In 1998, as I began my journey into the world of bees, it didn’t take long for me to develop a passion for them. However, I quickly observed that most people’s understanding was limited to simple facts like “bees make honey” and “they live in hives.”

While beeswax and queen bees received occasional mention, the general enthusiasm for these remarkable insects was mostly grounded in superficial knowledge and cultural associations.

Fast forward a decade, and I noticed a shift. The importance of pollination began to gain recognition, and honeybees were suddenly seen as crucial to food production.

Then, in 2007, disaster struck. Reports of a mysterious and dramatic decline in bee populations, particularly in the United States, started making headlines globally.

Colony Collapse Disorder (CCD) became a sensational topic, capturing media attention and sparking fears of a world devoid of bees. This concern even made its way into the long-running BBC series Doctor Who, showcasing just how dire the situation appeared.

Here we are, two decades later, and once again, headlines shout about the plight of bees. “Millions of bees are dying—so why does it matter?” asked the UK’s Independent, reporting that U.S. beekeepers lost 60-70% of their colonies this year and 55% last year.

Top beekeepers now warn of a “death spiral,” according to The Guardian, and funding cuts from the Trump administration have only heightened concerns.

However, much of the panic surrounding this issue is unfounded. Leading insect experts agree that the situation is often exaggerated and misinterpreted.

Colony Collapse

To grasp the current challenges, we must revisit the mid-2000s and CCD.

During this period, beekeepers noticed that a large portion of the worker bees had disappeared from their hives, leaving the queens, eggs, larvae, and a few bees to tend to them. While CCD predominantly captured American media attention, similar instances have been reported in Europe, Africa, and Asia.

The root causes of CCD remain uncertain but are likely a combination of disease, habitat loss, pesticide usage, and intensive management practices by beekeepers—all contributing factors.

It’s important to note that significant losses are not a new phenomenon. Beekeepers have documented similar events in the past, attributing them to various ailments and conditions.

Unlike CCD, the recent issues affecting bees are less enigmatic. Early research suggests that many bee deaths are due to viruses transmitted by Varroa mites, which infest bees.

While these mites are known to cause harm and illness, they can generally be managed with pesticides. However, what appears to have happened is that these mites have developed resistance to the chemicals typically used against them.

This scenario might sound all too familiar. The development of resistance is almost an inevitable outcome across various fields, be it antibiotic treatment for bacteria, cancer therapies, or pest control in agriculture.

With the application of certain pesticides, genetic variability among pests means that some individuals may eventually withstand those chemicals better than others. Once these resistant individuals survive and breed, their offspring inherit this resistance.

A Nest Box as a Harvest

Pesticide and herbicide resistance are critical components of modern agriculture, central to understanding both chemical usage and the issues facing bees.

Globally, the majority of honeybees reside in hives, where they exist in semi-natural conditions that allow for efficient honey harvesting.

In the UK, beekeeping tends to be a hobby, but worldwide, commercial beekeeping operations manage thousands, if not tens of thousands, of hives.

Commercial beekeeping is often a highly technical and intensive agricultural practice, encompassing artificial insemination, requeening, feeding, migration to nectar sources, artificial wintering conditions, and disease management. While wild colonies exist, contemporary bees are primarily farmed species.

Bee Needs

While headlines may proclaim a crisis in bee populations, the data suggests otherwise. According to the United Nations Food and Agriculture Organization, as of 2023, the global population of honeybee colonies has increased by 45% since 1990, despite CCD. Another study indicated a 85% increase since 1960.

It seems likely that the global bee population is not decreasing as dramatically as some narratives suggest. Beekeepers can often recover colony numbers, mitigating the impact of poor harvests.

The cultural significance of honeybees makes them one of the few admired insects. People care about them, and stories of their decline resonate emotionally. In response to alarming headlines, many ask, “What can I do to help?”

For some, the natural conclusion is, “I’ll become a beekeeper!” However, as noted by renowned bee expert Professor Dave Goulson, if you hear about declining songbird numbers, would you consider becoming a chicken farmer?

Such declines cannot be solved by novice beekeepers. In fact, if they manage to keep bees successfully (which is harder than it looks), they may inadvertently outcompete wild bee species and potentially transmit diseases to them. Their efforts could unintentionally harm the very bees they seek to protect.

Hence, bees are not the issue at hand. Like other livestock, they face health challenges, but they do not require our intervention.

That said, the recent media focus on CCD has had a rippling effect, creating a narrative around the decline of other pollinators.

Solitary bees, wasps, hornets, and butterflies are beginning to garner attention as people recognize that these insects also play a role in pollination.

As awareness spreads, these stories intersect with the broader issue of declining insect populations. In the UK, 42% of pollinator species have decreased in abundance since the 1980s. Some species are faring better, but overall, the trends for pollinators remain downward.

What can you do to support these wild pollinators? If you have gardens or land—whether it’s your own or a work patch—you can transform it into a refuge for insects.

Planting nectar and pollen sources is one of the most effective actions you can take. Numerous species, such as fruit trees and lavender, can serve this purpose. A comprehensive list of nectar plants can be found online through resources like the Wildlife Trust and the Royal Horticultural Society.

Additionally, resist the urge to prune excessively, minimize pesticide use, and ensure some areas remain untouched. Bug hotels are beneficial, but leaving dead trees and natural debris in your garden can offer shelter and potential nesting sites.

Creating a pond is another excellent idea. Adding some sticks alongside it ensures thirsty insects can safely drink on warm days.

While bees are capturing all the attention, they may not be the primary beneficiaries of our concern. If your aim is to support bees, consider becoming an advocate for all insects, rather than just taking up beekeeping.

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