Posts Tagged: honey bee
Just call it a missed opportunity.
Catmint (genus Nepeta) draws scores of insects, from honey bees to leafcutter bees to European wool carder bees.
It also draws spiders.
We usually see a cellar spider (family Pholcidae) trapping prey in its web. It inflicts a fatal bite and then wraps it for later consumption.
This cellar spider, however, crawled along a catmint stem to wait for prey. A honey bee buzzed down and began nectaring one of the lavender blossoms.
It was not aware of the predator. Just as the spider moved toward it, the bee took off.
Later we saw the cellar spider wrapping prey. A closer look revealed it was not a honey bee, a leafcutter bee or a European wool carder bee.
It was another cellar spider. Sexual cannabalism? Maybe. A very hungry cellar spider inept at catching a bee so it nailed a fellow spider instead? Perhaps.
At any rate, that was "what's for dinner."
A cellar spider eyes a honey bee in the catmint (Nepeta). (Photo by Kathy Keatley Garvey)
All wrapped up--a cellar spider nabs another cellar spider. (Photo by Kathy Keatley Garvey)
We captured these photos today of a honey bee nectaring on catmint (genus Nepeta). The bee was moving fast. To blur the wings, we set the shutter speed at 1/640 of a second with an f-stop of 13 and IS0 of 800.
But just how fast can a honey bee fly?
Its wings beat 230 times every second, according to Douglas Altshuler, a researcher at California Institute of Technology who co-authored research, "Short-Amplitude High-Frequency Wing Strokes Determine the Aerodynamics of Honeybee Flight," published in December 2005 in the Proceedings of the National Academy of Sciences.
"The honey bees have a rapid wing beat," he told LiveScience in an interview published in January 2006. "In contrast to the fruit fly that has one-eightieth the body size and flaps its wings 200 times each second, the much larger honeybee flaps its wings 230 times every second."
"And this was just for hovering," Altshuler said. "They also have to transfer pollen and nectar and carry large loads, sometimes as much as their body mass, for the rest of the colony."
The Hive and the Honey Bee, the "Bible" of beekeeping, indicates that a bee's flight speed averages about 15 miles per hour and they're capable of flying 20 miles per hour.
If they're not carrying nectar, pollen, water or propolis (plant resin), they'll fly much faster!
A honey bee can beat its wings 230 times every second. (Photo by Kathy Keatley Garvey)
Honey bee spinning like a top. (Photo by Kathy Keatley Garvey)
The California Gold Rush (1848-1855) has nothing on honey bees.
Sometimes foraging honey bees are covered with their own kind of gold--pollen--or protein for their colonies.
We saw this honey bee dusted with gold from head to thorax to abdomen as she gathered pollen from blanket flowers (Gaillardia). Her flight plan seemed uncertain, as her load was heavy and her visibility, poor. She struggled to take off, but take off she did.
Speaking of the Gold Rush and honey bees, entomologists always associate the arrival of honey bees in California with the California Gold Rush. That's because honey bees were introduced to California in 1853, right in the middle of the Gold Rush.
Back then, the hills were covered with wildflowers where bees gathered nectar (carbohydrates) and pollen (protein). Today, however, scientists are worried about bee malnutrition.
"Honey bee colonies need a mix of pollens every day to meet their nutritional needs," says Extension apiculturist Eric Mussen of the UC Davis Department of Entomology and Nematology. "In fact, they should have a one-acre equivalent of blossoms available to them daily to meet their demands. They can fly up to four miles from the hive--a 50-square mile area--to gather that food and water (and propolis, plant resin)."
A worried beekeeper recently asked him about the declining bee population and wondered why his own colonies were dwindling. In addition to malnutrition, Mussen listed a few other possibilities:
Varroa mites – "They suck the blood from developing pupae and adult bees, shortening their lifespans. They vector virus diseases, the easiest to see being deformed wing virus. If you have adult bees around the colony with curly, undeveloped wings, then you have too many mites. If you see mites on the bees when you look in the hive, that is too many mites."
Nosema ceranae and other diseases – "You need a microscope to see the spores of a Nosema infection. Go to Randy Oliver’s webpage, Scientificbeekeeping.com, and look at the information on Nosema ceranae and spore counting."
Contact with toxic chemicals – "Since your bees can fly up to four miles away to forage, that also is the distance within which they can get into trouble with bee-toxic chemicals. It is not likely that the organic farm is a source. However, if there are other farms around, or if your neighbors (golf courses, shopping centers, parks, playgrounds, etc.) are having problems with sucking or chewing insects, they may have used one of the neonicotinoids on their shrubs or trees. Turf and ornamental dosages are considerably higher than those used in commercial agriculture. So, the amounts of toxins in nectar and pollens can be toxic to honey bees and other pollinators."
Mussen also acknowledged that California buckeye blossoms are toxic to bees. "This was a fairly dry spring," he said. "Not too many weeds and wildflowers were around when the California buckeye came into bloom. Buckeye pollen is toxic to developing bee brood and to adult bees, if it gets to be their primary food source in the colony."
The problem could also be due to other issues as well, Mussen said. "Maybe the queens did not mate with enough drones, or the queens got too hot or too cold during their journeys to your hives, etc."
"As beekeepers, it is up to you to stick your nose in the hive, look at everything and try to determine what may be going wrong. If you are feeling way too new at this to have any idea of what is going on, then contact your local bee club--there is one in practically half of the California counties--and find someone to help access your problems."
And the pollen, that precious protein? "When beekeepers examine their hives, they should see a good supply of pollen with many colors," Mussen says.
Honey bee is covered with pollen from a blanket flower, Gaillardia. (Photo by Kathy Keatley Garvey)
Honey bee is dusted with pollen from the blanket flower. (Photo by Kathy Keatley Garvey)
Lift off? The bee struggles to take off. (Photo by Kathy Keatley Garvey)
What's better than a bee threading through a flowering artichoke? Two bees, a honey bee and a long-horned sunflower bee.
Flowering 'chokes are big draws for bees. Plant 'em, let 'em flower, and they will come. Sometimes in droves. Sometimes in diversity. Always amazing.
A male sunflower bee, Svastra obliqua expurgata, aka the long-horned sunflower bee, stopped foraging to look at us with his big green eyes.
An Italian honey bee, Apis mellifera, buzzing low and packing white pollen, ignored us.
From their missions they did not stray.
Honey bee packing white pollen. (Photo by Kathy Keatley Garvey)
A male long-horned sunflower bee, Svastra obliqua expurgata. (Photo by Kathy Keatley Garvey)
Honey bees love it.
We watched a honey bee foraging on lavender blossoms last weekend, when an ant appeared on the scene. The ant? A worker of Liometopum occidentale (velvety tree ant), according to ant specialist Phil Ward, professor of entomology at the University of California, Davis.
If you don't know much about ants, but have always admired them, then "Dr. Eleanor's Book of Common Ants," is for you.
It's the collaborative work of two entomologists: biologist/science writer Eleanor Spicer Rice, who received her doctorate in entomology from North Carolina State University, and biologist/insect photographer Alex Wild, who received his doctorate in entomology from UC Davis, studying with Ward.
In a recent Myrmecos blog, Wild describes the book as "an entry-level ebook written for the general naturalist curious about ants. Dr. Eleanor recounts stories of the most common species seen in the southeastern United States, interspersed with photographs from my galleries."
"It’s the kind of book you give to the young naturalist who wonders about the ants on the sidewalk," Wild says, "or perhaps to that grumpy uncle who never quite seems to get what it is you are doing in graduate school studying the little creatures."
And, guess what? The Dr. Eleanor/Dr. Alex book is free to download. One way to receive it is to access the Myrmecos blog and click on the I-Tunes and/or PDF links.
Rice relates that she's always been fascinated by ants. So is Andrea Lucky, who, like Wild, received her doctorate in entomology from UC Davis with Phil Ward. Lucky heads the widely acclaimed citizen-scientist project, "The School of Ants." (The School of Ants project is based in the Lucky lab at the University of Florida's Department of Entomology and Nematology and the lab of Rob Dunn in Biology at North Carolina State University. (Email them at email@example.com if you want to know more.)
But back to "Dr. Eleanor's Book of Common Ants." It's fascinating. It's riveting. It's superb. The easy-to-read text and the amazing photos draw you in. You can literally feel the excitement, enthusiasm and passion when Dr. Eleanor asks "What's the big deal about ants?"
"We might not notice them, but ants surround us, occupying nearly every type of habitable nook and cranny across the glove," she writes. "Right now, ants snuggle up to your house, lay out their doormats in front of the trees in your yard, and snooze under your park benches. Some even nest inside the acorns littering the ground."
"We might not notice them, but they're there, and they shape, literally shape, our world," she points out.
And if you look closely in your own back yard, you just might see an ant and a bee sharing a lavender blossom.
A honey bee encounters a velvety tree ant. (Photo by Kathy Keatley Garvey)
Velvety tree ant touches the antennae of a honey bee. (Photo by Kathy Keatley Garvey)