Posts

Summer Solstice

As the sun reaches its most northerly position relative to the earth, the bees also reach their maximum strength.  The summer solstice, which occurs on June 21st, brings the longest day of the year in the northern hemisphere.  It also marks a delineation between the two broad seasons in the year of a beehive:  the season of expansion and the season of contraction.

During the period prior to the summer solstice, honeybees are generally expanding their population, growing in anticipation of the longer days and the late spring and summer nectar flows.  Bees are highly sensitive to the patterns of the sun.  Not only is their navigation system based on the daily position of the sun, but they also respond to the lengthening and shortening of days by adjusting their populations accordingly.  Their proclivity to expand their populations is, to a large degree, based on the length of daylight.

Within several weeks after the sun reaches its maximum strength, honeybees begin to sense the shortening days.  This change roughly marks the transition from the season of expansion to the season of contraction.  By mid to late summer, due to the shortening days, most queen bees will have cut back on their brood laying, which will result in the beginning of the seasonal decline in bee populations.

The Swarm Lure

Wildflower Meadows is not in the business of rescuing or catching swarms, and it is generally not something that we spend a lot of time doing.  When it comes to swarm catching, we let other beekeepers have all the fun!

However, once in a while we run into swarms that demand our attention.  Sometimes a mating nuc has swarmed into a tree outside the apiary and needs to be brought back into place.  At other times, one of our colonies has swarmed near a neighbor’s house and the neighbor is panicked and calling for assistance.  Occasionally, we may find that a giant swarm has arrived right next to our breeders.  We strive to keep swarms away from our breeders lest they even think about entering a breeder colony and possibly usurping a champion breeder queen.  In all these cases, we need to take action and give our best efforts to corral the swarm into a better place.

This is when the swarm lure proves to be an invaluable tool.  The swarm lure is a bait of essential oils that is highly attractive to a traveling swarm.  The mixture of oils is designed to either smell like an appealing beehive, or to mimic the smell of the Nasonov gland.  The Nasonov gland is the gland in a honeybee that emits the pheromones that call bees together.  Ideally, a good swarm lure immediately catches the swarm’s attention and directs the flight path in the direction of the lure.

There are many different recipes for swarm lures, many of which can be discovered with an Internet search.  Other commercial swarm lures come pre-formulated, and are sold by nearly all of the beekeeping supply companies.  Our personal favorite is the Swarm Commander, which is a proprietary mix of essential oils that reliably directs swarms into our waiting equipment.

When working with a powerful swarm lure like the Swarm Commander, our beekeepers need to be careful not to spill any! Wherever the lure goes, the bees follow. Even an accidental drop on top of the head is enough to cause problems for an entire day!

 

The Forager

An adult worker honeybee typically progresses through a series of roles during her short life span.  During her first two weeks of life she assumes the role of nurse bee, staying inside of the colony, tending to the larvae and to the many needs of the queen bee.  By the start of her third week, still inside the colony she takes on a slightly different role of  an “intermediate” bee; a worker bee who has not quite graduated to foraging status yet.  Her work at this point mostly consists of receiving and storing nectar from the forager bees, producing wax, and building comb.

By the start of the third week, however, a worker bee “graduates” her housekeeping duties and finally becomes a forager.  She will begin by taking a series of training flights to get oriented, and then ultimately heads out into the open world to forage for nectar, pollen, water, and propolis.  The transition to foraging is more or less a death sentence for a worker bee.  The risks to a foraging bee’s life are vastly higher than to a young bee that stays safely inside a well-secured colony.  Not only does a foraging bee have to deal with predators such as swallows and other bee-eating birds, a forager faces a multitude of environmental dangers such as cold, heat, drowning, spider webs, car windshields, etc.  Of course, a forager also can get lost or exhausted in her many daily trips to and from the colony.

A foraging bee makes an average ten to fifteen foraging trips per day!  With this heavy workload, even the strongest and luckiest forager bee only will live about another three weeks while foraging.  Assuming an intrepid foraging bee makes it through the gauntlet of dangers during her daily foraging, sadly her little wings will eventually wear out from all the hard work.  By her third week of foraging she reaches the end of her short lifespan.

Guard Bees

Just like human security guards watching over and protecting an important home, guard bees have the same responsibilities for their colony.  Their mission: keep the colony’s inhabitants safe from intruders.

There are several different kinds of intruders that guard bees must protect against.  They include:

  • Honey bees from other colonies, specifically “robber bees
  • Other kinds of predatory insects, such as ants, moths and yellow jackets
  • Small critters seeking to take refuge inside a beehive for warmth, such as mice
  • Medium sized critters looking to eat bees or honey, such as skunks, raccoons and even some bird species
  • Large sized predators such as bears
  • And, of course, humans, who the bees likely assume intend to rob the colony of its honey

The obvious weapon that a guard bee utilizes, of course, is its powerful sting.  There is more, however, to being a guard bee than stinging.  Like a human security guard, a guard bee must also be attentive, be able to distinguish between normal activity and real threats, and also be able to quickly call for assistance, if needed.

Honeybees are not born as guard bees.  In fact, the youngest bees in a hive make poor guard bees because their stinging capabilities are underdeveloped.  It is the oldest bees that have the most developed stings, and the most potent venom.  Given older bees’ stinging capabilities, plus the fact that they are old and have the least to lose by dying, it is obvious why the oldest bees in a colony typically take on the role of “guard bee.”

A typical strong colony usually has about ten to twenty guard bees at a time patrolling the entrance of the hive.  This number can change depending on the size of the entrance, the season, nearby pressure from robbing, or presence of other threats.  Obviously, if a large-sized predator such as a bear approaches a beehive, ten guard bees is not going to be enough to deter an attack.  In that case, the guard bees quickly call for reinforcements, using an alarm pheromone.  In such an attack, the entire colony is placed on alert, and all worker bees temporarily become guard bees, sacrificing their lives to protect the colony.

Cold Weather Beekeeping

No one could ever say that the weather here in Southern California is particularly cold, but there are times of the year when the daytime temperatures regularly dip into the 50-degree range.  The cooler weather usually arrives in January, just as we are beginning to build up our mating nucs for the upcoming season’s queen honeybee production.  Temperatures below 60-degrees are not ideal for opening bee colonies, but in January we have to begin preparations for the season in anticipation of the early spring.

Honeybees keep the interior of their colonies around 93-degrees.  While honeybees can manage cooler temperatures for short periods, long exposure to the cold can chill and damage brood.

As we are building up our mating nucs, our beekeepers have to be sensitive to the cooler temperatures and work accordingly.  Colonies and brood cannot be allowed to be open and exposed for extended periods of time.  Our beekeepers need to work with a purpose and stay organized.  Fortunately, the bees usually assist the process by clustering around any open brood and covering exposed areas.

In the cooler temperatures, bees do not fly very well so they usually hang around the apiary while we are working.  They fly around a little and then come right back to the hive.  Many will land on us and cover us as well!  Are they trying to keep us warm too?

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!

Calling All Bees!

Once in a while, some of the bees in a hive need a little directional guidance from their sisters.  Individual bees can get lost or confused as to where the entrance of the hive is or where they should be.  No problem, that’s when some of the more alert bees take charge and put out the call to round up the hive and bring the group back together again.

When we humans want to round up friends from a distance we typically use sight or sound (or more frequently phone calls or text messages.)  When bees call each other from a distance, they use none of these.  The bees’ method of communication is a method that we would never think to use; they release a pheromone that signals the other bees to come together via the bees’ powerful sense of smell.

This pheromone is called the Nasonov pheromone.  Bees produce this from the tip of their abdomens.  When they wish to release the pheromone, they raise their abdomens and fan their wings vigorously, broadcasting the scent as far as they can.  It is not uncommon for a beekeeper working with a beehive to see some bees around the edge of the hive releasing this pheromone.

Often, the very act of the beekeeper opening the colony can disorient some of the bees, especially the foragers who are returning with nectar and pollen.  Fortunately, the Nasonov pheromone is a powerful call that brings the bees back home.

Beekeepers will also notice this activity when watching a swarm that has decided to settle in a particular spot.  At the edge of most swarms, a few bees can always be seen frantically calling their sisters to the chosen spot, and gathering the hive together once again.

Bees Hanging Out During Summer

When summer kicks into high gear and both the days and nights become unpleasantly hot, bees begin to feel the heat too.  One of the signs that summer has arrived is the sight of bees hanging out in front of their hive entrances, especially at nightfall.

Bees implement a sophisticated system of climate control inside the hive.  They maintain their brood nest roughly between 80 and 95 degrees Fahrenheit, with about 93 degrees being the ideal.  They also generally maintain at least 50% relative humidity within the beehive.  Any lengthy fluctuation outside of these temperature and humidity zones is dangerous for the health of the brood and the overall well-being of the hive.

During summer, the challenge of the bees is to keep the hive from overheating.  At this time of year they have two powerful factors working against them.  First, obviously, is the relentless and potent summer sun that bears down and heats everything up.  Bees overcome hot days by fanning water inside their hive, thus using water as sort of a honeybee swamp cooler.  This is why it is critical to maintain a reliable water source for bees near the hive.

The second, and less obvious factor that can overheat a hive is that beehives’ populations are often at their peak during June, July and August, with upwards of 40,000 bees in a single hive!  The sheer numbers of bees living so closely together can create heat of its own, further raising the temperature near the brood nest.

During the daytime, overcrowding is less of a factor because many of the forager bees and drones are outside of the colony.  At nightfall, however, when all the bees have returned, the hive can become populous again, and overcrowding and overheating becomes possible.

The bees’ answer to this overcrowding is a good one.  Why not sleep outside?  In the summer months, most healthy hives have a good percentage of bees hanging out in front of their hive’s entrance, especially in the evening.  These bees will spend most of the night outside, keeping themselves cool with a peaceful night’s rest under the soft moonlight.  More importantly, this also keeps the brood nest from overheating by limiting the number of bees inside the colony.  If the nighttime temperature chills, then the bees can head back inside to warm up.  If not, then they spend the entire night outside, just hanging out and staying cool.

Swarm Control

All creatures possess a deep-seated instinct to reproduce and expand, and bees are no exception.  At the height of spring, when nearly every flower is in bloom, when the days are noticeably warmer and longer, beehives can’t help but to grow rapidly.  During the peak of spring, hive activity bustles and pollen and nectar flow into the hive in abundance.  With the wealth of favorable conditions, populations explode.  Before long, bees become increasingly prone to swarm.  They can’t help themselves; as all of the stimuli they are receiving – the lengthening days, the abundance of food, and especially the overcrowding – rouse every instinct within them to swarm.

As much as the bees are motivated to swarm, a beekeeper is equally motivated to keep the bees at home!  When half the population of the hive simply flies away – for good – and with a thirty-dollar queen no less, it is not a happy day, especially for a queen breeder.  Losing a hive to swarming means less bees, less honey, and less overall production.  Swarms can also lead to problems with neighbors.  From the beekeeper’s perspective, none of this is welcome.

As a result, a conscientious beekeeper needs to take precautions to prevent swarming.  This is known as “swarm control.”  Swarm control needs to take place well before the bees begin to think about swarming.  Once a hive has begun to fill in every cell of comb with eggs, larvae and food, and is about to swarm, it is far too late for the beekeeper to intervene.  Swarm control, like many aspects of best practices in beekeeping, needs to take place in advance.

Simply the best way to control swarming is to try to prevent it from happening in the first place.  During the peak of spring, the colony needs to have plenty of surplus space and room to expand. Beekeepers need to stay ahead of their bees and provide ample extra space for the colony to grow into.  An extra box of empty comb, along with a few frames of empty foundation to work will keep the bees occupied and less apt to swarm.  Younger queens are also less prone to swarming, so frequent requeening can prevent swarming to some extent.

Once a colony has made up its mind to swarm, however, as evidenced by it developing queen swarm cells, the beekeeper needs to take more serious action.  About the only thing a beekeeper can do at this point is to simulate an artificial swarm, and split the colony into two, or sometimes three, colonies on his own.  This managed splitting of the colony forces the bees to reset into small-sized colonies, which are not overpopulated and less apt to swarm on their own.

What Attracts Honeybees To Flowers?

 

When flying about, honeybees’ two most powerful senses are their eyesight and sense of smell.  When at full bloom, flowers’ most attractive features are their beauty to the eyes, as well as their fragrance to the nose.  Is this a coincidence?  No.  Honeybees are designed to find flowers, and flowers are designed to find honeybees.

Did you ever wonder why flowers are almost never the same color as the plant itself?  The flower on any plant needs to stand out, and be as beautiful and fragrant as it can be to attract the bees that it needs for the next generation of plants to survive.

As humans we also appreciate the beauty and fragrance of a perfect flower.  But compared to what a bee experiences, our visual perception of a flower is downright drab.  It is as though we are looking at an old scratched computer screen while the bees are watching a 3D movie in IMAX!  Not only is a bee’s sense of smell keenly more acute than ours, a bee’s eyesight is perfectly optimized for identifying flowers.

You may not know this, but flowers display a richness that largely escapes our range of vision.  Bees see in a different range of frequencies, or spectrum, than humans.  Whereas a human’s eyesight ranges from red to violet on the color spectrum (the colors of the rainbow), the bees’ vision ranges from orange to ultraviolet.  Bees cannot see red, but they can see well into the ultraviolet spectrum.  In the ultraviolet spectrum, many flowers have an iridescent quality, in which they appear to change color or flicker from one color to another.  While we humans fail to see this beauty, the bees identify it immediately.

A bees eye view of the same photo

If humans could see into the ultraviolet spectrum, we would see iridescent colors in a flower, along with patterns on the petals of flowers that seem to almost point the way to the nectar source.  A dandelion, when seen in the UV spectrum, is not completely yellow but has a rich and darker looking center that immediately draws attention.  That center, not coincidentally, is where the nectar lies.

Bees’ vision is also vastly faster than ours, which means that they can identify changes in colors while on the move. In fact, honeybees can actually identify individual flowers while traveling at high speed!  Is it any wonder why scout bees never fail to “stop and smell the flowers” along the way?