June 2023 – Bee Culture https://www.beeculture.com Fri, 26 May 2023 12:57:22 +0000 en-US hourly 1 https://wordpress.org/?v=6.3.2 https://www.beeculture.com/wp-content/uploads/2022/07/BC-logo-150x150.jpg June 2023 – Bee Culture https://www.beeculture.com 32 32 Honey Recipe https://www.beeculture.com/honey-recipe-18/ Sun, 25 Jun 2023 12:00:59 +0000 https://www.beeculture.com/?p=44882 Berry Lemonade Bars
By: Shana Archibald

Ingredients
□ ½ cup butter (softened)
□ ⅔ cup honey
□ 2 eggs
□ 1 tablespoon lemon juice
□ ¼ teaspoon salt
□ Zest from half a lemon
□ ¾ cup flour
□ ¾ cup raspberries (or mixed berry blend,
which is what I used)

Glaze Ingredients
□ ¾ to 1 cup powdered sugar
□ 1 teaspoon raspberry jam
□ 1 tablespoon lemon juice

Directions
Step 1
Preheat oven to 350°F.

Step 2
Prepare an 8×8 square pan by spraying it with non-stick spray (or lining it with parchment paper).

Step 3
In a large bowl, combine butter, eggs, honey, lemon juice, salt and zest. Mix by hand or hand mixer.

Step 4
Add flour and mix until just combined.

Step 5
Add fresh raspberries (or mixed berries) and stir in by hand.

Step 6
Pour into prepared pan and spread into an even layer.

Step 7
Bake for around 25 minutes or until edges are brown and the middle is set. Do not over bake! You want the texture to be like a brownie.

Step 8
Let it cool.

Step 9
While the bars are cooling, combine the glaze ingredients and whisk together.

Step 10
Pour it over the cooled bars and spread out into an even layer on the top. Let the glaze set for at least 20 minutes.

Step 11
Cut into squares and serve.

Store at room temperature or in the refrigerator in an air tight container. Enjoy!

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Heroes to Hives https://www.beeculture.com/heroes-to-hives/ Mon, 19 Jun 2023 12:00:27 +0000 https://www.beeculture.com/?p=44864 Developing Accessible Apiaries
By: Adam Ingrao, Heroes to Hives & Ned Stoller, Michigan AgrAbility

If the goal in life is to live without risks, beekeeping should not enter a person’s career or hobby aspirations. Venomous insects, remotely located and difficult to access apiaries that are far from medical attention and days that require the lift-twist-bend repetition make the work of a beekeeper both daunting and dangerous. A person with a physical disability may not even imagine the potential to start an apiary or continue the work if faced with a physical limitation.

For the last decade, Heroes to Hives and Michigan AgrAbility have been working together to develop accessible technologies and recommendations for beekeepers with physical limitations. One outcome of the collaboration is the development of a Standard Operating Procedure (SOP) for Developing Accessible Apiaries. Not only does the SOP apply to physically limited beekeepers, it can also be a guide for anyone to reflect on the risks of apiary management and address operational weaknesses before an emergency or injury happens. The goal of this article is to provide a guide for building an accessible apiary, and help all beekeepers incorporate tools that will help them work smarter, not harder.

Planning

  • One of the most important aspects of ensuring an apiary is accessible and can accommodate a variety of participant needs is planning. For educators, we recommend having participants register in advance for scheduled events and during the registration process you should ask those registering if they need any special accommodations. This allows you to prepare in advance if special equipment is needed and allows you to reach out to the individual to ensure you fully understand their needs. Examples of a question that can be included in an event registration are:
    • Are there any special accommodations we can provide at this event to ensure this beekeeping experience meets your personal needs?
    • Please let us know if you need accommodations to participate in this event. If so, we will reach out to you to discuss your personal needs.
  • For individual beekeepers with physical limitations, planning is also an important part of a day in the apiary. Ensuring someone is aware of where you are going and how long you plan on being there can be an important safety measure that can support you if something happens. Additionally, ensuring you have a cell phone, two-way radio (when within range) or another communication device on you when in the apiary can be helpful to contact emergency support if an injury experienced in the apiary limits your mobility.

 

Support Team

 

  • Figure 1. Photo credit: Adam Ingrao

    When hosting individuals with accessibility needs at beekeeping events, it is important to ensure you have a proper support structure in place in case a participant requires attention, whether it be medical or personal support (Figure 1). Identifying an individual with emergency medical experience can be a great benefit to any beekeeping event and ensures that if a participant experiences a medical emergency, an individual is ready to jump in and support that individual immediately. Keep in mind, apiaries tend to be in remote locations that are not near medical facilities. Individuals that make great emergency support team members include:

    • Firefighters / EMS
    • Medical professionals: Doctors, nurses, etc.
    • Mental health professionals
    • Military Combat medics
  • Beekeepers in personal apiaries that have physical limitations should try to work with a friend for support when possible. Support members can help with beekeeping activities but will also be an invaluable resource if the beekeeper experiences an injury or medical emergency.

Parking and Pathways

  • Figure 2. Photo credit: Adam Ingrao

    Ensure that parking is in close proximity to the apiary, within a couple hundred feet, so that excessive walking is not required to get to the apiary site (Figure 2). Parking and walking paths should be on level, compacted surfaces that can accommodate vehicles and mobility devices, such as wheelchairs and walkers. If parking near the apiary is not possible, it is recommended that vehicle transport for individuals with mobility restrictions is provided to and from the apiary.

  • In situations where vehicle access is not possible, or if you are a beekeeper with physical limitations working in a remote apiary, a well-outfitted cart or all-terrain utility vehicle is a great solution for managing off-road beehives and moving equipment to and from a remote apiary.

Apiary

  • Selecting a proper apiary site is one of the most important aspects of developing an accessible apiary. Often, apiaries are in remote areas, far from medical attention, which makes them a risky place to be for individuals already facing physical restrictions. If an injury occurs in a remote apiary, medical attention may not be available for some time, which underscores the importance of a support team. By using the following criteria when selecting sites, you can avoid many common pitfalls that make apiaries inaccessible and/or dangerous to many with physical limitations. Following is a list of considerations that should be made for accessible apiaries:
    • Figure 3. Photo credit: Bev Berens

      Soil types should be considered when selecting an apiary site. Apiaries on heavy clay soils can become unusable for mobility devices if high moisture is present or rutting has occurred. High clay content soil surfaces should be avoided for accessible apiaries. High sand content soils may also be an issue for mobility devices if vegetation is not covering the surface to help stabilize the soil.

    • Apiaries should be on flat, compacted surfaces or well-manicured grass to mitigate tripping hazards and accommodate mobility devices (Figure 3).
      • Figure 4. Photo credit: Adam Ingrao

        Materials for compacted surfaces can include concrete, crushed concrete, rubber, milled asphalt, decking, compact gravel and weed exclusion cloth over a solid surface, or other materials that have been designed to support wheelchair and walker mobility in outdoor environments (Figure 4).

        • Grass areas can be utilized for an apiary if they are consistently maintained and cut at a very low height (such as a fairway on a golf course).
        • Note: all grass areas used should be cut with a bag attachment to collect grass debris. No grass debris should be present in an accessible apiary to prevent tripping hazards.
    • Figure 5. Photo credit: Adam Ingrao

      Tripping hazards are one of the most dangerous aspects of an apiary (Figure 5). While working in an apiary, beekeepers are often carrying heavy equipment while moving about in a veil, which obscures vision. As a result, tripping hazards such as holes, stumps, rocks, tall grass, roots and weeds can cause severe injury. All tripping hazards should be removed or filled to ensure a safe, level surface to walk upon.

    • Figure 6. Photo credit: Adam Ingrao

      Hive stands should be utilized to meet the needs of apiary users. Depending on the mobility restriction, hive stands can be as simple as cinder blocks that provide an eight inch lift, to custom stands that are engineered to support a comfortable working height for beekeepers (Figure 6).

    • Variable hive styles can be incorporated into an apiary to meet the physical needs of beekeepers using the site. There are numerous manufactured and custom options available to support individuals with accessibility needs. The following is a short list of common hives that can be used in an accessible apiary and the limitations they may accommodate.
      • AZ hives are one of the most useful hive designs for individuals with lifting restrictions or that are using a mobility device, such as a walker or wheelchair. The AZ hive offers the beekeeper the ability to work the hive from the rear, without having to lift hive bodies, and ensures that the most weight the beekeeper will have to work with is a single frame. Additionally, since AZ hives have a set height (no additional hive bodies are added) the hives can be positioned on stands that are designed to be at the best working height for the individual’s needs.
      • Top bar or long hives are a style of hive that orients all frames on a horizontal plane so that no hive bodies are lifted. These hives can also be modified to articulate on their stand so that individuals can work the hive from a seated position. These hives work well for individuals with lifting restrictions or that are using a mobility device, such as a walker or wheelchair.
      • Langstroth, and similarly vertically oriented hives, can be suitable for individuals with some mobility restrictions as long as the restrictions do not completely limit their ability to lift equipment. Langstroth hives require each hive body to be removed to inspect frames, which requires a lot of lifting (this can be supported with hive lifts). A couple accommodations to make Langstroth hives more accessible for those with some lifting restrictions are:
        • Figure 7. Photo credit: Adam Ingrao

          Use eight frame hive bodies instead of 10 frame. This reduces the weight of each individual hive body by up to 15-20 lbs when full of honey.

        • Use all medium hive bodies instead of deep hive bodies. Utilization of medium hive bodies can reduce the weight of the hive body by up to 15 lbs. Additionally, medium frames are easier to handle and inspect, especially for those suffering from arthritis or other mobility restrictions of the hands.
        • It is highly recommended that accessible apiaries using Langstroth equipment use all eight frame medium equipment as this is the lightest combination of this style of equipment and is the most accessible arrangement for beekeepers using this hive style (Figure 7).
    • Figure 8. Photo credit: Adam Ingrao

      Hives should be placed with at least five feet of clearance from other hives, in all cardinal directions, to ensure participants can get near the hives and that mobility devices, such as wheelchairs and walkers, can freely move between and around hives. Hives may be paired next to each other on stands if needed, as long as the area around the paired hives has five feet of clearance in all directions (Figure 8).

    • All apiaries should have a first aid kit on site and an emergency action plan in place.
      • First aid kits should include Epipens, band-aids, antiseptic, cooling cloths for heat exhaustion and water.
      • Emergency action plans should identify:
        • The closest emergency medical facility
        • Local phone numbers for police, fire and EMS
        • Where cell coverage is available to make emergency calls (if coverage is spotty or unavailable in the apiary)
        • What support team member will provide care and transportation, if needed
        • Description of the apiary site location for police, fire and EMS
        • Emergency contact info for participants in apiary events

Apiary Facilities

  • Figure 9. Photo credit: Adam Ingrao

    Accessible apiaries require educational facilities that also accommodate the needs of participants. As such, restrooms and classrooms at any beekeeping event should meet the accessibility needs of all (Figure 9).

    • An ADA accessible restroom should be present on site and in close proximity to the apiary. Restrooms must have at least 60 inches width and 56 inches depth of unobstructed clearance in the restroom with toilet seats 17-19 inches in height and support handles to accommodate movement from a wheelchair to a toilet seat. This can be a seasonal (portable toilet) or permanent facility.
    • If a classroom is used for instruction, it should be ADA accessible with a door width of at least 32 inches. Tabletops should be no less than 28 inches and no more than 34 inches above the floor with 27 inches of knee clearance. Classrooms should be in close proximity to the apiary and restrooms.
    • Potable water should be made available near the apiary or participants in apiary events should be notified ahead of time, in writing, that they should bring water to the event.
    • Seating is encouraged to assist those who may not be able to stand for long periods of time. It is recommended that educators notify participants ahead of time that they will be standing for long periods and if needed they should bring a chair to sit in, as some individuals may desire to provide their own seating that supports their physical needs.
    • Shade should be made available to individuals during field days to ensure sun exposure does not become an issue for those already working through physical limitations. Providing a canopy or a shaded tree line can provide relief when needed.

Liability Coverage (Important for educators)

  • Regardless of the audience you are working with, ensuring proper insurance coverage for the activities you are conducting will protect you and your assets. Agritourism policies will oftentimes provide legal coverage for activities such as beekeeping classes. Consult with your insurance agent to ensure you are covered properly for the activities you are conducting.
  • A waiver of liability developed for beekeeping activities should be signed by every individual entering the apiary. This should be a document drawn up by an attorney that clearly indicates the risks associated with beekeeping and the proper language to protect you and your assets from liability if an accident occurs in the apiary.
  • Signage should be displayed around the apiary and should clearly state the risks associated with working in an apiary.
  • If you plan on taking pictures and using images of individuals participating in apiary activities, it is recommended to have participants sign media waivers to ensure proper permission for use of images. This is especially important when working with individuals with physical limitations.

Keeping bees can be rewarding, satisfying and enjoyable. By creating spaces that incorporate accessibility, beekeepers open doors for more people to join, enjoy and find success within the industry and enjoy the gifts our bees give us!

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Hot Hive Inspections https://www.beeculture.com/hot-hive-inspections/ Mon, 12 Jun 2023 12:00:24 +0000 https://www.beeculture.com/?p=44858 By: David Burns

From the moment we start our hive inspection, the thrill of searching for the queen consumes us. It’s a grand adventure, a quest for the ages, and the longer we look without success, the more determined we become to find her royal highness. When we come up empty-handed, we can’t help but feel a sense of disappointment and concern for the well-being of the colony. Has she vanished? Will they survive without her?

Yet, the moment we finally lay eyes on our queen, a wave of relief washes over us, and we are reassured that all is right in our little apiary, if not the world at large. The satisfaction of this ultimate discovery is a feeling that never grows old. But let’s ask ourselves: is finding the queen really so vital? For a novice beekeeper, locating one bee among 40-60,000 can seem an impossible task.

Most inspections do not require that we see our queen. Instead, evaluating her laying pattern is often all we need to confirm that all is well. Do we see a sufficient number of eggs, larvae and a good brood pattern of capped over larvae? Once we confirm the brood looks good, there is really no need to spend more time trying to find the queen.

However, there are certain situations when it becomes necessary. For instance, when the queen’s offspring display aggression or she’s producing a subpar brood pattern, it may be time to replace her. We can’t risk introducing a new queen without first finding and removing the old queen. During the Spring season, I typically create one or two splits from each colony, and this involves removing and placing the original queen in the new split to mitigate swarming behavior in the original hive.

While filming a recent YouTube video, I found myself needing to create a split by removing frames of brood and resources, while also relocating the original queen. However, there was one major issue: the hive was extremely aggressive. To describe it aptly, this colony was what beekeepers refer to as “hot”. Unlike other hives that I can manage wearing just a hat and veil, working with this particular hive necessitated the use of a complete bee suit and sting-proof gloves.

In colonies like this, you can limit your time searching for the queen by only looking for her on frames of open brood. Rarely will she be spotted on a frame of nectar, honey or pollen. Once you see one-day-old eggs, standing straight up in cells, the queen is likely to be in close proximity.

Need to find the queen in a hot hive? These tips might come in handy.

1. Wear More Than Enough Protective Gear
This is no time to earn bragging rights of how you work your bees in sandals, shorts and a tank top with no hat or veil. Keeping a defensive colony calm is tricky and if you take one or two stings, the alarm pheromone can attract more stings. The alarm pheromone’s main component is isopentyl acetate, a similar odor found in bananas. Even accidentally smashing a bee can release the alarm pheromone. So, avoid stings by suiting up, and carefully try not to kill any bees.

2. Work Your Defensive Hive Last
If you have several hives that are tolerable, but one is very defensive always work your defensive hive last. If you work it first, these defensive bees will follow you and can attract higher than usual defensive responses from your other colonies. You will want to end your time in the apiary with your defensive colony.

3. Lots of Smoke
Not only do I have my smoker going at 100% capacity, but I have spare burlap smoker fuel in every pocket of my bee suit. Of course, more smoke can keep the queen on the run making her more difficult to find, but there is no choice. These bees respond well to smoke.

4. Work in Slow Motion
Honey bees possess incredible visual capabilities. In fact, a single compound eye of a worker bee contains approximately 6,900 intricate facets or miniature lenses. This remarkable feature allows them to seamlessly integrate mosaic images and effectively detect swift movements. As beekeepers, we can use this knowledge to our advantage by handling the bees more cautiously and minimizing any sudden actions. This becomes an absolute necessity when dealing with a defensive hive.

5. Carry Parts of The Hive Away
When working a very defensive hive and I must continue inspecting 20-30 frames to find the queen, I find it is best to carry one deep hive body twenty feet away. Once I remove it from the hive location and the other hive box, the bees become calmer to work. Moving the boxes apart also prevents the queen from walking up or down into the other hive body.

Finding the queen in a hot hive can be a challenging task, but once located, it brings a sense of satisfaction, especially when it’s time to replace her with a queen that produces gentler offspring. After approximately 45 days, the aggressive bees will perish naturally, making room for a new generation of bees with a more docile temperament. These tips will not only be helpful when working a defensive colony, but can also help every inspection go much better, even in gentle colonies.

If you’d like to watch my YouTube video of this inspection visit: https://www.honeybeesonline.com/davids-youtube-channel

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U.S. Honey Industry Report – 2022 https://www.beeculture.com/u-s-honey-industry-report-2022/ Mon, 05 Jun 2023 12:00:01 +0000 https://www.beeculture.com/?p=44842 USDA Reports with Supplementary by Kim Flottum

Released March 17, 2023, by the National Agricultural Statistics Service (NASS), Agricultural Statistics Board, United States Department of Agriculture (USDA)

United States Honey Production Down One Percent in 2022
United States honey production in 2022 totaled 125 million pounds, down one percent from 2021. There were 2.67 million colonies producing honey in 2022, down one percent from 2021. Yield per colony averaged 47.0 pounds, unchanged from 2021. Colonies which produced honey in more than one state were counted in each state where the honey was produced. Therefore, the United States level yield per colony may be understated, but total production would not be impacted. Colonies were not included if honey was not harvested. Producer honey stocks were 23.3 million pounds on December 15, 2022, down one percent from a year earlier. Stocks held by producers exclude those held under the commodity loan program, which are entered separately.

Honey Prices Up 12 Percent in 2022
United States honey prices increased 12 percent during 2022 to $2.96 per pound, compared to $2.65 per pound in 2021. United States and state level prices reflect the portions of honey sold through cooperatives, private and retail channels. Prices for each color class are derived by weighing the quantities sold for each marketing channel. Prices for the 2021 crop reflect honey sold in 2021 and 2022. Some 2021 crop honey was sold in 2022, which caused some revisions to the 2021 crop prices.

Price Paid for Queens, Packages, Nucs was 22 Dollars in 2022
The average prices paid in 2022 for honey bee queens, packages and nucs were $22, $98 and $129, respectively. Pollination income for 2022 was $241 million, down 11 percent from 2021. Other income from honey bees in 2022 was $55.2 million, down 31 percent from 2021.


Released August 1, 2022, by the National Agricultural Statistics Service (NASS), Agricultural Statistics Board, United States Department of Agriculture (USDA).

January 1, 2021 – Some History
Honey Bee Colonies Down One Percent for Operations with Five or More colonies
Honey bee colonies for operations with five or more colonies in the United States on January 1, 2022 totaled 2.88 million colonies, down one percent from January 1, 2021. The number of colonies in the United States on April 1, 2022, was 2.92 million colonies. During 2021, honey bee colonies on January 1, April 1, July 1 and October 1 were 2.90 million, 2.83 million, 3.17 million and 3.09 million colonies, respectively.

Honey bee colonies lost for operations with five or more colonies from January through March 2022, was 331,780 colonies, or 12 percent. The number of colonies lost during the quarter of April through June 2022, was 282,630 colonies, or 10 percent. During the quarter of January through March 2021, colonies lost totaled 464,640 colonies, or 16 percent, the highest number lost of any quarter surveyed in 2021. The quarter surveyed in 2021 with the lowest number of colonies lost was July through September, with 295,660 colonies lost, or nine percent.

Honey bee colonies added for operations with five or more colonies from January through March 2022 was 367,890 colonies. The number of colonies added during the quarter of April through June 2022 was 589,630. During the quarter of April through June 2021, the number of colonies added were 665,730 colonies, the highest number of honey bee colonies added for any quarter surveyed in 2021. The quarter of October through December 2021 added 93,940 colonies, the least number of honey bee colonies added for any quarter surveyed in 2021.

Honey bee colonies renovated for operations with five or more colonies from January through March 2022 was 187,180 colonies, or seven percent. During the quarter of April through June 2022, the number of colonies renovated were 492,410 colonies, or 17 percent. The quarter surveyed in 2021 with the highest number of colonies renovated was April through June 2021 with 475,750 colonies renovated, or 17 percent. The quarter surveyed in 2021 with the lowest number of colonies renovated was October through December 2021, with 146,520, or five percent. Renovated colonies are those that were requeened or received new honey bees through a nucleus (nuc) colony or package.

Varroa Mites Top Colony Stressor for Operations with Five or More Colonies
Varroa mites were the number one stressor for operations with five or more colonies during all quarters surveyed in 2021. The period with the highest percentage of colonies reported to be affected by varroa mites was April through June 2021 at 50.7 percent. The percent of colonies reported to be affected by varroa mites during January through March 2022 and April through June 2022 are 33.7 percent and 45.2 percent, respectively.

Colonies Lost with Colony Collapse Disorder Symptoms Up 12 Percent for Operations with Five or More colonies
Honey bee colonies lost with Colony Collapse Disorder symptoms on operations with five or more colonies was 86,070 colonies from January through March 2022. This represents a 12 percent increase from the same quarter in 2021.

If you want to explore USDA’s survey results further, start here:
Access to NASS Reports are available for your convenience, you may access NASS reports and products the following ways:

    • All reports are available electronically, at no cost, on the NASS website: www.nass.usda.gov.
    • Both national and state specific reports are available via a free e-mail subscription. To set-up this free subscription, visit www.nass.usda.gov and click on “National” or “State” in upper right corner, above the “search” box to create an account and select the reports you would like to receive.
    • Cornell’s Mann Library has launched a new website housing NASS’s and other agency’s archived reports. The new website: https://usda.library.cornell.edu. All email subscriptions containing reports will be sent from the new website, https://usda.library.cornell.edu. To continue receiving the reports via e-mail, you will have to go to the new website, create a new account and re-subscribe to the reports. If you need instructions to set up an account or subscribe, they are located at: https://usda.library.cornell.edu/help. You should whitelist notifications@usdaesmis.library.cornell.edu in your email client to avoid the emails going into spam/junk folders.

Per Capita Consumption, 2022
We calculate this figure each year using data from USDA ERS, NASS, ERS, FARM SERVICE and the U.S. Census Bureau. From these sources we determine how much honey entered the system, how much honey left the system, how much was used, how much wasn’t used and the population on July 1, 2022. These figures include U.S. production, U.S. exports, honey put under and taken out of the loan program and honey remaining in storage, plus how much was imported from off shore. Essentially, it’s a measure of honey in minus honey out. The resultant figure, divided by how many people were here on that particular date results in how much honey was consumed by each and every individual in the U.S. last year. And yes, you are correct, not every person eats honey, but by producing this figure on an annual basis, we are able to compare apples to apples each year in honey consumption.

The chart compares these figures for the previous 13 years. We’ve included the USDA’s price of all honey for comparison too.

Honey Into the U.S., 2022
U.S. beekeepers with more than five colonies in 2022 produced, according to USDA, 125.3 million pounds of honey. The Honey Board calculates that an additional eight million pounds or so are produced by those with fewer than five colonies for a total production of 133.3 million pounds. Additional honey in figures include 23.3 million pounds taken out of warehouses from last year, two million pounds taken out from last year’s loan program and a whopping 260.9 million pounds imported for a rough total of 419.5 million pounds of honey in, during 2022. This honey sold, on average, wholesale, retail and specialty honey for $2.96/pound, according to USDA figures. Commercial beekeepers in the U.S. will tell you to make a living, this price should be about the same price as diesel fuel. Take a look next time you are at the gas station.

Honey Out of U.S. Stock, 2022
For the honey out figure, we exported nearly 12.3 million pounds to other countries, have nearly 23.3 million pounds still sitting in warehouses and put just under two million under loan, for a total of about 38 million pounds of honey produced in 2022 that were moved out of the U.S. figures for 2022.

The July 1, 2022 population was right at 333.3 million people in the U.S. So, to calculate per capita consumption, subtract honey out (put under loan, exported or still in warehouses) from honey in (honey produced this year, left over from last or imported) and divide by 333.3 million, for a total of 382 million pounds consumed in the U.S. last year. Divide this by 333 million people which gives you about 1.2 pounds of honey per person consumed by people in the U.S. during 2022, the lowest since 2012.


The top 10 producing states produced a total of $8,844,300 with a total of 1.879 million colonies. This comes to 70.4% of the U.S. colonies, and 70.6% of total dollar value.
The top three producing states had a total of 982,00 colonies, producing a total of $51,111,000. This comes to 36.8% of all colony production in the U.S. in 2022, producing 57.8% of total production dollars. Moreover, these three states produced 36.8% of all the colonies in the U.S. in 2022.

Top 10 Producing States
The places that yield the most honey every year are pretty much determined by the climate, the soil, agriculture and politics. The crops grown, or not grown in a region certainly play a role in what can be found relative to nectar, pesticides and regulations relative to how many colonies you can put on any given acre, that won’t starve after a couple of months. Of course, government conservation programs lend a hand here too.

We’ve been curious about this for the last eight years or so, just because it’s interesting to see what changes, and what doesn’t. The Dakotas, California, Montana, Florida, Minnesota, and Texas are almost always in the top eight, with the last two changing occasionally: New York, Louisiana, Georgia, Idaho, Michigan and perhaps a few others round out these performers.

This year provided few surprises in who is on the list, and the totals for the top 10 this year were essentially where they always are relative to the number of colonies counted in these states and the amount of honey produced. Again, these states produced 70% of all of the honey produced in the U.S., and had 70% of all the colonies in the U.S. sitting somewhere within their borders. It’s pretty clear that what happens in these few states is going to determine the U.S. crop.

But, just because we can, this year we looked at the contributions of the top three states, for almost every year, the Dakotas and Texas. Combined, they held on to 52.3% of the colonies used last year and produced just over 40% of all the honey U.S. beekeepers made last year. This means, of course, that 52% of the colonies, and 60% of the U.S. honey crop is spread out over the remaining 47 states. You can see this comes to just under 1%/state. That sort of puts us in our place, doesn’t it? This extreme unbalanced situation commands notice, then, as to what will happen when climate change erodes, or doesn’t, weather patterns in these three states including rainfall, Summer and Winter temperatures, farming practices and conservation practices.

Already, drought in the western third of the U.S. is having an effect, not only on the bees, but their forage and the crops they pollinate as well. Like it or not, we are at the mercy of big weather – call it climate change or whatever – it’s dry out there!


Released January 11, 2023, by the National Agricultural Statistics Service (NASS), Agricultural Statistics Board, United States Department of Agriculture (USDA)

Pollination Costs and Income, 2022
Cost Per Colony to Pollinate Almond Up 13 Percent from 2017
In Regions 6 & 7, the average cost per colony for almonds increased 13 percent from 171 dollars per colony in 2017 to 194 dollars per colony in 2022. The average price per acre increased from 272 dollars per acre to 336 dollars per acre during that period. The total value of pollination for almonds increased 44 percent. Almonds were the highest valued crop in that region. The total value of all pollination in Regions 6 & 7 for 2022 was 387 million dollars, up 42 percent from 2017.

Blueberries had the highest total value of pollination of crops reported in Region 1 in 2022. The price per colony for blueberries increased 27 percent to 98.4 dollars per colony in 2022. The price per acre increased 42 percent to 179 dollars per acre. The total value of pollination for blueberries in Region 1 for 2022 was 8.56 million dollars. The total value for pollination of all crops in Region 1 for 2022 was 21.9 million dollars, up 33 percent from 2017.

Blueberries had the highest total value of pollination of crops reported in Region 2 in 2022. The price per colony for blueberries increased 40 percent to 78.3 dollars per colony in 2022. The price per acre increased 63 percent to 139 dollars per acre. The total value of pollination for blueberries in Region 2 for 2022 was 3.60 million dollars. The total value of pollination of all crops in Region 2 for 2022 was 6.60 million dollars, up 10 percent from 2017.

Watermelons had the highest total value of pollination of crops reported in Region 3 in 2022. The price per colony for watermelons increased 38 percent to 76.9 dollars per colony in 2022. The price per acre increased 57 percent to 100 dollars per acre. The total value of pollination for watermelons in Region 3 for 2022 was 1.85 million dollars. The total value of pollination of all crops in Region 3 for 2022 was 7.39 million dollars, up eight percent from 2017.

Apples had the highest total value of pollination of crops reported in Region 4 in 2022. The price per colony for apples increased three percent to 51.7 dollars per colony in 2022. The price per acre decreased slightly to 41.0 dollars per acre. The total value of pollination for apples in Region 4 for 2022 was 114 thousand dollars. The total value of pollination of all crops in Region 4 for 2022 was 628 thousand dollars, down 27 percent from 2017.

Apples had the highest total value of pollination of crops reported in Region 5 in 2022. The price per colony for apples increased 12 percent to 58.3 dollars per colony in 2022. The price per acre increased 36 percent to 62.8 dollars per acre. The total value of pollination for apples in Region 5 for 2022 was 6.59 million dollars. The total value of pollination of all crops in Region 5 for 2022 was 17.5 million dollars, up four percent from 2017.

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Beekeeping’s Future https://www.beeculture.com/beekeepings-future/ Thu, 01 Jun 2023 12:00:42 +0000 https://www.beeculture.com/?p=44694
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Beekeeping’s Future

Despite enormous environment challenges facing the honey bee and beekeepers, there are a number of reasons to believe that the beekeeping industry is better able to withstand the uncertain future than other agricultural industries.

By: Ross Conrad

Much has been written and said about the numerous pesticide, pest and pathogen issues beekeepers are wrestling with, as it should be. What has gotten somewhat less attention is the threat that impacts all beekeepers and honey bee colonies everywhere in the world because it threatens everyone, everywhere: the climate crisis. Across the globe, climate-induced temperature extremes, droughts and floods have in some cases had a positive impact on crops. Unfortunately, the general effect of climate destabilization has been an overall reduction of crop yields (IPCC, 2022). Reduced yields lead to increases in hunger, and the resulting malnutrition related diseases, poverty and dislocated populations of climate refugees worldwide.

Climate impacts are predicted to be most severely felt throughout South, Central and much of North America. As well as Africa, Australia and parts of Asia.

Bees sip rather than gulp
To date, beekeeping and honey production has proven itself to be more resilient to climate disruption than other agricultural crops. Of course apiaries can be devastated by floods that wash away hives, or wildfires that turn colonies to ash, but bees handle drought better than other agricultural pursuits. This is because they simply require less water than most crops and livestock.

For example, farmers in Zimbabwe have found that honey production is proving to be relatively stable even while crop production in general has decreased, or in some cases totally failed (Mambondiyani, 2023). This has led to an increase in beekeeping in parts of the African continent. A side benefit from the proliferation of beekeepers is that African apiaries are helping to conserve precious vegetation in arid regions, as villagers avoid cutting trees near apiaries out of fear of the bees.

Diverse forage
One of the reasons beekeeping is proving itself to be more resilient to our changing climate is because bees often forage on wild plants and are not totally dependent on agricultural crops. This is an important trait since feral and native vegetation are often more drought tolerant than cultivated crops. Wild and indigenous plants can make up for decreased foraging opportunities when agricultural crops suffer reduced nectar and pollen production from a lack of water. The wide foraging area that honey bee colonies utilize (over three miles in every direction) helps ensure that any plants within foraging range that do have access to water and are in bloom, will be discovered by the bees.

Modest land requirements
Compared to other agricultural endeavors, beekeeping activities require the least amount of land, so farmers are often able to add honey production to their farm plan without sacrificing space for other crops. Apiaries can also utilize infertile land, or areas otherwise not suitable for other forms of agriculture.

Since beekeeping doesn’t modify or permanently alter the area in which it is carried out, it is fairly easy for an apiculturist who doesn’t own property to find land owners that are happy to provide apiary accommodations on their property. This helps make beekeeping the most accessible of all agricultural efforts, especially in third world countries and among populations with modest incomes since land ownership is not a necessary requirement to keep bees.

The pollination dividend
Through the act of pollination, honey bees increase crop quality and yields, an attribute that often causes landowners to seek out beekeepers willing to place bees on their land. Instead of being accused of stealing from neighboring farms, beekeepers receive praise for the pollination services they provide. The pollination action of bees also helps ensure the presence of wild and native species of plants and trees, which indirectly benefits wildlife as well.

Climate destabilization is making things harder for farmers, especially in arid regions like Africa.

A model of sustainability
Beekeeping is not only proving to be somewhat more resilient in the face of climate destabilization, but it can be part of the climate solution. Depending on how it is carried out, the perennial nature of beekeeping provides the potential to have one of the smallest environmental footprints in all of agriculture (Mujica et al., 2016; Moreira et al., 2019; Pignagnoli et al., 2021). The bees do most of the work. The biggest energy demands of beekeeping are in traveling to and from apiaries or migratory pollination sites. Significant energy is also required for extracting, bottling and processing of honey and beeswax. By keeping beeyards close to the honey house or farm that need pollination services, using renewable energy sources for processing, and non-plastic packaging, many of the negative climate and environmental effects of apiculture can be reduced, if not eliminated.

Since every beekeeping operation is different it can be difficult to pinpoint the exact ecological footprint of beekeeping in general. Much depends of the variety of practices such as feeding regimens, treatment practices, honey yields and shipping and transportation distances used by the beekeeping operation. Migratory beekeeping operations for example have been shown to have greater disease problems and results in bees more likely to have compromised immune systems, all of which increases the need for treatments and expensive inputs (Brosi et al., 2017; Simone-Finstrom et al., 2016; Gordon et al., 2014; Jara et al., 2021). Generally speaking, the ecological footprint of backyard beekeepers is more than three times as small as your standard commercial beekeeping operation (Kendal et al., 2011).

Unlike most agricultural activities, the very nature of the beekeeping business model provides the potential to be more sustainable. Vegetable, grain and fruit farmers typically need to buy new seed, fertilizer and agrochemicals annually, while providing tilling, irrigation and weed control. Beekeeping is a perennial activity. Beekeepers can use the same hives season after season, and as long as they are able to keep their bees alive, the need to purchase expensive inputs on a yearly basis is minimized.

It is easy to focus on all the challenges and fall into a “Woe is me” attitude considering the constant flow of bad news facing our industry. While I am not saying that things are going to be easy, there are plenty of reasons to believe that the future of beekeeping is more secure than other agricultural industries, many of which are profitable only because they are being propped up by government subsidies and taxpayer dollars. Beekeeping has the potential to provide one of the most stable and sustainable agricultural business models during the uncertain climate future that threatens to destabilize much of agriculture as it is practiced today. While beekeepings’ ecological footprint is already better than most other forms of agriculture, we can improve the current carbon footprint of the industry by finding ways to reduce emissions by minimizing transportation and shipping distances of bees, increasing the adoption of stationary beekeeping practices and by localizing, or at least regionalizing our business models.

Many beekeepers initially get involved in this ancient craft out of a concern and desire to benefit the natural world, a world that is rapidly changing and not always for the better. Thankfully, beekeeping appears to be better situated than most of agriculture to weather the unstable and uncertain future that is envisioned. Despite the numerous very real and serious threats to honey bees, there is good reason to think that beekeeping, and therefore honey bees themselves, will continue for as long as the planet’s ecosystem can support it and us.

Ross Conrad is author of Natural Beekeeping: Revised and Expanded, 2nd edition, and The Land of Milk and Honey: A history of beekeeping in Vermont.

References:
Brosi, B.J., Deleplane, K.S., Boots, M., De Roode, J.C. (2017) Ecological and evolutionary approaches to managing honey bee disease, Nature Ecology & Evolution, (1)1250-1262
Gordon, R., Schott-Bresolin, N., East, I.J. (2014) Nomadic beekeeper movements create the potential for widespread disease in the honey bee industry, Australian Veterinary Journal, 92:283-290
IPCC Sixth Assessment Report: Food, Fiber and Other Ecosystem Products
Jara, L., Ruiz, C., Martin-Hernandez, R., Munoz, I., Higes, M., Serrano, J., De la Rua, P., (2021) The effect of migratory beekeeping on the infestation rate of parasites in honey bee (Apis mellifera) colonies and on their genetic variability, Microorganisms, 9(22)
Kendall, A., Yuan, J., Brodt, S.B., Kramer, K.J. (2011) Carbon Footprint of U.S. Honey Production and Packaging – Report to the National Honey Board, University of California, Davis, pp 1-23
Mambondiyani, Andrew (2023) Why farmers in Zimbabwe are shifting to bees, Yes!
Moreira, M.T., Cortes, A., Lijo, L., Noya, I., Pineiro, O., Lopez-Carracelas, L., Omil, B., Barral, M.T., Merino, A., Feijoo, G. (2019) Environmental Implications of honey production in the national parks of northwest Spain,
Mujica, M., Blanco, G., Santalla, E. (2016) Carbon footprint of honey produced in Argentina, Journal of Cleaner Production, 116(10): 50-60
Pignagnoli A, Pignedoli S, Carpana E, Costa C, Dal Prà A. (2021) Carbon Footprint of Honey in Different Beekeeping Systems. Sustainability. 13(19):11063. https://doi.org/10.3390/su131911063
Simone-Finstrom, M., Li-Byarlay, H., Huang, M.H., Strand, M.K., Rueppel, O., Tarpy, D.R. (2016) Migratory management and environmental conditions affect lifespan and oxidative stress in honey bees, Scientific Reports, 6(1):32023

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Study Hall https://www.beeculture.com/study-hall-2/ Thu, 01 Jun 2023 12:00:39 +0000 https://www.beeculture.com/?p=44900 From the Editor
By: Jerry Hayes

Lots of colony losses once again in 2023. There are three words I want you to remember: Varroa, Varroa, Varroa. And disappointingly, the majority of the beekeeping industry is still not using the Honey Bee Health Coalition vetted, accurate and usable Tools for Varroa Management Guide.

Varroa mites and the Varroa Virus legacy will KILL your honey bees.

In order to be a good manager of your honey bee colonies and reduce/stop losses from Varroa/Virus you, the beekeeper, need to be on your ‘game’ and be a Beekeeper not a Bee-haver.

The Honey Bee Health Coalition (HBHC) has the developed the key educational outreach tool for Varroa control titled, Tools for Varroa Management, A Guide to Effective Varroa Sampling & Control. The latest edition can be found at https://honeybeehealthcoalition.org/wp-content/uploads/2022/08/HBHC-Guide_Varroa-Mgmt_8thEd-081622.pdf. It is based on Federal and State registered, legally approved products which require beekeepers to ALWAYS following label directions. This is all you really need to successfully manage for Varroa control in your colonies. To get you started, we will share some overview of what you need to think about and actually do.

In the Tools Guide each product will have the following individual points in a table: Name, Active Ingredient, Formulation, Route of Exposure, Treatment Time/Use Frequency, Time of Year, Registrant-reported Effectiveness, Conditions for Use, Restrictions , Advantages, Disadvantages, Considerations and a link to a Use Video.

Here we are only going to share Name, Active Ingredient and Conditions for Use, to get you started.

INTEGRATED PEST MANAGEMENT (IPM) is a set of proactive, control methods that offer beekeepers the best “whole systems approach” to controlling varroa. See Tools Guide, pages 6-12.

ESSENTIAL OILS
Tools Guide pages 19-20

Name – Apiguard and Thymovar
Active Ingredient – Thymol
Conditions of Use – Temperature range restrictions: Apiguard – above 59°F and below 105°F (15°C to 40°C), Thymovar: above 59°F and below 85°F (15°C to 30°C).

Name – ApiLife Var
Active Ingredients – Thymol (74.09%), Oil of Eucalyptus (16%), Menthol (3.73%) = camphor ( essential oil)
Conditions of Use – Divide wafer into four pieces and place each piece in a corner of the hive on the top bars. Use between 65°F and 95°F (18°C to 35°C). Ineffective below 45°F (8°C).

NON-CHEMICAL / CULTURAL CONTROLS
Tools Guide pages 26-30

Name – Screen Bottom Board
Conditions for Use – Replace hive bottom; leave space below for trash (‘garbage pit’).

Name – Sanitation (bee biosecurity) comb management
Conditions for Use – Possible negative effect on bee population if five or more combs are moved at one time.

Name – Drone Brood Removal (Drone Trapping Varroa)
Conditions of Use – Only applicable during population increase and peak population when colonies are actively rearing drones.

Name – Brood Interruption
Conditions of Use – Need a queen or queen cell for each split or division created.

Name – Requeening (Ideally with varroa resistant stock)
Conditions of Use – Works best with proper queen introduction methods.

SYNTHETIC CHEMICALS
Tools Guide pages 16-18

Name – Apivar
Active Ingredient – Amitraz (formadine acaricide/insecticide)
Conditions for Use – Place one Apivar strip per five frames of bees. Place strips near cluster or if brood is present, in the center of the brood nest. Only use Apivar in brood boxes where honey for human consumption is NOT being produced.

Name – Apistan
Active Ingredient – Tau-fluvalinate (pyrethroid ester acaracide/insecticide)
Conditions for Use – Temperatures must be above 50°F (10°C). Do not use during nectar flow.

Name – Checkmite
Active Ingredient – Coumaphos (organothiophosphate acaracide/insecticide)
Conditions for Use – Wait two weeks after use before supering.

ACIDS
Tools Guide pages 21-25

Name – Mite-Away Quick Strips
Active Ingredient – Formic Acid (organic acid)
Conditions of Use – Full dose (two strips for seven days) or single strip (seven-day interval then single new strip for an additional seven days) per single or double brood chamber of standard Langstroth equipment.

Name – Formic Pro
Active Ingredient – Formic acid (organic acid)
Conditions of Use – Both treatment options can be applied per single or double brood chamber of standard Langstroth equipment or equivalent hive or equivalent hive with a cluster covering a minimum of six frames. There should be a strip touching each top bar containing brood. Use when outside day temperature is 50°F to 85°F (10°C to 29.5°C)

Name – 65% formic acid
Active Ingredient – Formic acid 65%
Conditions of Use – Use when outside temperatures are between 50°F to 86°F (10°C to 30°C) and leave hive entrances fully open

Name – Oxalic Acid / Api-Bioxal
Active Ingredient – Oxalic acid dihydrate (organic acid)
Conditions of Use – Mix 35 grams (approximately 2.3 tablespoons) of oxalic acid into one liter of 1:1 sugar syrup. With a syringe trickle five milliliters of this solution directly onto the bee in each occupied bee space in each brood box; Maximum 50ml per colony of oxalic acid in sugar syrup; fumigation of two grams per hive in Canada and one gram per hive box in the U.S.; follow label and vaporizer directions.

Name – HopGuard 3
Active Ingredient – Potassium salt (16%) of hops beta acids (organic acid)
Conditions of Use – Corrosive—use appropriate clothing and eye protection. Might stain clothing and gloves.

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Found in Translation https://www.beeculture.com/found-in-translation-38/ Thu, 01 Jun 2023 12:00:19 +0000 https://www.beeculture.com/?p=44692 https://www.beeculture.com/wp-content/uploads/2023/06/EvansFoundTransJune2023.mp3
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Found in Translation

Teaching Bees New Tricks

By: Jay Evans, USDA Beltsville Bee Lab

Bees have innate (think ‘robo-bee’) and learned (‘show me, sister’) behaviors. Recent work with bees has explored the boundaries of these two forms. While it is dangerous to put our own biases on animal behaviors, the complex behaviors measured seem to include ‘play’, ‘puzzling’ and ‘dancing’. Oh yeah, and they can count as well, even showing an awareness of ‘zero’ things, but that was yesteryear’s news from Scarlett Howard and colleagues (Numerical ordering of zero in honey bees, 2018, Science, DOI: 10.1126/science.aar4975).

What is fascinating about work coming out just this year is that not only do bees show complex behaviors, but they seem to get better at those behaviors by watching their nestmates. Bee dances will be familiar to most beekeepers and students of animal behavior. Successful foragers often tell their sisters where the good stuff is after finishing their foraging flights. Specifically, foragers signal both direction and distance to flower sources using the waggle dance. True to its name, and shown graphically to the right, this dance involves a bee streaking across the comb and shaking its abdomen for the edification of sister foragers. The angle of this dance on a vertical patch of comb signals the direction of a good food source relative to the current position of the sun relative to the hive. The length of each dance streak provides an estimate of the distance to flower patches (or to sugar baits planted by curious naturalists). By repeatedly dancing, they drum up interest and lead future foragers to a better understanding of how far they might have to fly to get these rewards. The discovery of this dance language is decades old, and justified a share of the Nobel Prize in Physiology or Medicine in 1973 for Austrian bee researcher Karl von Frisch. The recent work ups the game by showing that much of this behavior is learned by watching older, more precise, dancers.

Shihao Dong and colleagues set out to study Social signal learning of the waggle dance in honey bees (2023, Science, DOI:10.1126/science.ade1702). Specifically, they judged the dancing skills of self-starters relative to those of bees that were mentored by older, experienced, dancers. To produce a swarm of naïve dancers, they established colonies comprised solely of like-aged bees, so that all bees reached foraging age together and were therefore less likely to benefit from matching the skills of a senior dancer. Bees from these ‘Animal Farm’ colonies were compared to marked bees of the same age which had grown up gazing at the dances of experienced dancers in colonies with a typical age profile. Naïve bees consistently over-stated the distance they had flown to flowers, in effect telling nestmates to fly right past suitable food sources. They also showed more ‘Dance Disorder’ than both older bees and bees that had been exposed to older dancers. Dance accuracy for all dancers improved over time, it just improved much more quickly when bees had older mentors to watch. So what is the lesson here for beekeepers? No, you can’t force your teenager to watch you dance and expect them to get it, but you CAN see how bees in colonies with an abnormal age structure, thanks to rapid premature death of foragers, might continue to slide by spending unnecessary time looking for food. Long-lived bees are those free of chemical stress, raised with adequate protein nutrition, and arguably bees that have avoided mites and other disease. When you protect your bees from these stresses, just think of how their dance lives will improve.

In a study that, for me, deserved two SMH’s, bees were trained to take on puzzle behaviors, or behaviors that simply don’t present themselves to bees when scientists aren’t around. Working with bumble bees, Alice Bridges and colleagues first taught their bees to open small food boxes by pushing on colored (red or blue) tabs. This a behavior I am not sure I could teach my dog, but she is a bit slow. They then checked to see if bees could follow the lead of a nestmate who had already figured out the box trick. While self-learners emerged in the control colonies sometimes got the knack for opening boxes, bees who observed a nestmate open a box were more likely to successfully mimic that behavior. Over time, bees with a teacher opened more boxes, faster, and were rewarded with more sugar treats. Honey bees and some other bee species are known to spontaneously ‘rob’ flowers by chewing directly into nectar pools when those pools are too deep in the flower for their tongues to reach. It would be neat to see if such nectar robbing is also a learned trait, passed on by adventurous foragers who had to learn the trait the hard way. If so, can such teachers target their lessons to their nestmate sisters?

All of these studies push the known boundaries for bee awareness and behavior, showing all the more how lucky we are to have formed bonds with honey bees and other insects. Clever behavioral scientists will no doubt continue to discover profound, and maybe a bit unsettling, awareness by insects. This awareness is likely to be most evident in the highly social honey bees and bumble bees. What’s next, spelling bees? Stay tuned. In the meantime, get out, find a friend and improve your dancing.

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Honey Bee Cannibalism https://www.beeculture.com/honey-bee-cannibalism/ Thu, 01 Jun 2023 12:00:03 +0000 https://www.beeculture.com/?p=44701 https://www.beeculture.com/wp-content/uploads/2023/06/June-2023.mp3
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Honey Bee Cannibalism

And some other quirks of our beloved bees

By: James E. Tew

I don’t know how to start this conversation
A question came to me that found me unprepared and uneducated on the queried subject. This is not an uncommon situation for me. I have an abundance of bee questions for which I have no answer, but my interest in this question lingered far beyond its derived answer.

Becca F., a beekeeper friend from north Florida, phoned to ask me, “Why are some of the bees in one of my colonies eating some of its brood?” The colony in question was from a cut-out (A “cut-out” is a colony that originated when a beekeeper relocated it from a natural nest site, such as a hollow tree or the wall of a house, to standard hive equipment.)  from late last season. Other than some destroyed brood, all other biological characteristics of the colony seemed in good order. You should know that, at the time of the phone call, the 2023 Spring season was well underway in Becca’s area.

From nearly nine-hundred miles away, I really could not say what was causing this disappointing behavior in her distant colony, but I felt that we could, at least, narrow the possible reasons. Narrowing the issue is not the same as answering the issue. If there is a food shortage (probably protein) or if a perceived pathogen is present, I surmised that nurse bees sometimes eat larval brood. I proffered a guess that if all other brood stages seemed healthy, and copious food stores were present, and a pollen and nectar flow was still yet to come, this mysterious issue would most likely resolve itself.

Figure 1. Small Hive Beetles, the cause of brood destruction.

Indeed, it did. Apparently, a Small Hive Beetle (SHB) population had grown within the colony to the extent that some of the bee brood was damaged. Selected bees were striving to regain control of the situation and were eliminating damaged or dead brood. Providing some beetle traps and some microfiber cloths seemed to help the bees regain control in the afflicted colony.

From afar, I was able to do nothing that was helpful. The beekeeper and the bees had seemingly won this battle, but the situation lingered in my thoughts. That some of the bees from one of Becca’s colonies was actually killing and eating some of its brood was a curiosity that stayed with me. Such cannibalism is documented colony behavior in the beekeeping literature. You and I both know that fact, but exactly how does it work? When and why does it work?

Through the decades
Through the passing decades, many times I have alluded to the fact that bees will, at times, “eat” some of their young. With superficial confidence, I have told audiences that these cannibalistic bees are selecting older larvae first. Why? Older larvae are the colony’s major food consumers. Younger larvae seemingly would be on the short list and would be consumed as the older larvae were eliminated. Honey bee eggs will have not yet become food consumers and developing pupae have already completed the eating stage. They are reasonably safe. However, larval stages would be in serious trouble if food stores were stressed.

For hygienic reasons, bees will also remove diseased brood from the colony. At this point, I have few answers, but many questions. Will nurse bees intentionally consume the larval contents as they dispose of their diseased brood? If so, are they re-purposing the larvae’s fluid contents as food or are they removing the contents to expedite getting the dead brood member to the colony entrance? Or both? I have more comments on this concept later in this piece.

Mature honey bees
Let’s just get this out of the way. I cannot recall of an instance where it was documented that an adult bee consumed another adult honey bee. Maybe – and completely hypothetically – I suppose that under specific undocumented situations, if a nectar-ladened worker was killed (i.e., crushed, mashed or just died) and the contents of her honey crop was somehow available, that sweetness could be of interest to other living house bees.

Yes, that scenario is a wildcard, but a scenario like that one is the only incident in which I can envision an adult bee having an interest in cannibalistically eating some of the contents of another adult bee. So again, adult honey bees do not see other adult bees as a food supply.

Maybe for another time, and on a different subject, birds, toads, spiders and other insects certainly do view adult honey bees as food sources. Adult honey bees are readily eaten by these animal species.

Laying workers
When lauding the productivity of a beautiful queen, I have sometimes stated to audiences that, “Nurse bees will police any defective or incorrectly placed brood by eating/removing it.” In effect, this has the effect of making the queen’s output look very good because the workers corrected her mistakes. Well, in a way, she is good at her genetic job, because her offspring had that innate ability. But what about defective queens or even laying workers?

Though I feel a bit shaken, I still support the concept that healthy workers will eat/remove laying worker eggs when they find one. Just exactly how the worker perceives the defective egg is far beyond my knowledge. But I again write that I have lost some of my nerve. Are the workers eating the haploid egg or only removing it? I have been told, and I have re-stated to others, that viable workers truly eat the defective egg.

Indeed, I have read, and subsequently repeated to others, that to a greater or lesser extent, laying worker eggs are commonly found even in healthy colonies – especially when the brood and adult population are high and healthy queen pheromone levels are stretched across the large population. During those times, viable adult workers are constantly removing these sly, worker-laid eggs. Then again, I would boldly say to an audience, “They eat them.”

Whereas, I was once confident in this statement, I have recently grown more reticent. In my fifty plus years of beekeeping, I have never seen an egg anywhere but in a cell. Are these undesirable eggs really being eaten or did I simply not notice a tiny, white egg laying outside on the landing board as it was being discarded? I don’t know. Maybe I just missed it. I will try to be more observant.

Immature queens and drones
I feel that you and I could agree that immature queens and drones are “eliminated” when they are no longer needed. Queen cells are frequently torn down and contents removed if such cells are unneeded.

Figure 2. Dismembered drones at the colony entrance.

As have you, I have seen partially dismembered drones that were being removed from cells. Were they dismembered to ease the removal process or were juices and cellular fluids consumed? I don’t know. I offer this thought at this point; I dangerously assume that liquid contents would be eaten – if for no other reason that nest cleanliness.

Hygienic behavior
Where would honey bees be without this cleanliness behavior? Queen breeders select for this attribute. Scientific careers have been built on this concept. We wish all our queen stocks exhibited this characteristic. But there are instances when the process turns negative for both the bees and their keepers.

For instance, while removing infected brood, nurse bees’ brood food glands may become contaminated with bacterial spores of American foulbrood (AFB). Those nurse bee carriers then feed susceptible young larvae along with pathogenic bacterial spores that perpetuates AFB within the colony’s young brood population. In many presentations, I considered it humorous to tell audiences that nurse bees did not have small stainless-steel buckets and cleaning cloths. Therefore, the only way they could remove the diseased larval debris was to eat it. In retrospect, this may not have been as funny as I thought.

There is abundant published literature (2Posada-Florez, F., Lamas, Z.S., Hawthorne, D.J. et al. Pupal cannibalism by worker honey bees contributes to the spread of deformed wing virus. Sci Rep 11, 8989 (2021). https://rdcu.be/c8o25) that explains how hygienic cleaning spreads deformed wing virus. At this point, I am left with nothing to write. If the colony does not keep itself immaculate, the viral disease spreads. If it cleans itself and keeps colony conditions immaculate, the viral disease spreads. This is a true conundrum.

This spread occurs because bees are in direct contact with virus particles as they clean/eat the diseased brood. I sense that the best solution is to prevent varroa-vectored viruses from gaining a hold in the colony; therefore, the alert beekeeper should constantly suppress varroa populations. At this point, I am forced to admit that if I don’t manage varroa first, I will have much greater problems managing my bees later. This too, is a topic for another time.

Seasonal adjustments
It’s harsh. As humans, we are nearly unable to tolerate the concept, but to bees, brood is potentially food in a form other than bee bread or honey. At this moment, as I write for you, my Spring season is just beginning. Maple is in bloom as are other early season food sources. So, of course, the weather swings between being nice and warm to absolutely wintry.

If my bees have been on time, there is a significant brood population being developed within my colonies. Suddenly, due to cold weather returning, there is no pollen coming in. Not only must the brood be fed, but it be kept warm. What should nurse bees do? It seems that they heartlessly cut their losses. If they perceive that protein is in critically short supply, they stop feeding the oldest larvae, consume them to re-purpose their body fluids to power their nurse bee brood-food glands, and await the restart of the seasonal pollen flow. Such seasonal fluctuations occur everywhere, not just cold climates.

During serious dearths, using brood as food is a brutal but logical thing to do. Could it then be written that bees’ diet is honey, pollen and in trying times, its own bee brood? Yes, this seems harsh to human beekeepers.

Honey bees eating process
Through the years, I have spent significant time trying to understand the “chewing-lapping” mouthparts system that bees use to consume their food. While I think I understand the basics, I readily admit that I do not grasp the finer details of this complicated process. Lacking typical chewing jaws and essentially only consuming a liquid diet, how do bees actually eat a larva? Indeed, how does a bee eat pollen or anything else solid?

Figure 3. The complex honey bee mouthparts (Snodgrass)

While searching a plethora of complex literature on honey bee mouthparts, I stumbled across a very old pamphlet from the Smithsonian Miscellaneous Collections by N.E. McIndoo (3McIndoo, N.E. 1906. The sense organs on the mouthparts of the Honey Bee. Smithsonian Miscellaneous Collection, Vol 65, No. 14. https://repository.si.edu/bitstream/handle/10088/23540/SMC_65_McIndoo_1916_14_1-55.pdf?sequence=1&isAllowed=y). This author reported that bees, using enzymatically reducing saliva, convert some solids to liquid forms thereby allowing the bees to “drink” the heretofore solids. Alternatively, if the solids are small enough, other supporting mouthparts, “in crane-like fashion” lift the small particles to the bee’s mouth where they are subsequently swallowed. For the hyper-interested reader, in clearer description, this bit of information was deeply buried in the fifty-five-page document and can be found on pages 39-41.

An aside…
Through the years, I have admonished honey bee enthusiasts to understand and respect all insect and animal life – not just honey bees. All species have some astonishing characteristics and abilities that seemingly make them stand above their other animal peers. Ergo, honey bees are amazing, but so are many other animal species. But I want to get sappy for a bit. The function and complexity of honey bee mouth parts astound me. Admittedly, I am not a honey bee anatomist, so I struggle to understand this complex system that honey bees whimsically use. I suggest that these hidden mouth parts and their functions are every bit as elegant as the dance language behavior and orienting capabilities of honey bees. In my opinion, bees’ mouthparts deserve more respect than they have gotten.

So, are honey bees vegetarian?
Under dire conditions, some bees will eat some of the colony’s developing brood. Can we agree on that point? If that is true, then can it be stated that honey bees are vegetarians? Maybe not. In fact, things are even more complicated. When bees gather and store pollen, they also collect microbes that live on and in pollen4. Those microscopic animals are also eaten by bees. Some researchers feel that this “meat” is an important overlooked food nutrient for honey bees. As you would expect, this is causing some consternation within scientific circles, but the concept seems to have a toehold at this time. So, are honey bees truly vegetarian? Maybe not.

Just one more thing – robbing behavior
I am out of space, but just one more thing. If robbing bees are maniacal for any food from anywhere, why do they not murder all the larvae in the colony being robbed and imbibe their body fluids? Do they? Honestly, I have never looked. Those large larvae are certainly a potential food source in the weakened colony.

As you know, a robbing episode is NOT the best time to pull all brood frames out of the robbed colony to have a look at whether larvae have been killed, but maybe I should have a look just one time. Please let me know if you see something in your robbed colonies.

Thank you.
To Becca and her bees, I offer a thank you for spurring me to think. To the readers who struggled through this piece, I thank you for your time and dedication to our bees.

Dr. James E. Tew
Emeritus Faculty, Entomology
The Ohio State University
tewbee2@gmail.com

Co-Host, Honey Bee
Obscura Podcast
www.honeybeeobscura.com

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