated databases. The online resource covers the biology, ecology, and management of plant and soil nematodes.
Ferris began his career in nematology as a research scientist for the Tobacco Research Board of Zimbabwe, and then obtained his bachelor's degree in botany and zoology in 1964 from the University of London; his nematology diploma in 1965 from the State Agricultural University, Wageningen, Netherlands; his master's degree in zoology in 1968 from the University of London; and his doctorate in plant pathology in 1972 from North Carolina State University.
Born in England, Howard emigrated with his family to South Africa in 1946 and to Zimbabwe (then Rhodesia) in “about 1950.” His family moved to New Zealand six years later, then returned to Zimbabwe in 1958. He finished high school there in 1960.
His first peer-reviewed publication? In 1969. Since then, he's published 221 additional peer-reviewed papers,” his nominators wrote. “More than 30 of his publications have received over 100 citations."
Ferris was elected a Fellow of SON in 1995, served as an associate editor of the Journal of Nematology in the 1980s, and organized SON's 28th annual meeting at Davis in 1989, and SON's 38th annual meeting in Monterey in 1999. He was selected a UC Davis Distinguished Professor in 2012. His other honors include the 1984 Ciba-Geigy Recognition Award for Excellence, presented at the First International Congress of Nematology, Guelph, Ontario, Canada; and the 1983 Dimock Lecture at Cornell University.
He has keynoted symposia in the United States, Scotland, Australia, Brazil, The Netherlands and South Africa, and delivered invited lectures in Belgium, Costa Rica, the United Kingdom, and Spain and Mexico, among others. In addition, he has presented international short courses on nematode identification and soil ecology twice in Costa Rica, and also in Nicaragua and Mexico.
“I am honored to have been associated with graduate students, postdoctoral fellows and visiting scientists who have enriched my career and have gone on to be very successful and productive in their own careers as researchers, teachers and leaders in various fields of endeavor,” Ferris said.
What does he do in his leisure time?
“I've been a lifelong-- but very slow--runner which would now be better described as a shuffler,” he joked. In fact, he's run the Comrades Marathon in South Africa several times, and "a few 50 milers in California"--the California International Marathon 20 plus times; and the Western States 100.
He and his wife, Cynthia Hayes, a retired adjunct professor of criminal justice at Sacramento State University and a retired private investigator, reside in Shingle Springs. His goals? “Stay happy and healthy, continue to enjoy UC Davis and to continue to develop Nemaplex!
- Author: Kathy Keatley Garvey
She's the little Concord, Calif., kindergarten student who declared--on the very first day of class-- "When I grow up, I want to be an entomologist!"
And she did.
RJ received her bachelor's degree in entomology in 2021 from the University of California, Davis, and then accepted a four-year, full-ride fellowship offer to complete a doctoral program at the American Museum of Natural History (AMNH). She's a doctoral candidate of comparative biology in the Richard Gilder Graduate School at AMNH and studies in the lab of Professor Jessica Ware.
RJ studies the twisted-wing parasites, order Strepsiptera. As larvae, they enter their hosts, including wasps, bees and cockroaches, through joints or sutures.
Fast forward to today. Her newly published research, “Collection Methods and Distribution Modeling for Strepsiptera in the United States,” is the cover story in the August issue of the journal, Environmental Entomology.
It's not often that an entomologist's first published doctoral research scores the cover of an academic journal.
The cover image shows a parasitized northern paper wasp, Polistes fuscatus, with three male Xenos peckii pupae visible in its abdomen. The image is the work of John and Kendra Abbott of Abbott Nature Photography, Tuscaloosa, Ala.
“The twisted-wing insect parasite order (Strepsiptera) is an excellent example of how beautifully complex evolution and life's interconnectedness can be,” RJ says. “These obligately endoparasitic insects infect several other major orders of Insecta, including true bugs, mantises, cockroaches, flies, wasps, crickets, and even silverfish. Because of this, they can be very difficult to find and study.”
She became interested in the twisted-wing parasites while studying for her entomology degree at UC Davis. In 2019, she was one of four UC Davis undergraduates selected for a two-year funded research career with the University of California Leadership Excellence through Advanced Degrees (UC LEADS) program, which prepares promising students for advanced education in science, technology, mathematics and engineering (STEM). The UC LEADS scholars embark upon a two-year program of scientific research and graduate school preparation.
Guided by UC Davis Distinguished Professor Jay Rosenheim (now an emeritus), RJ launched her independent research project on those bizarre Strepsiptera endoparasites that attack their hosts, the Ammophila (thread-waisted) wasps. Over a two-year period, she studied thousands of specimens at the Bohart Museum of Entomology.
The Bohart Museum houses a worldwide collection of eight million specimens, including “about 30,000 specimens of Ammophila from multiple continents,” according to UC Davis Distinguished Professor Emerita Lynn Kimsey, who directed the museum for 34 years before retiring Feb. 1, 2024, Global wasp authority and UC Davis doctoral alumnus Arnold Menke, author of the book, The Ammophila of North and Central America (Hymenoptera, Sphecidae), identified most of the Ammophila specimens in the Bohart Museum. His book is considered "the bible" of Ammophila research.
RJ went on to enter a poster, “Parental Care and the Risk of Maternally Vectored Pathogens: Ammophila Transmit Strepsipteran Parasites to Their Young,” in the March 2021 Koret UC LEADS Symposium poster competition and won top honors.
And now, her paper in the Environmental Entomology journal is online at
https://academic.oup.com/ee/issue/53/4.
In their introduction, RJ and her team wrote that Strepsiptera “have a cosmopolitan distribution, but they can be difficult to collect for many reasons. As the larval stages are obligate endoparasites of other insects, strepsipterans are necessarily restricted to the ranges of their hosts and may have patchy distributions among host populations. The neotenic females dwell permanently within the abdomens of their insect hosts, with the exception of some members in the family Mengenillidae. Male strepsipterans can be collected independently of their hosts once they eclose and enter the free-flying adult stage.”
“However, they are likely to still be found within their host ranges since they live for only a few hours and must mate within that time. Females and males range from 0.5 to 5 mm and can be easily overlooked in host abdomens (females) or malaise traps There are no standard procedures for the collection of Strepsiptera, since they parasitize such a wide variety of insect hosts—they are documented to parasitize 7 orders comprising approximately 36 insect families, and these hosts inhabit many different environments.”
Co-authors are Anna Eichert, a doctoral candidate of comparative biology in the Ware lab, and Ware, an AMNH evolutionary biologist and curator. Millena credited Kathy LaPoint of Black Rock Forest, Cornwall, N.Y., for images “taken during our collecting trips,” and Abbott Nature Photography for images of a male Xenos peckii in flight and an Isodontia mexicana parasitized by Eupathocera auripedis.
“My work on the evolution and biology of these tiny insects,” Millena said, “is motivated by how much I want everyone to appreciate the unfathomably intricate lives of the organisms we take for granted every day.”
Well said, and well done!