Author Archive
Identification of the pesticide that is killing honey bees
We are again indebted to Doug Koch for bringing this article to our attention. It is worth checking out if we are going to act to save honey bees from even greater losses.
http://www.change.org/petitions/epa-save-our-bees-and-the-food-we-eat-ban-bayer-s-chemicals-now#
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Use of Common Pesticide – Linked to Bee Colony Collapse
Boston, MA — The likely culprit in sharp worldwide declines in honeybee colonies since 2006 is imidacloprid, one of the most widely used pesticides, according to a new study from Harvard School of Public Health (HSPH).
The authors, led by Alex Lu, associate professor of environmental exposure biology in the Department of Environmental Health, write that the new research provides “convincing evidence” of the link between imidacloprid and the phenomenon known as Colony Collapse Disorder (CCD), in which adult bees abandon their hives.
The study will appear in the June issue of the Bulletin of Insectology.
”The significance of bees to agriculture cannot be underestimated,” says Lu. “And it apparently doesn’t take much of the pesticide to affect the bees. Our experiment included pesticide amounts below what is normally present in the environment.”
Pinpointing the cause of the problem is crucial because bees—beyond producing honey—are prime pollinators of roughly one-third of the crop species in the U.S., including fruits, vegetables, nuts, and livestock feed such as alfalfa and clover. Massive loss of honeybees could result in billions of dollars in agricultural losses, experts estimate.
Lu and his co-authors hypothesized that the uptick in CCD resulted from the presence of imidacloprid, a neonicotinoid introduced in the early 1990s. Bees can be exposed in two ways: through nectar from plants or through high-fructose corn syrup beekeepers use to feed their bees. (Since most U.S.-grown corn has been treated with imidacloprid, it’s also found in corn syrup.)
In the summer of 2010, the researchers conducted an in situ study in Worcester County, Mass. aimed at replicating how imidacloprid may have caused the CCD outbreak. Over a 23-week period, they monitored bees in four different bee yards; each yard had four hives treated with different levels of imidacloprid and one control hive. After 12 weeks of imidacloprid dosing, all the bees were alive. But after 23 weeks, 15 out of 16 of the imidacloprid-treated hives—94%—had died. Those exposed to the highest levels of the pesticide died first.
The characteristics of the dead hives were consistent with CCD, said Lu; the hives were empty except for food stores, some pollen, and young bees, with few dead bees nearby. When other conditions cause hive collapse—such as disease or pests—many dead bees are typically found inside and outside the affected hives.
Strikingly, said Lu, it took only low levels of imidacloprid to cause hive collapse—less than what is typically used in crops or in areas where bees forage.
Scientists, policymakers, farmers, and beekeepers, alarmed at the sudden losses of between 30% and 90% of honeybee colonies since 2006, have posed numerous theories as to the cause of the collapse, such as pests, disease, pesticides, migratory beekeeping, or some combination of these factors.
BONS Meeting Minutes March 8, 2012
Doug Morris, President, called the meeting to order.
Old Business:
Extractor Project Report: The storage box for the extractor equipment has been completed and is in place at Blandy. Rusty has prepared a presentation for the bee classes. He will be presenting on March 19, March 21 and March 22. The club surprised Rusty with a $50 gift certificate in appreciation for all his dedication, organizational skills and woodworking talents in completing this project. Excellent job by Rusty!
Mentor Program Report: Each club member has 3+ people to mentor . The mentors have planned a wooden ware demonstration on Saturday, March 10, 2012 at Doug Koch’s house. The demonstration is for the bee class students to observe bee equipment being assembled. This project is in conjunction with the students picking up their new bee equipment.
The mentors are providing a wooden ware workshop on Saturday, March 17, 2012 at Tom Miller’s residence for new members to bring their wooden ware to have access to club members providing guidance and assistance building their equipment.
Club Website: Club member were reminded to go to the club website at valleybees.org for club information.
Club Scholarship Report: The club has not been able to contact the scholarship family. Doug plans to try to contact them again.
Wooden Ware Report: Doug Koch has a truck ready and plans to pick up the wooden ware from PA on Friday, March 9, 2012. Doug has asked club members for help unloading the truck between 4 p.m.- 6 p.m. The equipment ordered by the bee students will be ready for pick up on Saturday morning, March 10, between 9 am. – 2 p.m. If club members are interested in equipment they were instructed to call or email Doug on Sunday to see what equipment he has left.
Bee Classes Report: John Lewis reported that bee class fees generated $2,800 for the club. Michele Worthing, treasurer, reminded us that the book expenses would be deducted from that amount.
April 12th 2012 Meeting Agenda
A brief reminder that the club elections of officers will take place during the May 10th meeting so if you want to take an active part in the operation and activities of BONS, send your name to Doug Koch who is compiling a list of contenders. (Thanks Doug for volunteering a second year to be the Nominating Committee.)
The scheduled presentation by Karla Eisen has been deferred until later in the year because Karla has to go out of town on business.
Frank Linton of Beekeepers Association of Northern Virginia (BANV) has agreed to make a presentation on his design of a modern monitored bee hive as a look into the future. This will be a preview of his presentation to the Fall Meeting of the Eastern Apicultural Society (EAS).
I fund an interesting series of articles on beekeeping by a New York City beekeeper with 50 years of experience. The URL is http://www.beebehavior.com/natural_beekeeping.php.
Doug Morris
A Good Source of Beekeeping Videos
Doug Koch sent this link:
http://www.brushymountainbeefarm.com/Resources/Videos.asp
I just had a quick look at the Installing Packages, one of many offerings. Actually,I don’t like to shake my bees into the hive but it is a well made video and I expect the others meet the same standard.
The other method is to leave your box in the hive and let the bees work their way out overnight. They don’t have to clean up all the trash from the package box that way and it’s faster.
House-Hunting Honey Bees Work Like Complex Brains
December 6, 2011 ABJ
House-Hunting Honey Bees Work Like Complex Brains
Researchers report how the signaling of honey bee nest-site scouts parallels that of neurons in primate brains
RIVERSIDE, Calif. – House-hunting is full of decisions, for us and honey bees. One early decision we both face is where to live. P. Kirk Visscher at the University of California, Riverside, often in collaboration with Thomas Seeley at Cornell University, NY, has long been studying how honey bees make these decisions.
Swarms of honey bees split off from their mother colony and go house-hunting, looking for a secure cavity in a tree or elsewhere that will make a good home for the new colony. In this process, they communicate to each other what they have found by dancing: a scout bee returning from a good site moves over and over in a figure-eight pattern that indicates the direction and the distance to the site, and other scouts read these dances and inspect the site themselves.
Usually, the swarm’s scouts find more than one site, in which case the swarm faces a decision that must be made quickly since the swarm is exposed and the season for honey collection is passing. The decision, however, must also be good decision, the future welfare of the colony depending on a good home site.
Visscher, Seeley and colleagues report Dec. 8 in Science Express that they have found another, overlooked, signal that plays a role in this process – a signal that is similar to those that occur between neurons in the brains of monkeys making decisions. Called the “stop signal,” it is a very short buzz delivered by the sender scout while butting her head against the dancer. Its effect is to shorten and ultimately end the dance.
“It appears that the stop signals in bee swarms serve the same purpose as the inhibitory connections in the brains of monkeys deciding how to move their eyes in response to visual input,” said Visscher, a professor of entomology. “In one case we have bees and in the other we have neurons that suppress the activity levels of units – dancing bees or nerve centers – that are representing different alternatives. Bee behavior can shed some light on general issues of decision making. Bees are a lot bigger than neurons for sure, and may be easier to study!”
To study the stop signal, Seeley, Visscher, and Thomas Schlegel at Bristol University, United Kingdom, set up swarms, one at a time, on an island off the Maine coast that was devoid of natural nesting cavities. They also set out two identical nest boxes. They labeled scout bees visiting the two boxes with paint marks of two colors. They then video-recorded the scouts producing waggle dances and tracked dances produced by the marked scouts with a microphone and videotape to ascertain when they received stop signals, and from which bees.
What the international team observed was that the stop signals were primarily delivered to dancers reporting a particular site by scouts that had been marked at the other site.
“The message the sender scout is conveying to the dancer appears to be that the dancer should curb her enthusiasm, because there is another nest site worthy of consideration,” Visscher said. “Such an inhibitory signal is not necessarily hostile. It’s simply saying, ‘Wait a minute, here’s something else to consider, so let’s not be hasty in recruiting every bee to a site that may not be the best one for the swarm. All the bees have a common interest in choosing the best available site.”
Visscher explained that the kind of cross inhibition seen in stop-signaling by house hunting bees mirrors cross inhibition found in nervous systems. In the research paper, theoretical models by team members Patrick Hogan and James Marshall at Sheffield University, United Kingdom, demonstrate that such cross inhibition helps to insure that a decision will not become deadlocked between equal-quality alternatives.
“This is critical, because the swarm must choose a single nest site, even if two sites of equal quality are available,” Visscher said. “This cross inhibition curtails the production of waggle dances for, and thus the recruitment of bees to, a competing site.”
Honey bee swarms are produced when, to establish a new colony, many thousand worker bees leave a hive that has become crowded, bringing along their mother queen. The swarming bees cluster near the parental hive for a few days while several hundred scout bees, the oldest in the swarm, locate and advertize prospective nest sites and choose the best ones.
To advertise a nest site, a dancing bee runs figure eight patterns and waggles back and forth while she moves across the middle portion. The angle of her body during this waggling run represents to the other bees the angle to fly. The duration of the waggling portion informs the other bees of how far away the nest site is. It can be thought of as a miniature reenactment of the flight to the goal; the longer the flight, the longer the waggle run, and the angle of flight relative to the sun direction equals the angle of the dance from relative to straight upwards from the swarm.
To be selected as a future home, a nest site must attract a certain number of scout bees. Further, there is competition between sites for the attention of a limited number of scouts. Once a site attracts a “quorum” number of scouts, the bees detect it, and begin to change their signals on the swarm. They then produce a piping signal by vibrating their wing muscles while pressing down on another bee. This signal leads the swarm bees, most of which simply hang quietly in the swarm during the decision-making process, to warm up in preparation for takeoff.
The piping signal is also associated with a change in the stop signal behavior. After piping begins, the stop signals are no longer delivered reciprocally; instead dancers begin to receive stop signals from scouts that had visited their own nest site, as well as the alternative nest site.
“Apparently at this point, the message of the stop signal changes, and can be thought of as, ‘Stop dancing, it is time to get ready for the swarm to fly,’” Visscher explained. “It is important for the scouts to be with the swarm when it takes off, because they are responsible for guiding the flight to the nest site.”
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