- Author: Kathy Keatley Garvey
A sure sign of spring: honey bees foraging on mustard.
You'll see mustard growing as cover crops in the Napa Valley and Sonoma Valley vineyards, but you'll also see it gracing the hillsides, roadways and area gardens.
It's a time when the yellow pollen dusts the bees from head to thorax to abdomen. Sometimes you'll see a bee's head absolutely covered with the "gold dust."
According to this Sonoma County website:
"Whether it's growing wild or planted by thoughtful vineyard managers, mustard is more than just a feast for the eyes, it's a feast for the vines. It thrives just until bud break, when it is turned under to mulch and provide valuable nutrients and phosphorus to the emerging grape plants."
"The practice holds deep roots in Wine Country. According to legend, a Franciscan missionary first spread the mustard seed while landscaping church properties throughout California. Planting was simple – these early world gardeners carried the mustard seeds in a sack slung over their backs, and each sack had a small hole in it, so as they walked, the seeds would scatter."
Indeed, mustard is not only a feast for the eyes. The mustard plant, from the family Brassicaceae, provides us with
- Spices
- The condiment known as mustard (seeds are ground and mixed with water, vinegar and other ingredients); and
- Mustard greens (the leaves are edible and perfect for a salad).
And it's a feast for bees!
- Author: Kathy Keatley Garvey
On St. Patrick's Day, we see green. We crave green. We wear green.
And the penalty for not wearing green? You get pinched.
Not so with green sweat bees. As their common name implies, they're green. A metallic green. But no pinching allowed!
The green sweat bee, Agapostemon spp., is an unforgettable bee. The females are metallic green, from head to thorax to abdomen. The males, however, are "half green"; they have green heads and thoraxes, but yellow-and-black striped abdomens.
In California, Agapostemon texanus is widespread and common, according to the authors of the card set, Common Bees in California Gardens, published by the University of California Agriculture and Nature Resources. It's the work of UC Berkeley and UC Davis entomologists, including Robbin Thorp, distinguished emeritus professor of entomology, UC Davis Department of Entomolgy and Nematology. It's a companion to the book, California Bees and Blooms: A Guide for Gardeners and Naturalists.
The card set, illustrated with photos and filled with facts, features 24 bees. This will give you a head start in identifying California's 1600 species of native bees--and inspire you to learn more.
Meanwhile you can learn about the distribution, flight season, nesting habits, floral hosts and how each bee species transports pollen.
How to order: You can order online ($15 per book) on this website, http://anrcatalog.ucanr.edu/Details.aspx?itemNo=3552
Meanwhile, keep a lookout for green sweat bees. Their flight season is from March into October, but their peak flight activity occurs from May into September. We've seen them on Cosmos and Rudbeckia (sunflower family) and Erigeron (daisy family).
Not on St. Patrick's Day, though.
- Author: Kathy Keatley Garvey
I did not save a spider yesterday.
Did not save one today, either.
Well, if I had seen one....
Wednesday, March 14 was "Save a Spider Day" in the United States, according to a post by the Entomological Society of America (ESA). Darn, I missed it!
ESA usually focuses on insects (spiders are not insects) but ESA is all inclusive in this welcoming world of arthropod diversity.
Their online text is worth repeating:
"March 14 is Save A Spider Day in the U.S. and while Charlotte and Peter Parker have been fighting the good fight to redeem the spider's reputation, arachnophobia is still running rampant, especially in the United States. One study conducted during a freshman entomology class at Colorado State University found that "the most commonly mentioned specific factor in spider fear was bites and the perceived danger of spiders with figures indicat[ing] that spider fear levels of college students in Colorado are substantially higher than those reported from European general populations."But are spiders the nightmare they've always been portrayed to be? Do they bite? Do they carry diseases? Are brown recluse spiders everywhere just waiting to strike?
"First of all, a lot of those spider bites you've heard about weren't actually spider bites. A study in the Journal of Medical Entomology has shown that there are several medical conditions that can be commonly misdiagnosed as spider bites including "bacterial, viral, and fungal infections; vasculitis; dermatological conditions; bites and stings from other arthropods; and miscellaneous causes such as allergies or drug reactions, chemical burns, reactions to poisonous plants, or diabetic ulcers." The study also expanded on the idea that Hobo Spiders are disease-transferring which it turns out, they are not. Other common house spiders have also had their name cleared when it comes to spreading MRSA."
The ESA then turned to the brown recluse spiders, pointing out the misidentification and the false information about bites: "Take this study where an infestation of 2,055 brown recluse spiders was collected in a Kansas home that a family had been living in for many years, all without ever receiving a spider bite."
"So that spider in your cupboard?" ESA asks. "Probably not a brown recluse. It's probably not carrying a disease. And it may have just killed a tick for you. So try saving a spider today, it's worth it."
The last time I saw a spider was on Valentine's Day, Feb. 14. It was a jumping spider perched on an almond tree on Bee Biology Road, University of California, Davis. It had crossed paths with a winter ant (Prenolepis imparis). Neither wanted to be anyone's Valentine. Neither needed saving.
But I distinctly remember the other spiders I have seen and photographed in our pollinator garden. They didn't need saving, either.
Well, perhaps the prey needed saving...but everybody has to eat!
- Author: Kathy Keatley Garvey
It's tough being a bee--especially when you have work to do and the rain won't let you out of your hive.
But when there's a sun break, it's gangbusters.
To put it in alliteration, we spotted a bevy of boisterous bees networking in the nectarine blossoms in between the springlike rains this week. What a treat!
Nectarines are a favorite fruit of California and beyond. In fact, according to the UC Davis Fruit and Nut Research and Information website, "California leads the nation in production of peach and nectarine (Prunus persica). In 2013, 24,000 acres of California clingstone peaches produced a crop of 368,000 tons of fruit valued at $133,865,000; 22,000 acres of California freestone peaches produced a crop of 280,000 tons valued at $144,418,000. This California crop of 648,000 tons represents 70% of the national peach production. Nectarines on 18,000 acres in the state produced a crop of 150,000 tons with a value of $117,000,000.(USDA 2014),"
Some folks prefer the necatarine over a peach. A nectarine or "fuzzless" peach tends to have sweeter flesh than the more acidic peach, according to the Fruit and Nut Research and Information website. "The lack of pubescent skin is the result of a recessive gene. Nectarine gained popularity in the 1950's when breeding allowed for firmer flesh and better post-harvest handling and longevity."
The foraging bees don't care whether the blossoms are nectarine or peach.
It's food for the hive.
- Author: Kathy Keatley Garvey
John Mola, a fourth-year doctoral student in the Neal Williams lab, UC Davis Department of Entomology and Nematology, won the $850 first-place award with his presentation on "Bumble Bee Movement and Landscape Genetics."
“In conservation biology and ecological study, we must know the distances organisms travel and the scales over which they go about their lives,” Mola said of his work. “To properly conserve species, we have to know how much land they need, how close those habitats need to be to each other, and the impact of travel on species success. For instance, if I'm told there's free burritos in the break room, I'm all over it. If the 'free' burritos require me traveling to Scotland, it's not worth it and I would spend more energy (and money) than I would gain. For pollinators, it's especially important we understand their movement since the distances they travel also dictates the quality of the pollination service they provide to crop and wild plants."
“Despite this importance, we know comparatively little about the movements of bees--the most efficient of pollinators--due to the difficulty of tracking individuals," Mola explained. "Unlike birds or large mammals, we can't just attach large radio collars and follow them around. As such, my work has focused on improving methods that we can use for study. I use a combination of landscape ecology and molecular genetics to identify the locations of siblings (colony-mates) in landscapes. From that information, we can infer all sorts of useful information about the potential foraging range, habitat use, population size, etc. It's a very exciting time to be working on these topics as the availability of new genetic and GPS technologies allows us to answer or re-address scientific and conservation issues with bees.”
In his abstract, Mola related: "Understanding the way organisms move through environments is crucial to our ability to monitor, study, or conserve species--after all, a habitat that is wholly inaccessible is no habitat at all. However, studies of wild bee movement lag far behind those of many numerous individuals. This limits our ability to answer basic questions like how large of an area is needed for individuals to forage? Or how close do conservation areas need to be connected? For honey bees, we can answer these questions through the study of their infamous waggle dance--which reveals the distance and director of their travel. However, most bees do not possess these complex communication behaviors and so our ability to understand their patterns of movement has rlied on mark-recapture, observation, and nascent advances in radar tracking or molecular methods."
He went on to share that "Here, I present a novel methodology for studying bumble bee movement using high-throughput sequencing techniques. This method provides substantial improvement in the accuracy of estimations while simultaneously giving us insight into fine-scale population genetics. Both factors can be important in the conservation and study of pollinators and our ability to 'keep bees healthy." I demonstrate the method's utility by presenting a few case studies of its implementation, and the insight we gain into wild bumble bee movement."
Judges were Tom Seeley, professor at Cornell University, the symposium's keynote speaker; speaker Santiago Ramirez, assistant professor of evolution and ecology at UC Davis, and native pollinator specialist Robbin Thorp, distinguished emeritus professor at UC Davis. Master beekeeper/journalist Mea McNeil of San Anselmo served as the timer and coordinator for the panel.
Mola, who aims for a career "to run a collaborative research program as a faculty member at a research-oriented university,” received his bachelor's degree in environmental studies in 2011 from Florida State University,Tallahassee, and his master's degree in 2014 from Humboldt State University, Arcata, in biology.
Second place of $600 went to Maureen Page, a second-year Ph.D. student in Neal Williams lab for her research, “Impacts of Honey Bee Abundance on the Pollination of Eschscholzia californica (California golden poppy).”
Page presented her research on the impacts of honey bee abundance on native plant pollination. “While honey bees are economically important, they are not native to North America and may have negative impacts on native bees and native plant communities in certain contexts,” she related. “My research is ongoing, but preliminary results suggest that honey bee abundance may negatively affect the pollination of California poppies.”
In her abstract, Page wrote: "Many studies support the claim that introduced honey bees compete with native pollinators. However, little is known about how honey bee introductions will affect native plant communities and plant species' persistence."
Page, who seeks a career as a professor and principal investigator, received her bachelor's degree in biology from Scripps College, Claremont, Calif. in 2006, cum laude.
Other winners:
Third-Place, $300: Doctoral student Emily Kearney of UC Berkeley, for her research on “How Does Landscape Context Affect the Pollinator Community of Chocolate (Theobroma cacao)."
Fourth-Place (tie, $250 each): Doctoral student Jacob Francis of the University of Nevada, for his “A Sweet Solution to the Pollen Paradox: Nectar Mediates Bees' Responses to Defended Pollen” and Katie Uhl, a master's student, UC Davis Department of Food Science and Technology, for her “Determination of Volatile Organic Compounds in Mono-Floral Honey Using HS-SPME/GC/MS."
Fifth-Place ($150): Doctoral student Kimberly Chacon, UC Davis Geography Graduate Group, for her “A Landscape Ecology Approach to Bee Conservation and Habitat Design."
The annual Bee Symposium is sponsored by the UC Davis Honey and Pollination Center, headed by director Amina Harris, and the UC Davis Department of Entomology and Nematology, chaired by nematologist and professor Steve Nadler. Neal Williams serves as the co-faculty director of the Honey and Pollination Center.