- Author: Kathy Keatley Garvey
Want to learn how to keep bees?
The University of California, Davis, is offering two classes in mid-March: the first on Saturday, March 23 and the second on Sunday, March 24.
Extension apiculturist Elina Lastro Niño, based in the UC Davis Department of Entomology and Nematology, will be teaching the beekeeping classes with her colleagues.
An all-day course on "Planning Ahead for Your First Hives” is set from 9 a.m. to 4:30 p.m., Saturday, March 23 in the Harry H. Laidlaw Jr. Honey Bee Research Facility, located on Bee Biology Road, west of the central campus.
Participants will have the opportunity to learn about--and practice--many aspects of what's necessary to get the colony started and keep it healthy and thriving, Niño said. At the end of the course, participants will be knowledgeable about installing honey bee packages, monitoring their own colonies. and possibly challenges with maintaining a healthy colony.
Lecture modules will cover honey bee biology, beekeeping equipment, how to start your colony, and maladies of the hive.
Practical modules will cover how to build a hive, how to install a package, inspecting your hive and monitoring for varroa mites.
The course is limited to 25 participants. Participants should bring their bee suit/veil if they have one. The $95 registration fee covers the cost of course materials (including a hive tool), lunch and refreshments. The last day to register is Friday, March 22.
Working Your Colonies
A separate course on "Working Your Colonies" will take place on Sunday, March 24. This is an all-day course from 9 a.m. to 4:30 p.m. in the Harry H. Laidlaw Jr. Honey Bee Research Facility. The last day to register is Friday, March 22.
Participants will have the opportunity to learn about--and practice--many aspects of what is necessary to maintain a healthy colony and exploit products of the hive.
Lecture modules will cover advanced honey bee biology, honey bee integrated pest management (IPM) and products of the hive. Practical models will cover queen wrangling, honey extraction and splitting/combining colonies, and monitoring for varroa mite
The $150 registration fee covers the cost of course materials, lunch and refreshments. Participants should bring their bee suit/veil if they have one.
For more information, contact Wendy Mather at wmather@ucdavis.edu
- Author: Kathy Keatley Garvey
It's all about spiders and other arachnids.
The event, free and family friendly, takes place primarily in Room 1124 of the Academic Surge Building on Crocker Lane.
Arachnid expert Jason Bond, who is the Evert and Marion Schlinger Endowed Chair in Insect Systematics in the UC Davis Department of Entomology and Nematology, will present a 10-minute slide show at 1 p.m. in the Museum of Wildlife and Fish Biology classroom, located on the first floor of the Academic Surge Building, next to the Bohart Museum.
Following his presentation, activity stations will be open in the Bohart Museum where visitors can “Assemble an Arachnid,” “Create a Chelicerate,” “Cribellate vs. Ecribellate Silk,” “Catch a Moth,” “Eat Like a Spider,” and learn about "Spider Senses" and “Trapdoor Specifics.”
Visitors will see live specimens and specimens in alcohol. They'll learn the differences between woolly silk and sticky silk. They'll see the Bohart arachnids--tarantulas--and hold some of the non-arachnids, including walking sticks and Madagascar hissing cockroaches.
“Spiders are an incredibly diverse group with more than 50,000 species described with probably another 200,000 remaining to yet be discovered,” says Bond, who joined the department last July from Auburn University, Alabama. “They are quite ancient, with fossils dating back well over 300 million year and are known to be exclusively predatory. In fact, based on a study published last year, spiders are estimated to consume somewhere in the neighborhood of 800 million tons of insect biomass.”
“To capture insects, and other prey item--sometimes even vertebrates--most spiders employ silk and venom to snare and subdue their victims,” the arachnologist says. “Spider silk is an amazingly strong, proteinaceous material that is produced in many different forms; venoms are likewise complex, diverse proteins. All of this to say – what's not to like – spiders are a tremendously ecological important predatory group, that has persisted on the planet for 100s of millions of years and employ a remarkable suite of silks and venoms to make a living.”
Highly respected for his expertise on spiders, Bond served as the plenary keynote speaker at the 2016 International Arachnological Congress, and also keynoted the 2012 European Arachnological Congress.
Born in Johnson City, Tenn., Bond is a U.S. Army veteran who served for a number of years as a UH-60 Blackhawk helicopter crew chief. He received his bachelor's degree in biological sciences, cum laude, in 1993 from Western Carolina University, Cullowhee, and his master's degree in biology in 1995 from Virginia Polytechnic Institute and State University, Blacksburg. He earned his doctorate in evolutionary systematics and genetics in 1999 from Virginia Tech.
All three degrees focused on arachnids. His undergraduate thesis involved silk spigots; his master's degree, systematics of the spider genera Mallos and Mexitlia; and his doctoral dissertation covered “Systematics and Evolution of the Californian Trapdoor Spider Genus Aptostichus Simon (Araneae: Mygalomorphae: Cyrtaucheniidae).”
What drew him to arachnology? As an undergraduate researcher at Western Carolina University, Bond worked with noted arachnologists Jackie Palmer and Fred Coyle. “My first research project was related to functional morphology (evolution of the spinning apparatus in more primitive spiders) but quickly shifted to systematics and taxonomy.”
Bond joined the UC Davis faculty after a seven-year academic career at Auburn University, Ala. He served as professor of biology and chair of the Department of Biological Sciences from January 2016 to July 2018, and as curator of arachnids and myriapods (centipedes, millipedes, and related animals) at the Auburn University Museum of Natural History, from August 2011 to July 2018.
It was at Auburn University where Bond and his colleagues discovered a new species of trapdoor spider that drew international attention and a news story in the Huffington Post. They named it Myrmekiaphilia tigris, or the Auburn Tiger Trapdoor Spider, in honor of the university's costumed tiger mascot, Aubie. The discovery was exciting but not “surprising,” Bond told the Huffington Post, pointing out that it took taxonomists about 250 years to describe about 1.8 million plants and animals, and that this scratches the surface of what scientists estimate to be between five and 30 million overall species on earth.
- Author: Kathy Keatley Garvey
A newly crafted hooded sweatshirt, the work of artist Charlotte Herbert Alberts and designer Fran Keller, features tardigrades, also known as the water bears.
Available in red, gray and black, from sizes extra small to extra extra large, they'll be offered in the Bohart Museum gift shop during the UC Davis Biodiversity Museum Day on Saturday, Feb. 16. Proceeds from the sales benefit the insect museum's educational activities.
Alberts is an entomology doctoral candidate who studies Asilidae (Assassin flies) with her major professor, Lynn Kimsey, director of the Bohart and UC Davis professor of entomology. Alberts' work is a take-off of the California Bear Flag, except hers features an entomologist, insect net in hand, riding a huge tardigrade.
The front features a tardigrade face inside a Bohart logo, a design by Fran Keller, an assistant professor at Folsom Lake College. She received her doctorate in entomology from UC Davis, studying with Kimsey and designed many of the shirts, sweatshirts and posters in the Bohart Museum's gift shop.
The Bohart Museum, founded in 1946 by UC Davis entomologist Richard “Doc” Bohart (1913-2007), is the home of nearly eight million insect specimens, plus a year-around gift shop and a live "petting zoo" that includes Madagascar hissing cockroaches, stick insects, tarantulas and praying mantids. The gift shop is stocked with newly published calendars, books, jewlery, t-shirts, insect-collecting equipment, insect-themed candy, and stuffed animals.
The Bohart Museum is open to the general public Mondays through Thursdays, from 9 a.m. to noon and from 1 to 5 p.m., plus occasional, weekend open houses. Admission is free. Further information is available on the Bohart Museum website at http://bohart.ucdavis.edu/ or contact (530) 753-0493 or bmuseum@ucdavis.edu.
- Author: Kathy Keatley Garvey
Tsetse fly expert Geoffrey Attardo, a medical entomologist and assistant professor with the UC Davis Department of Entomology and Nematology, is featured in a New York Times' article today (Feb. 12) on tsetse flies.
His work drew the attention of Pulitzer-Prize winning science writer Natalie Angier who penned the article, "Everywhere in the Animal Kingdom, Followers of the Milky Way" (subhead: "As scientists learn more about milk's evolution and compositional variations, they are redefining what used to be a signature characteristic of mammals.")
"Most female flies take a low-rent approach to parenthood, depositing scores of seed-sized eggs in the trash or on pet scat to hatch, leaving the larvae to fend for themselves," she wrote. "Not so the female tsetse fly. She gestates her young internally, one at a time, and gives birth to them live. When each extravagantly pampered offspring pulls free of her uterus after nine days, fly mother and child are pretty much the same size."
Then she quoted the UC Davis medical entomologist:
“It's the equivalent of giving birth to an 18-year-old,” said Geoffrey Attardo, an entomologist who studies tsetse flies at the University of California, Davis.
Attardo focuses his research on numerous aspects of the physiology of tsetse fly reproduction, with the goal to identify and understand key aspects of its reproductive biology. He joined the UC Davis Department of Entomology and Nematology in 2017 from tje Yale University School of Public Health, New Haven, Conn., where he researched tsetse flies in the lab of Serap Aksoy.
In terms of "fascinating physiological adaptations," Attardo considers the tsetse fly "one of the champions of the insect world!" As he explained to us in a 2017 news story: "In addition to being vectors of a deadly disease, Trypanosomiasis, these flies have undergone amazing alterations to their physiology relative to other insects. Some examples of this are their ability feed exclusively on blood, their obligate relationship with a bacterial symbiont, the fact that they lactate and that they give birth to fully developed larval offspring."
"The opportunity to study the adaptations these flies have made is like opening a toy chest for an insect physiologist. My work in tsetse has focused on the molecular biology underlying the adaptations associated with the development of lactation, symbiosis, male and female mating interactions/physiology and nutrient metabolism and mobilization.”
Attardo's published research is drawing national and international attention, as are his incredible images of tsetse flies. He won the 2010 Fogarty Grantee Photo Contest with an image of a tsetse fly. The Yale School of Public Health magazine featured his images on “An Eye for the Tsetse Fly.” The Los Angeles Times published his remarkable video (in 2014) of a tsetse fly giving birth. Also, see his portraits of the tsetse fly on Live Science, published in 2014.
- Author: Kathy Keatley Garvey
His seminar is set for Wednesday, Feb. 13 from 4:10 to 5 p.m. in 122 Briggs Hall, off Kleiber Hall Drive.
"I will talk about the molecular mechanisms involved in seasonal adaptation in insects," Brieux said. "Overwintering insects undergo profound physiological changes characterized by an arrest in development and reproduction in adults, known as diapause. While the hormonal control of reproductive diapause is relatively well described it is still unclear how organisms interpret variations in photoperiod (daylength) and temperature to modulate their physiology in order to survive through unfavorable seasons."
"In this context I will present the progress we made in the characterization of a key mechanism signaling seasonal changes in insects and how it can promote our understanding of animal seasonal timing in a comparative framework. In addition, future work on this aspect is also expected to have a broad significance in understanding the evolutionary response of pest insects to rapid climate change."
Says Brieux: "Arguably, the most well recognized seasonal response in insects is the induction of overwintering diapause, which can be induced at different life stages, and is characterized by arrest in growth and reproduction. Since PPTM is critical to seasonal adaptation in insects, it has been studied extensively. Yet, the molecular and neuronal basis of the insect photoperiodic timer has evaded characterization."
The overall goal of this study, he says, is "to address the long-standing knowledge gap using the genetically tractable Drosophila melanogaster and the migratory butterfly, the monarch, Danaus plexippus, as complementary model."
"Specifically, we propose to investigate the mechanisms by which the seasonal timer interprets and signals changes in photoperiod to elicit downstream neuroendocrine and physiological responses in insects."
Brieux received his bachelor's degree in biology in 2009 and pursued a master's degree from Pierre and Marie Curie University, Paris, France. He finished his doctorate in 2014 with faculty members Line Duportets and Christophe Gadenne at Angers University, western France, where he investigated the role of hormones and biogenic amines in the behavioral response to the sex pheromone in the noctuid Agrotis ipsilon.
The postdoctoral scientist joined the Chiu lab in the spring of 2016. In addition to his passion for research, Brieuz is a talented photographer passionate about macrophotography. Check out his photos on his website.
Associate professor Joanna Chiu, a molecular geneticist and physiologist, serves as the vice chair of the UC Davis Department of Entomology and Nematology, and is a newly selected Chancellor's Fellow. Her research expertise involves molecular genetics of animal behavior, circadian rhythm biology, and posttranslational regulation of proteins.
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