Backyard Orchard News
Summer is fading and the temperatures are dropping, too.
You're more likely to see Vanessa.
That would be Vanessa annabella, one of the Painted Lady butterflies.
The West Coast Lady (Vanessa annabella), is seen more often in cool seasons, says UC Davis butterfly expert, Arthur Shapiro, professor of ecology and evolution.
The West Coast Lady is a member of the Brush-Footed Butterflies (Nymphalidae) and the subfamily, True Brushfoots.
On a recent trip to Tomales, we spotted the West Coast Lady and a honey bee sharing the same plant, a Salvia uliginosa (a tall sage that can reach six to seven feet).
The wings of the orange-brown butterfly and the transparent wings of the honey bee glowed in the sunlight as the insects nectared the sky-blue blossoms. The two have at least one thing in common: they love a good sage.
Shapiro, a lepidopterist extraordinaire, covers more than 130 species in his colorful book, Field Guide to Butterflies of the San Francisco Bay and Sacramento Valley Regions, published by the University of California Press. The guide also offers tips on gardening and photography.
West Coast Lady and a Bee
Aware of Each Other
Ever seen a tachinid tiptoeing through the lavender?
The tachinids are parasitic flies that lay their eggs in hosts such as Lepidoptera (butterfly) caterpillars.
As larvae, they live in and kill their hosts.
As adults, they sip nectar and other plant juices.
That's why you'll see the adults tiptoeing through the lavender, sage and mints.
The scenario is unforgettable. The soft, silken flowers contrast sharply with the insect's long, hairy bristles.
But beauty is in the eye of the beholder, as entomologists are fond of saying.
This one (below) was exploring a lavender in our yard last weekend.
If it were six-feet tall, it would probably scare little children.
Except for future entomologists!
The honey bee nectaring the Penstemon, aka Beardtongue, in Tomales, Calif., didn't seem to mind my presence.
The amber-colored bee was foraging among the purple two-lipped flowers. The plant derives its name from what appears to be a "tongue" (staminode) poking from the "mouth" of the blossom.
It's an attractive flower--indeed, humans hold Penstemon festivals in Flagstaff, Ariz. and Holden, Utah--and the bees like it, too.
The little Marin County honey bee glanced at me and then began cleaning her tongue. Or, as emeritus professor and pollinator specialist Robbin Thorp of the University of California, Davis, said of the photo below: "Caught in the act of cleaning her tongue with the brushes of hairs on the inner sides of her forelegs."
"Even worker bees take time to groom," he said. "Vanity or just good maintenance?"
We like to think she was primping for the photo shoot.
Bee tongue and the Beardtongue.
Cleaning Her Tongue
Surprise: it's in the antennae!
Neurobiologists at the University of Massachusetts Medical School have long wondered how monarch butterflies (Danaus plexippus) can migrate from across eastern North America to a specific grove of fir trees in Mexico.
That's 2000 miles, as a crow flies--or as a monarch flies.
The scientists figured that the key mechanism that steers the monarchs is in the brain.
Nope. It's in the antennae. The antennae aren't just "noses" or "odor detectors."
"We've known that the insect antenna is a remarkable organ, responsible for sensing not only olfactory cues but wind directions and even sound vibration." said Steven Reppert, professor and chair of neurobiology and senior author of the study, published today (Sept. 25) in the journal Science.
"But its role in precise orientation over the course of butterfly migration is an intriguing new discovery, one that may spark a new line of investigation into neural connections between the antennae and the sun compass, and navigation mechanisms in other insects," he said in press release.
For those of us who are navigationally challenged and have long admired how insects migrate from Point A to Point B, this is amazing. There are circadian clocks in the antennae.This study makes us look at monarch butterflies in an entirely different light.
Like the monarchs we spotted nectaring last weekend on the grounds of the Luther Burbank Home and Gardens, Santa Rosa.
Their antennal circadian clocks coordinate sun-compass orientation.
Or, in other words, those antennae are necessary for sun-related orientation.
It's in the Antennae
Two highly talented and enthusiastic university students from Brazil have joined the Walter Leal lab in the Department of Entomology, University of California, Davis, as part of a unique and growing international agricultural exchange program.
The program is known as SUSPROT.
SUSPROT? That's the Sustainable Crop Protection in Agriculture Program, a federally funded program designed to promote scientific cooperation and collaborative education between academic and professional communities in Europe (Belgium, France, Germany and the Netherlands) and the United States.
And now Brazil.
Aline Guidolin (top right) and Diogo Vidal (bottom left) arrived Sept. 14 to work three months with Leal, a noted chemical ecologist and professor of entomology, and with several other researchers in the lab.
Vidal is working with pheromone binding proteins and isolation and identification of pheromones, and Guidolin, gene silencing of pheromone-binding proteins.
“This year we’ve been able to extend SUSPROT into Brazil,” said Brazilian-born Leal, who serves as the UC Davis coordinator of SUSPROT. The organization is headquartered at Pennsylvania State University.
All universities participating in SUSPROT were selected for their strong agricultural programs. “It’s a global agricultural industry now, and we need to know how to research the problems and how to solve them,” Leal said. “We need to learn from one another.”The Brazilian students, both pursuing their bachelor of science degrees, will receive university credit for their work here. Vidal, 22, is majoring in chemistry at the Universidade Federal do Paraná, Curitiba, and Guidolin, 23, is majoring in biological sciences at the University of Sao Paulo, Piracicaba. “They are very enthusiastic,” said Leal. “In fact, the same day they arrived, Aline wanted to start the experiments. And when I left the lab Wednesday night (Sept. 16), I thought I was the last one to leave the lab. I was wrong. They were both still here.”
The two young scientists will join the Leal family for Thanksgiving dinner. You can bet that the turkey will be just one of the main attractions. Expect lively conversations on pheromone-binding proteins and gene silencing.
In multiple languages.
Leal and his wife Beatrix were both born in Brazil and lived in Japan before relocating to Davis. They speak Portuguese, English and Japanese. Their children are also multilingual. Sons Augusto, 18 (now studying at Princeton) and Gabriel, 12, were both in Japan, and daughter Helena, 9, in the United States.
Meanwhile, Walter Leal is gearing up for the SUSPROT exchange trip to Brazil next July. He will accompany a group of UC Davis and Penn State students.
The team “will be exposed to the agricultural or entomology side, the industrial side and the production side,” said Leal. “We can learn a lot from Brazil. Brazil is known for its ethanol production and is the world’s biofuel industry leader, while the U.S. is still in its infancy. Brazil is the leading soybean producer."
As Leal said, it's "a global agricultural industry now, and we need to know how to research the problems and how to solve them.”
Cooperation, collaboration and commitment.
In the Leal Lab