- Author: Kathy Keatley Garvey
The PLOS ONE journal published “Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits," written by lead author Lauren Carrington and four other scientists from Thomas Scott’s Mosquito Research Laboratory and the Center for Vectorborne Diseases (CVEC).
Their work analyzed how natural temperature fluctuations affect the population growth rate of the dengue mosquito. Basically, temperature effects on larval development time, larval survival and adult reproduction depend on the combination of mean temperature and the magnitude of fluctuations.
“The effect of temperature on insect biology is well understood under constant temperature conditions, but less so under more natural, fluctuation conditions,” said Carrington, who completed her three-year postdoctoral fellowship last December in the Scott lab and continues research projects with the lab. She is now based at the Nossal Institute for Global Health, University of Melbourne, Australia.
The research is expected to lead to greater accuracy of applications for mosquito surveillance and disease prevention.
“An improved understanding of mosquito responses to natural temperature variation,” Carrington said, “will enhance the effectiveness of vector control strategies, thereby reducing transmission of mosquito-borne diseases, such as dengue fever.” By using constant temperatures, scientists can under- or -over estimate values, she said.
“In the field, mosquitoes, and other insects, are exposed to a constantly changing environment, with fluctuations in temperature throughout the day, every day. In the lab, however, experimental protocols generally try to minimize as much variability as possible, and temperature is often the first element to be standardized.”
Co-authors are Veronica Armijos, Christopher Barker, Louis Lambrechts and Thomas Scott.
Dengue is spread by an infected female Aedes aegypti mosquito, a day-biting, limited flight-range mosquito that prefers human blood to develop its eggs. Dengue is caused by four distinct, but closely related, viruses and the most severe form of disease is life-threatening dengue hemorrhagic fever or DHF.
Some 500,000 people with severe dengue are hospitalized each year, according to the World Health Organization (WHO), and about 2.5 percent of those affected die.
“Dengue takes an enormous toll on human health worldwide, with as many as 4 billion people at risk—half of the world’s population--and 400 million new infections each year,” said Scott, a professor of entomology at UC Davis and active in CVEC.
- Author: Kathy Keatley Garvey
That's the title of a newly published book written by Robert E. Page Jr., one of the world's foremost honey bee geneticists.
In his 224-page book, published by Harvard University Press, Page sheds light on how 40,000 bees, "working in the dark, seemingly by instinct alone, could organize themselves to contstruct something as perfect a a honey comb."
Page, former professor and chair of the UC Davis Department of Entomology, marvels at how bees can accomplish these incredible tasks. In synthesizing the findings of decades of experiments, he presents "a comprehensive picture of the genetic and physiological mechanisms underlying the division of labor in honey bee colonies and explains how bees' complex social behavior has evolved over millions of years," according to the Harvard University flier.
Page, now vice provost and dean of the Arizona State University's College of Liberal Arts and Sciences and Foundation Professor of Life Sciences, still keeps his specialized stock of honey bees at the Harry H. Laidlaw Jr. Honey Bee Research Facility at UC Davis. Bee breeder-geneticist Michael “Kim” Fondrk, who worked with Page at Ohio State University, UC Davis and ASU, manages the stock.
In his book, Page talks about the coordinated activity of the bees and how worker bees respond to stimuli in their environment. The actions they take in turn alter the environment, Page says, and "so change the stimuli for their nestmates. For example, a bee detecting ample stores of pollen in the hive is inhibited from foraging for more, whereas detecting the presence of hungry young larvae will stimulate pollen gathering."
Division of labor, Page says, is an inevitable product of group living because "individual bees vary genetically and physiologically in their sensitivities to stimuli and have different probabilities of encountering and responding to them."
Page, who received his doctorate in entomology at UC Davis in 1980, served as an assistant professor at Ohio State University before joining the UC Davis Department of Entomology in 1989. He chaired the department for five years, from 1999 to 2004.
In 2004--the year Page retired from UC Davis--ASU recruited him as the founding director and dean of the School of Life Sciences. At the time, his duties included organizing three departments—biology, microbiology and botany, totaling more than 600 faculty, graduate students, postdoctoral fellows and staff--into one unified school.
As its founding director, Page established the school as a platform for discovery in the biomedical, genomic and evolutionary and environmental sciences. He also established ASU’s Honey Bee Research Facility.
Page is a highly cited author on such topics as Africanized bees, genetics and evolution of social organization, sex determination, and division of labor in insect societies.
Add this one to the list: The Spirit of the Hive.
- Author: Kathy Keatley Garvey
If you haven't made it over to the Häagen-Dazs Honey Bee Haven on Bee Biology Road, UC Davis, yet this year, you should.
The trees that form "Orchard Alley" are blooming. You'll see almonds and plums flowering, and soon, apples.
Really spectacular are the delicate plum blossoms. Look closely and you'll see the honey bees with heavy pollen loads weaving in and out of the branches.
The haven is a half-acre bee friendly garden located next to the Harry H. Laidlaw Jr. Honey Bee Research Facility. The Sacramento Bee just named it one of the Top 10 gardens to visit in Sacramento/Yolo County.
Wrote garden editor Debbie Arrington: "Local gardeners don't have to go far to find inspiration. Our region is dotted with memorable public gardens that offer beauty and food for thought along with relaxation. A stroll through any of these destinations may turn up a new favorite shrub or eye-catching flower. In these gardens, you can see firsthand how thousands of plants have adapted to our climate and often low-water conditions. Best of all: Admission is free."
No. 1 on the list? The UC Davis Arboretum. In fact, of the 10 gardens listed, two are located at UC Davis!
- Author: Kathy Keatley Garvey
People aren't the only ones favoring fava beans.
Fava beans growing in a raised bed in the Häagen-Dazs Honey Bee Haven on Bee Biology Road, UC Davis, are attracting honey bees, European paper wasps, lacewings, ladybugs, aphids and carpenter bees.
We saw all six insects on a trip to the haven last Friday.
While the honey bees and carpenter bees gathered nectar, the European paper wasps, lacewings and the ladybugs searched for prey. The ladybugs were also searching for mates.
The half-acre bee friendly garden, located next to the Harry H. Laidlaw Jr. Honey Bee Research Facility, west of the central campus, is open year around from dawn to dusk. Admission is free. Visitors can conduct their own self-guided tours by following the signs and reading the plant labels. Groups that want a guided tour (the cost is $4 per person) can contact Christine Casey at cacasey@ucdavis.edu.
Meanwhile, life is good in the fava beans.
- Author: Kathy Keatley Garvey
There's a good reason why jumping spiders are named "jumping spiders."
They jump.
A jumping spider, according to National Geographic, can jump 50 times its body length.
We saw this jumping spider (family, Salticidae and probably genus Phidippus) in our flower bed last weekend.
Perched on a pink petunia, it waited for dinner, its four pairs of eyes surveying the floral menu; its rear legs poised to jump; its front legs ready to grasp unsuspecting prey. Meanwhile, its iridescent chelicerae glistened in the sunlight.
Wikipedia says that "the genus name is likely derived from Cicero's speech speech Pro Rege Deiotaro (Speech in Behalf of King Deiotarus): Phidippus was a slave who was physician to King Deiotaros. Literally, the word means 'one who spares horses' in Ancient Greek."
One thing's for sure: A hungry Phidippus would not "spare" a bee! Check out this National Geographic video on You Tube about a jumping spider and a honey bee.