- Author: Kathy Keatley Garvey
Silkworm moth expert İsmail Şeker, a Turkish medical doctor and author of a book showcasing his hobby, displayed the eggs, larvae, pupae, adults, as well as silk fabric, and fielded questions from the audience.
Seker showed his newly produced 13-minute video detailing the history of the silkworm moth and its life cycle. The crowd marveled at his macro photography and exquisite videography. Assisting him at the presentation were his grandson, Emre, 7, and granddaughter, Ruya, 4. Their father, Erkin Seker, is an associate professor in the UC Davis Department of Electrical and Computer Engineering.
The silkmoth, Bombyx mori, domesticated in China more than 5,000 years ago, belongs to the family Bombycidae, The life cycle: egg, larva, pupa and adult. Their food: mulberry leaves.
The caterpillars are celebrated for spinning silk; each cocoon is comprised of a single strand of raw silk from 1000 to 3000 feet long. It takes about 2000 to 3000 cocoons to make a pound of silk. Worldwide, silkworms produce some 70 million pounds of raw silk, requiring nearly 10 billion cocoons.
The adults cannot fly, and neither eat nor drink. They mate, lay eggs, and the cycle continues.
Seker donated cocoons for the Bohart Museum's family craft activity and watched visitors gleefully turn the cocoons into decorated finger puppets.
Among the visitors: 40 students from the Samuel Jackson Middle School and the James Rutter Middle School, Elk Grove Unified School District, in a program offering special educational opportunities and mentoring. The youths wore t-shirts lettered with "The Power of Us" on the front, and "Resilient, Authentic, Passionate" on the back. Academic mentor Keishawn Turner said the group toured the campus, had lunch, and ended the day by attending a UC Davis football game.
(More photos of the open house pending in the next Bug Squad)
The Bohart Museum is located in Room 1124 of the Academic Surge Building on Crocker Lane. It houses a global collection of nearly eight million specimens. It is also the home of the seventh largest insect collection in North America, and the California Insect Survey, a storehouse of the insect biodiversity. The Bohart Museum maintains a live "petting zoo," featuring Madagascar hissing cockroaches, walking sticks or stick insects, tarantulas, and praying mantids. The museum's gift shop, open year around, includes T-shirts, sweatshirts, books, jewelry, posters, insect-collecting equipment and insect-themed candy.
Director of the museum is Lynn Kimsey, professor of entomology at UC Davis. The staff includes Steve Heydon, senior museum scientist; Tabatha Yang, education and outreach coordinator; and Jeff Smith, who curates the Lepidoptera (butterflies and moths) section.
More information on the Bohart Museum is available on the website at http://bohart.ucdavis.edu or by contacting (530) 752-0493 or bmuseum@ucdavis.edu.
- Author: Kathy Keatley Garvey
The female silkworm moth releases a sex pheromone, bombykol, that's very enticing to the male. He can detect it from miles away.
Now researchers in the UC Davis Department of Entomology have discovered that the fruit fly has a native odorant receptor that detects the silkworm moth’s sex pheromone, and that it’s “amazingly more sensitive” than the moth’s odorant receptor.
Their work could open research doors for insect-inspired biosensors.
Walter Leal, professor of entomology, and postdoctoral scholar Zain Syed know the olfactory systems of silkworm moths (Bombyx mori) and fruit flies (Drosophilia melanogaster) well.
In a serendipitous discovery, the chemical ecologists found that the fruit fly’s odor detector not only detects bombykol, but responds to bombykol with high sensitivity. Their groundbreaking research, Bombykol Receptors in the Silkworm Moth and the Fruit Fly, was published May 3 in the Proceedings of the National Academy of Science (PNAS).Their research follows on the heels of another study they published in PNAS in 2006 with the Deborah Kimbrell genetics lab in the UC Davis College of Biological Sciences. Bottom line: they found that genetically engineered fruit flies responded to the silkworm moth scent of a female.
Now Leal and Syed have identified the odorant receptor in the male fruit fly that detects the sex pheromone.
Ecologist and evolutionary biologist Fred Gould of North Carolina State University, not affiliated with the research, says the work of the UC Davis researchers "provides important guidance and tools for other researchers who want to explore the pheromone communication systems of other species, or who want to further dissect the mechanisms within the specialized hairs of silkworms that enable this high sensitivity.”What we have here with the silkworm moths and fruit flies is definitely not a "failure to communicate."