- Author: Kathy Keatley Garvey
It was bound to happen.
A "real" honey bee flying alongside "fake" bees on a bee crossing sign.
We photographed this honey bee (below) at 1/1000 of second (with a Nikon D500 and a 105mm lens with the f-stop set at 16 and ISO at 800), but honey bee flight is truly amazing.
Back in the 1934 French scientists August Magnan and André Sainte-Lague calculated that honey bees shouldn't be able to lift off, much less fly at all. However, they presumed bee wings are stable, like airplane wings, when in fact, they're not. Honey bees flap and rotate their wings some 240 times per second, according to research, "Short-Amplitude High-Frequency Wing Strokes Determine the Aerodynamics of Honeybee Flight," published in December 2005 in the Proceedings of theNational Academy of Sciences (PNAS).
The researchers, from the California Institute of Technology, pointed out that a fruit fly is 80 times smaller than a honey bee and flaps its wings 200 times each second, while the much larger honey bee flaps its wings 240 times every second. To stay aloft, a honey bee uses short wing strokes of less than 90 degrees and a high number of flaps.
"This flapping, along with the supple nature of the wings themselves, allows a bee--or any flying insect, for that matter--to create a vortex that lifts it into the air," explained David Biello in a Nov. 29, 2005 piece in Scientific American.
Or, technically, as the researchers wrote in their abstract: "Most insects are thought to fly by creating a leading-edge vortex that remains attached to the wing as it translates through a stroke. In the species examined so far, stroke amplitude is large, and most of the aerodynamic force is produced halfway through a stroke when translation velocities are highest. Here we demonstrate that honeybees use an alternative strategy, hovering with relatively low stroke amplitude (≈90°) and high wingbeat frequency (≈230 Hz). When measured on a dynamically scaled robot, the kinematics of honeybee wings generate prominent force peaks during the beginning, middle, and end of each stroke, indicating the importance of additional unsteady mechanisms at stroke reversal.
"When challenged to fly in low-density heliox, bees responded by maintaining nearly constant wingbeat frequency while increasing stroke amplitude by nearly 50%. We examined the aerodynamic consequences of this change in wing motion by using artificial kinematic patterns in which amplitude was systematically increased in 5° increments. To separate the aerodynamic effects of stroke velocity from those due to amplitude, we performed this analysis under both constant frequency and constant velocity conditions. The results indicate that unsteady forces during stroke reversal make a large contribution to net upward force during hovering but play a diminished role as the animal increases stroke amplitude and flight power. We suggest that the peculiar kinematics of bees may reflect either a specialization for increasing load capacity or a physiological limitation of their flight muscles."
And the (bee) beat goes on...even with that heavy load of nectar or pollen...
- Author: Kathy Keatley Garvey
Water a bush or a plant frequently visited by bees and other pollinators, and if they're in there, they're likely to emerge.
Such was the case when a male praying mantis, Mantis religiosa, emerged from our pomegranate bush. No spray zone, please.
Frankly, he looked a bit irritated.
The next week a female M. religiosa emerged from a plant in our neighbor's yard. She, too, looked a bit irritated.
Praying mantis expert, Lohit Garikpati, a UC Davis entomology student who rears mantids and volunteers at the Bohart Museum of Entomology, confirmed their identities and gender.
The European mantis, or Mantis religiosa, belongs to the family Mantidae ("mantids"), the largest family in the order Mantodea. As all insect enthusiasts know, they derive their common name by their distinctive posture of "praying." (Some entomologists like to think of them as "preying" mantids.)
The females are usually larger and heavier but the antennae and eyes of the males outsize the females.
"Along with the forward directed compound eyes there are also simple eyes to be found on the head," Wikipedia tells us. "These three dorsal ocelli are also more pronounced in males than in females.Male individuals are often found to be more active and agile whereas females are physically more powerful. One of the outcomes of these morphological variations is that only males and very young females are able to fly. Adult females are generally too large and heavy for their wings to enable a take-off."
In Germany, M. religiosa is listed as ‘threatened' on the German Red List. That means finders aren't supposed to be keepers: don't catch it or keep it as a pet.
The status of the male and female mantids in our neighborhood? They're still there in their respective yards. If they meet, however, the male may lose his head in the well documented phenonomen of sexual cannibalism...nature's way of better survivability--not for the male but for his offspring!
"Eating her mate provides the female with a lot of nutrients she doesn't have to hunt for," according to Wikipedia. "She has a prey item available that is bigger than the prey she would be able to catch in the manner she usually hunts. The meal also takes place during or shortly after she was fertilized giving her more resources for the faster production of a large ootheca with large eggs, increasing the chance of her offspring to survive. Males have also been known to be more attracted to heavier, well-nourished females for this reason."
There's a lesson in there somewhere!
- Author: Kathy Keatley Garvey
Well, ecologists Richard "Rick" Karban Mikaela Huntzinger of the UC Davis Department of Entomology and Nematology did.
For years, they've been observing meadow spittlebugs along the California coastline. Now they're "declining rapidly or vanishing from their previous habitats," the UC Davis ecologists wrote in newly published research in the journal Ecology.
Professor Karban, who has maintained a study site at Bodega Marine Reserve in central California since 1982, links the decrease to temperature.
“I've been surveying seaside daisies for spittlebugs at Bodega Bay every spring for the past 35 years and found that the number of these highly visible and previously widespread insects was related to temperature,” Karban said.
However, since the spring of 2006, the UC Davis researchers have found no spittle masses on the Bodega Bay Reserve's coastal prairie. Other researchers have also detailed how sensitive spittlebugs are to environmental conditions.
The meadow spittlebugs, Philaenus spumarius, thrive in cool, moist habitats and suck plant juices, feeding on xylem fluid and excreting most of it as a foamy white mass known as spittle. The mass protects them from desiccation, predation and parasitism. In past years, Karban and Huntzinger found an abundance of meadow spittlebugs feeding on seaside daisy (Erigeron glaucus) and the non-native ice plant (Carpobrotus edulus).
The Karban-Huntzinger research paper, “Decline of Meadow Spittlebugs, a Previously Abundant Insect, Along the California Coast,” is especially important in light of alarming research in Germany dubbed “Insect Armageddon.” In that research, published last October in the journal PLOS ONE, German scientists investigated aerial insect biomass across 96 protected preserves in the country. They found that three-quarters of flying insects had disappeared over the past 25 years.
In their Ecology article, the authors published a California coastline map detailing the changing spittlebug distribution and disappearance. In 2001, it appeared that their distribution was mainly shifting northward. By 2017 and 2018, it became clear that they were disappearing over large portions of their range.
The earth's climate is warming at a rate of 0.2 degrees Celsius per decade over the past 30 year, according to the National Aeronautics and Space Administration. California's coast has also experienced climate change; the recent severely hot years in the state have also been severely dry. Models of future climates predict that the warming trend will continue and that variability in conditions, for example, droughts, also will increase in frequency and severity.
“Whether the altered climates we face globally will change our ecological communities will depend on how able individual species are to adapt to the new conditions,” the UC Davis researchers explained. “Since meadow spittlebugs were widespread and abundant, we might have assumed that they would not be threatened by climate change. What we have found is that even this species has not been able to adjust physiologically or ecologically. If the pattern they show is common, we may also see surprising changes in the abundance or distribution of other insects as well. These changes are likely to have dramatic and unexpected effects on the functioning of ecosystems.”
Interesting enough, the same week that the UC Davis researchers published their paper, UC Berkeley researchers published their work on the declining bird population in the desert along the Nevada-California border, and opined that climate change could be to blame.
Wrote reporter Henry Bream of the Las Vegas Review Journal in an Aug. 15tth piece titled "Nevada-California Desert ‘half empty' of Birds after Population Collapse":
"Bird populations have collapsed in the desert along the Nevada-California border, and climate change could be to blame, according to a new study by scientists at the University of California, Berkeley."
"Over the past century, the number of bird species has fallen by an average of 43 percent at survey sites across an area larger than New York state. Almost a third of species are less common and widespread now than they once were throughout the region."
The study's authors, professor Steven Beissinger and doctoral student Kelly Iknayan, pointed to less hospitable conditions in the Mojave as the probable cause, Bream wrote.
Iknayan related that “California deserts have already experienced quite a bit of drying and warming because of climate change, and this might be enough to push birds over the edge. It seems like we are losing part of the desert ecosystem.”
Climate change appears to be pushing a number of species "over the edge."
- Author: Kathy Keatley Garvey
Tomorrow (Saturday, Aug. 18) is National Honey Bee Day.
A small group of beekeepers originated the observance back in 2009 to spotlight bees and beekeeping. They petitioned and obtained a proclamation from the U.S. Department of Agriculture, which set aside the fourth Saturday of August to mark the occasion.
It's important to educate the public--especially children, our next generation--about the importance of honey bees and other pollinators.
And that's just what the UC Davis Pollination Education Program is doing, thanks to California State Extension apiculturist and faculty member Elina Lastro Niño of the UC Davis Department of Entomology and Nematology.
“This program was developed to ensure that our young scientists and future voters are aware of the importance of pollinators to our food production and ecosystems," Niño related. "We are also very excited to partner with programs across the university to recruit and support UC Davis students in becoming interns and mentors for the program. This program has already generated so much excitement with the kids and we want to provide this opportunity to as many schools as possible.”
We recently watched a group of third graders from Amador County learn about honey bees and other pollinators when Nino and her colleagues hosted the youngsters in the Department of Entomology and Nematology's bee garden, the Häagen-Dazs Honey Bee Haven. A half-acre public garden installed in 2009 on Bee Biology Road, west of the central campus, it provided the perfect place for the five interactive learning stations.
Some highlights...
Laura Brutscher
Postdoctoral scholar Laura Brutscher of the Niño lab kneels by an educational beekeeping display: a beehive, a smoker, a hive tool and beekeeper protective gear. She discusses the residents of the hive: the queen, worker bees (females) and drones (males). The third-graders, sitting, standing or kneeling in the garden, listen to her wide-eyed.
“Who knows what the job of a drone is?” Brutscher asks.
A hand shoots up. “The drones protect the queen!” a boy declares.
The students learn that the honey bee colony is a matriarchal society. The females do all the work, performing specific tasks with job titles such as nurse maids, nannies, royal attendants, builders, architects, foragers, dancers, honey tenders, pollen packers, propolis or "glue" specialists, air conditioning and heating technicians, guards, and undertakers. The queen can lay up to 2000 eggs a day during peak season.
The third graders then suit up, donning assorted beekeeper protective gear. They pose gleefully in oversized suits while adults on the tour--teachers, parents and mentors--photograph them.
Elina Lastro Niño
Niño, who also directs the highly successful California Master Beekeeper Program, explains pollination and how honey bees differ from such generalists as bumble bees and such specialists as squash bees. She invites the students to build their own bee, using pipe cleaners of various lengths to mimic how they are able to pollinate flowers. The youngsters also taste apples, blueberries and almonds. Honey bees, she tells them, pollinate one third of the food we eat.
Charley Nye, beekeeper and manager of the Harry H. Laidlaw Jr. Honey Bee Research Facility, zeroes in on the products of the hive. “When we see bees flying around, what are they doing there?” he asks.
“They're out gathering nectar and pollen,” responds one youngster.
“That's right,” Nye says. He then introduces them to five varietals of honey: almond, coffee, cotton, blackberry, meadowfoam.
The students and adults like the meadowfoam the best. “It tastes like cotton candy!” one girl says, slowly savoring the flavor she found reminiscent of a county fair.
Wendy Mather
Wendy Mather, California Master Beekeeper Program manager, shows the youngsters a bee vacuum device and how to catch and release bees. They examine them close-up. Others at her interactive learning station craft seed cookies, decorated pots, and planted seeds for pollinators. They also view the bee and syrphid (hover) fly specimens loaned by pollination ecologist Neal Williams, UC Davis professor of entomology. The hover fly, sometimes called a flower fly, is a major pollinator.
Another station focuses on solitary bees: leafcutter bees and blue orchard bees. The students paint nest boxes and learn how the native bees differ from honey bees. Honey bees are not natives of America; European colonists brought them to Jamestown, Virginia, in 1622. Honey bees did not arrive in California until 1853, the year a beekeeper installed colonies near San Jose.
Marcel Ramos
Marcel Ramos, lab assistant in the Elina Niño lab, opens a hive inside a netted enclosure and showed the students the queen bee, workers and drones and pulled out frames of honey.
It was indeed, a honey of a day, and the youngsters learned a lot about bees.
The event received financial support from the UC Davis College of Agricultural and Environmental Sciences Programmatic Initiative Grant, the Scott and Liberty Munson Family, and matching funds from Microsoft.
Ron Antone, chair of the Farms of Amador and an Amador County Master Gardener, coordinated the Amador County visit, which drew third-graders from four schools: 67 from Plymouth and Sutter Creek elementary and "about the same number" from Pioneer and Pine Grove elementary. “The tour was coordinated and funded by Farms of Amador,” he said. “We are also associated with the Amador County Farmers Market Association."
“The program presented by Elina and the Häagen-Dazs Honey Bee Haven team was an incredible experience for all involved: students, parents, teachers and mentors from Farms of Amador and Amador County Master Gardeners," Antone said. “I could not have imagined a more successful trip."
UC Davis Resources:
Celebrate bees on Saturday, Aug. 18: The UC Davis Department of Entomology and Nematology's bee garden, the Häagen-Dazs Honey Bee Haven, has scheduled an open house from 10 a.m. to 4 p.m., Saturday, Aug. 18. Saturday is National Honey Bee Day. The event is free and family friendly. The garden is located on Bee Biology Road, west of the central campus.
Activities, according to academic program manager Christine Casey, will include:
- Learn about how to grow healthy fruits and vegetables at home and how to encourage pollinators in the garden for best yield
- See the bees in action in our demonstration garden
- Cooking demonstration and recipe ideas
- Bee and plant experts to answer your questions
- Author: Kathy Keatley Garvey
That sign greets visitors to the Bohart Museum of Entomology, University of California, Davis, and that's exactly what Noah Crockette, 18, an intern there since age 11 and the winner of an international beetle research award as a teenager, plans to do.
This week he's already gone far--a distance of more than 2700 miles--from Davis to Ithaca, N.Y., where he is majoring in entomology at Cornell University.
Fondly known as “The Beetle Boy,” Noah won the 2015 Coleopterists' Society Award (senior division) for his project, “Survey of the Dung Beetles of Stann Creek, Belize.”
He volunteers at the Bohart Museum, home of nearly eight million insect specimens, and a live petting zoo of Madagascar hissing cockroaches, walking sticks and tarantulas. He has helped out with open houses, outreach programs and collecting trips.
“Yes, Noah has been volunteering here for quite a few years,” said Lynn Kimsey, director of the Bohart Museum of Entomology and professor of entomology at UC Davis. “We've seen him go from a middle school kid to a very mature 18-year-old. He's a great kid, always ready with a big smile, great attitude and really hard working. Smart, too. He should do very well at Cornell. We already miss him.”
Two Cornell University alumni--Tabatha Yang, the Bohart Museum's education and outreach coordinator, and UC Davis doctoral candidate student Emily Bick of the Christian Nansen lab, serenaded him with the Cornell fight song. Yang's degree is in general biology, and Bick's degree in entomology. After they sang the fight song, they told him how cold the winters are!
His major advisor is drosophila (fruit flies) expert Patrick O'Grady, who taught at UC Berkeley for 12 years before joining the Cornell faculty last year. His ecology professor is UC Davis alumnus Anurag Agrawal, an ecologist who received his doctorate in 1999, studying with Richard Karban.
His acceptance into Cornell, one of the top-ranked entomology programs in the country, came in 2017. Noah graduated in 2017 from The Met Sacramento High School, and Cornell offered him a one-year student transfer contract for the fall of 2018.
“I have always been interested in bugs but my interest in entomology started in sixth grade,” Noah said. “I mostly became interested in insects through my internship at the Bohart and participating in the undergraduate UC Davis Entomology Club (open to all interested persons). Before then I had only known that I was interested in zoology and started going to the Ent Club after learning about it from talking to (UC Davis forensic entomologist and club advisor) Robert “Bob” Kimsey at UC Davis Picnic Day. After attending the club for awhile, Danielle Wishon (club president and entomology major) and Bob got me connected with the Bohart to start the internship from which my interest grew.”
Career plans? Noah is keeping his options open as to specialty, but he wants to work in research. Beetles fascinate him, especially scarab beetles. “I have a tendency towards scarab beetles,” he said. “I particularly like the tribe Cyclocephalini, the masked chafer beetles. I really like that they are a Dynastines like the Hercules beetles but lack any sort of horns or other glitzy features. Even though they are small and brown, I love the subtle beauty of the markings which remind me of the Rorschach ink tests.
”I also really love venom so I have also thought about going into venom research but would like to grow more familiar with it before considering it more.”
As a Bohart Museum intern and associate, Noah collected insects twice in Belize on Bohart-affiliated collecting trips “where I was able to get field work experience in entomology as well as herpetology and ornithology.” Fran Keller, assistant professor, Folsom Lake College, and David Wyatt, an entomology professor at Sacramento City College, led the collecting trips. Keller, who served as his mentor, received her doctorate in entomology from UC Davis, studying with Lynn Kimsey.
“My last trip to Belize," Noah said, "was when I completed my Coleopterists' Society project in which I designed and constructed 12 baited pitfall traps which I used to survey the dung beetle species on the property as well as determine their preferred bait, between human feces, pig feces, chicken manure, rotten chicken, and rotten fruit."
In his freshman year, Noah taught an entomology class to elementary students, and as a senior project, organized a museum day at Shriners Hospital for Children.
Outside of entomological pursuits, he enjoys hiking, kayaking and birdwatching. “I really love the outdoors,” he said. “Last year after my trip to Belize I was also given the opportunity through my school to go on a month-long backpacking and kayaking trip through the National Outdoor Leadership School (NOLS) in Alaska. I also played rugby for C.K. McClatchy High School during my senior year which was a fun experience and I now plan on continuing with the sport. At home I like to keep reptiles and invertebrates--mostly tarantulas--as pets and enjoy collecting zoology related books and objects.”
During the going-away party, a photo of Noah Crockette flashed on the wall-mounted computer screen. It pictured him at about age 14, enthusiastically working with insects.
Doing what he loves.
Not overlooked was the quote from noted scientist E. O. Wilson “Go as far as you can [young scientists]. The world needs you badly."