The Winter Cluster

Any time the temperature drops to around 57 degrees Fahrenheit, bees in a hive collapse into a cluster.  The cluster is a well-defined ball of bees inside the hive.  The bees form their cluster around the brood, tightening together to generate and preserve heat.  As the temperature warms, the cluster expands; as the temperature cools, the cluster contracts.

Inside the cluster, the bees generate heat for the brood and interior bees.  They do this by a sort of shivering alongside the brood.  The bees repeatedly contract their powerful wing muscles, which generates warmth.  Further inside the cluster, bees continue to attend to their regular activities of eating, rearing brood, feeding the queen and the larvae, and moving about.

As the outside temperature drops, the bees remain in their cluster.  Eventually, in the heart of winter the bees inside the cluster will cease rearing brood.  While formed in a cluster, bees have little ability to move about the hive freely.  They have to stay close to the cluster to stay warm.  This is why it is nearly impossible to effectively feed bees with syrup when temperatures drop into the 50’s or below, as the bees cannot break free from the cluster to access the syrup.

This is also why, during times of prolonged cold temperatures, the bees need to have honey stored close to where they are clustering.  Colonies have been known to die of starvation even when honey is in their hive, because the honey that was available was located too far away from the clustering bees.

Wildflower Meadows would like to thank all of our friends and customers for a successful 2017.

We wish you all a happy and joyous holiday season!

What Are VSH (Varroa Sensitive Hygiene) Bees?

VSH (Varroa Sensitive Hygiene) is a trait in honeybees that enables a colony to survive without mite controls.  The VSH trait causes VSH hygienic behavior, which is the removal of mite-infested cells from the brood nest.  This VSH behavior serves as a natural and physical check on the varroa mites’ ability to reproduce and expand their population inside of a beehive.  VSH is not a unique race of bee, rather it is a behavioral trait that can be bred into any stock.  Wildflower Meadows produces VSH-Italian queen bees for sale, but any race of honeybee can express the varroa sensitive hygiene trait, such as Carniolan, Russian, Caucasian, etc.

The VSH trait is not necessarily linked with the overall performance of a beehive, rather it is only a measurement of mite resistance.  Bees that are 100% VSH can be very good colonies or very poor colonies, as other aspects of a colony’s performance, such as brood production, honey production or even temperament, are all independent of the VSH trait.

The VSH trait is an additive trait.  This means that varroa sensitive hygiene queens that are naturally mated to unselected drones will still produce the VSH trait in their offspring.  Even though the offspring may not have all of the VSH alleles (an allele is a variation of a given gene), a percentage of the VSH trait is passed on to the next generation, thus resulting in an improved level of mite resistance, which can sometimes even be equal to bees that have 100% of the VSH alleles.

VSH hygienic behavior is expressed on cells that have been capped for four to six days; in other words, young capped brood.  VSH bees will either pull or eat mite-infested pupae from the young brood cells, resulting in the death of the immature varroa mites that are present in the cells.

At Wildflower Meadows, our breeder queens contain 100% of the VSH alleles, which we insure through instrumental insemination by crossing 100% VSH queens with 100% VSH drones.  The offspring of these breeders naturally mate with our most desirable and productive VSH-Italian drones, resulting in Wildflower Meadows’ VSH-Italian queen bees.

Royal Jelly

While a larva is developing into a queen cell, nurse bees feed the larva with abundant amounts of a milky white gel, known as royal jelly.  Royal jelly is a high protein food (12% protein) that is also loaded with amino acids, B vitamins and trace minerals – a sort of superfood for insects!  Humans eat it too.  If you watch enough infomercials, eventually you can’t help but to run across one touting the many benefits of royal jelly:  “Royal jelly makes bees into royalty!  It’s magic. Try it.  You’ll have energy to burn!”

Is this true?  At Wildflower Meadows, we’ve eaten our share of royal jelly, cutting it out from unwanted queen cells and eating it fresh from the hive.  We have found that it doesn’t taste all that great, but it does seem to provide a nice jolt to the system.  We would rather not tell anyone, however.  The Federal Drug Administration has concluded that there is no human benefit to taking royal jelly.  Furthermore, they threaten legal action against any person or company making unfounded claims to its benefits.

Lets face it: royal jelly was meant to be more of an insect food rather than a human food, as its presence causes a larva to develop into a queen bee rather than a worker bee.

Scientists have recently identified the component of royal jelly that is responsible for this caste differentiation.  It is a protein called “royalactin”, which induces the differentiation of honeybee larvae into queens.  Royalactin increases body size and ovary development and shortens developmental time in honeybees.  We find it amazing that a single substance can initiate the development of such a truly magnificent and royal creature as the queen honeybee.

The Hive Tool

It is hard to imagine a tool that is so simple and elegant in design, yet so effective for so many tasks.  Whether a beekeeper works in their backyard with one or two colonies, or inside an orchard with hundreds of colonies on pallets, the humble hive tool is the indispensable and loyal friend of every beekeeper, beginner or advanced.

The main functions of the hive tool are to provide leverage in opening colonies, to scrape, and to hook.  Using a hive tool as a lever is obvious.  A beekeeper regularly needs to pry apart heavy boxes that often are glued together with sticky wax and propolis.  A sturdy hive tool fits between the boxes while the beekeeper pushes down on the other end, thus opening even the heaviest of boxes with surprisingly little effort.

Scraping is another task that a beekeeper seems to perform all of the time.  Lids need to be scraped free of wax, and tops of frames need to be cleared of burr comb.  Bottom boards often need to be scraped of debris.  Also, smokers need to be scraped of carbon.  Who knew that beekeeping involves so much scraping?  Thank goodness for the trusty hive tool.

Each hive tool also features a hole near the top that can be used to pry loose nails.  At Wildflower Meadows, we’ve also used our hive tools as makeshift hammers when real hammers cannot be found.

Hive tools usually come in bright colors, so that they be found easily.  When a beekeeper misplaces his hive tool, it feels like misplacing a phone or set of keys.  Anxiety sets in right away.  A best practice for a beekeeper is to learn to work with a hive tool always in hand or in pocket, so that it is never set down to be misplaced.  There is no worse feeling then just beginning to work a bee yard and misplacing your trusty and hardworking hive tool!

Honeybees And Hummingbirds

Here at Wildflower Meadows, it is not just honeybees that buzz overhead each day – our queen-rearing yard is also home to an astonishing number of hummingbirds.  One of our employees is a big fan of these amazing creatures.  She feeds our local hummingbirds daily, upwards of 36 cups of sugar syrup per day!

Hummingbirds migrate up and down the West Coast of the United States; and our queen apiary here in Southern California appears to be well within their migratory flight path.  Depending on the season, we see anywhere from fifty to over a hundred hummingbirds perched around our queen rearing yard daily.  They buzz by our beekeepers, sometimes within inches of their heads, while darting to and from their feeders.  Some days there can be a small number of hummingbirds passing through; and the next day there can be double, sometimes triple the number stopping by for a drink.

One might think that hummingbirds and honeybees would not be very compatible in the same area.  After all, they both drink nectar.  It would seem that they would compete with each other and that one might starve the other out.  This does not happen, however.  Although it is not uncommon to see hummingbirds and bees foraging peacefully together on the same plants, more often than not, the two species go their separate ways.  Hummingbirds mostly prefer long, red tubular flowers as their nectar source, while honeybees have little or no ability to access those flowers.  Not only can honeybees not identify the color red, but their tongues are not nearly as long as those of hummingbirds to reach the nectar.  This tends to keep the two nectar gatherers separate while foraging, each with different flower/nectar preferences.

Possibly the best benefit of having hummingbirds near the apiary is that they keep the mosquitoes and flies at bay.  Without the hummingbirds, our bee water gardens might attract mosquitoes.  With hummingbirds, however, no mosquitoes, no problem!

 

 

 

The Hive Stand

Keeping a colony of bees on a hive stand is a real back saver!  Lets face it, nearly everything about the mechanics of beekeeping – the awkward shaped boxes, the heaviness of the honey, the repetitive tasks of bending over time and again – creates a certain recipe for back pain.  Given all of these back straining tasks, it is not uncommon that beekeepers will eventually develop back soreness.  Therefore, one of the ways to reduce back strain is to place a bee colony on a stand.

Besides saving backs, a hive stand offers other advantages too.  By keeping the colony and woodenware off the ground, the wood is less apt to rot from ground moisture.  A hive stand also keeps ground critters, such as skunks, raccoons and even rattlesnakes away from the hives.  In the early mornings, after a cold night the temperature a few feet off the ground is almost always slightly warmer than the temperature directly on the ground.

Another advantage of a hive stand is that if ants are harassing the colony, a conscientious beekeeper can place the legs of the hive stand in cups of vegetable or cooking oil, thereby building a barrier to keep the ants at bay.  This is a nice organic method of ant control that avoids the use of pesticides.

Most commercial beekeepers do not use hive stands.  Given that the larger commercial beekeepers usually manage their bees on pallets – either four or six colonies to a pallet – a hive stand simply will not work for them.  Here at Wildflower Meadows, although we do not use pallets, we also generally do not use hive stands either.  We simply have too many mating nucs and too many pollination colonies that need to be moved throughout the year to be able to efficiently take advantage of the benefits of hive stands.

At our breeding apiary, however, we make an exception and place our breeding colonies on stands.  It makes perfect sense, as the breeder colonies do not move from place to place.  And, since we work with these colonies nearly every day, it is a relief to all of us not to have to bend at the waist while working within the breeding apiary!

The Wildflower Meadows hive stand design, pictured above, is a double stand, which holds two colonies side by side.  Usually we place the entrances in opposing directions, so as not to confuse the bees as to which hive to return.

Although Wildflower Meadows’ hive stands are hand-made in our wood workshop, Mann Lake makes a similar hive stand with adjustable legs!

Production Of Drone Honeybees

Over the course of her mating flights, each queen bee will mate with up to 15 drone bees.  Most queen producers aim to create a scenario where at least 20 drone honeybees, and ideally many, many more, are readily available for each virgin queen bee when she heads out on her mating flights.  When producing queen bees for sale in large quantities, it quickly becomes obvious that the queen producer is also in the business of rearing drone honeybees.

At the height of the swarming season, especially when nectar is abundant, nearly all bee colonies instinctually produce large amounts of drones. Bee colonies will go out of their way to produce drone comb for the queens to lay drone eggs into, ensuring a steady output of drone honeybees. During these times of abundant drones, queen producers have it easy, with plenty of drones available to get the job done!

However, what about when drones are not abundant? It doesn’t always rain here in Southern California. Our summers are dry. Under these conditions, bees are not always inclined to produce drones on their own. When this happens, the queen producer must intervene, and supplement queen mating with additional drone stock. Much like our local ski areas in Southern California that often need to make up for a shortage of natural snow by blanketing their resorts with “snow making machines”, Wildflower Meadows has a similar ability to supplement the natural supply of drones by blanketing our mating areas with “drone rearing machines.”

Our drone production yards, like the one pictured above, are maintained in strategically placed locations surrounding the various queen mating yards. These drone production colonies, stocked with strong and excellent stock, are fed weekly throughout the entire season, both with syrup and pollen supplement – regardless of weather or environmental conditions. These colonies never know anything but abundance, and probably have no idea that they are in the midst of a drought. Life for them is good! The queens inside these colonies are confined to the lower box, along with easily accessible frames of drone comb and more than enough food. With this irresistible enticement, they effortlessly produce massive amounts of drones. The result? An entire apiary full of “drone rearing machines” and thousands of drones taking to the sky every day.

Fall Requeening

Fall requeening offers many advantages.  In the late season, queens are less in demand than in the early spring.  There are typically no long waits or sold out periods to contend with.  Another advantage of late season requeening is that by fall, many colonies are often not as strong and booming as they are in the height of honey production, and therefore, the requeening activity doesn’t interfere with honey making.  Also, the somewhat lower fall populations can make it easier to find queens.

After a nearly full season of beekeeping, it is easy to determine which colonies are underperforming, versus which are proven champions.  The latter probably do not need new queens, and these existing and proven queens can be “overwintered” and carried forward into the next season.  The former, however – the underperforming colonies – can be given a fresh queen, offering them a brand new start and new hope for the next season.

With the impending winter, these new queens will not lay many eggs for the remainder of the current season, so that by the time next spring gets underway the new queen will still be relatively young with “low mileage.”  Hopefully, by next spring, she will be well established as an integral part of the colony, less apt to swarm, and about to hit the prime of her life just when Mother Nature’s timing is perfect.

Queen Pheromone

What is it about queen bees that are so attractive to worker bees?  When we took the photo shown above, we had just prepared six queens from the day’s harvest for introduction into our own colonies.  Note how the workers can’t seem to show enough love to the queens.  These attendants were so fixated on the queens that they traveled inside our truck like this without us even needing to put a lid on the box!  The workers simply had no desire to fly away nor to stop attending to the queens.

When we prepare shipments of bulk boxes, it is never a problem getting attendant bees motivated to stay and care for the queens.  A quick shake of a frame of bees into the box produces more than enough workers willing to stay with, and attend to, the queens the whole time they are in transit.

The queen pheromone is so powerful that bees will even drop out of the sky to investigate a box of queens!  When we deliver queens to UPS, we have been cautioned by the office staff not to arrive prior to 4:30pm, as any earlier causes curious bees to fly into their customer service center, potentially frightening UPS customers.

Inside the hive is no different.  Worker bees can immediately identify the presence of a queen, as well as the lack of a queen.  The method of this attraction is through a pheromone known as the “queen pheromone”.  The purpose of the queen pheromone is to signal to a hive that a queen is present and that she is recognizable.

A pheromone is a chemical that is secreted by a member of a species that can be used to control the behavior of another member of the same species.  Imagine how much love we could receive if we humans had a pheromone as powerful as the “queen pheromone”!

Queen pheromone is secreted near the head of the queen in an area above her jaw known as the mandibular.  Her secretions make her identifiable to all bees inside the hive; workers, drones, and possibly other queens.  The workers spread this pheromone throughout the hive using their antennae.  If this pheromone is absent, the colony will soon recognize its absence and will know that they are queenless.  They will then begin to construct emergency queen cells to raise a new queen.

Not only can a hive measure the presence, or absence, of queen pheromone, but it also able to measure the level of it.  A dip in the level of queen pheromone indicates that the queen could be beginning to fail.  This will often cause a colony to begin raising replacement queens for supercedure of the current queen.

It is well known that overcrowded bees are more likely to swarm than bees with ample space.  However, some beekeepers believe that the overcrowding of bees itself inhibits the transfer of queen pheromone throughout the colony, therefore causing the colony to raise replacement queen cells in anticipation of a swarming event.

The Fume Board

There are a number of ways of separating bees from their honey – some beekeepers use a simple brush, others use a bee blower – but the most efficient, at least in our opinion, is a fume board.  More often than not, the fume board is the tool of choice for commercial and larger scale beekeepers when it comes time to harvest honey.

Over the course of the honey flow honeybees pack the top boxes of their hives – called “supers” or “honey supers” – with fresh nectar.  They dry the nectar and convert it into honey.  With any luck, by the end of the honey flow, the super is full of honey.  A full sized or “deep super” can contain up to 80 lbs. of honey when full.

When it comes time to harvest the honey, a beekeeper needs to clear the bees from the super, so that the super of honey can be brought back to the shop for extraction and processing.  This is where the fume board enters the scene.  The bottom of the fume board is typically made of a sort of felt material.  The beekeeper sprays this material with a fumigant.  At Wildflower Meadows we use a natural spray made of almond oil extract, known commercially as “Bee Quick”.

 

Even though this spray smells great to us – something like almond marzipan – for some reason the bees can’t stand it.  Especially when the sun hits the board and begins to accelerate the fumes, the bees begin a rapid downward exit from the honey super, and thus leaving it free of bees.

Large commercial beekeeping outfits sometimes use up to thirty of these boards at a time to harvest a large-sized apiary.  With a crew of three or four beekeepers, each managing six or seven fume boards at a time, a commercial beekeeping company can harvest honey from an entire apiary of fifty or more colonies in about an hour!