Limited access to pollen

Picture this: It's a crisp spring morning, and you're wandering through a lush, green pasture in Somerset. The dew is still fresh on the grass, and the air buzzes with the gentle hum of honeybees hard at work. But as you walk, you begin to notice something curious. The once-abundant blooms that adorned the hedgerows are few and far between. What does this mean for our buzzing friends and the vital role they play in our ecosystems?

A recent study published in New Phytologist has provided some eye-opening insights into this very issue. For the first time, researchers have quantified the availability of pollen on farmland in Somerset, revealing some surprising findings about flower longevity and pollen production. As a beekeeper, this study resonated deeply with me, shedding light on the challenges our bees face in agricultural landscapes.

The Lifespan of Farmland Flowers and Pollen Production

Let's dive into the heart of the matter: the longevity of flowers and the quantity of pollen they produce. According to the study, most farmland flowers only last for about two and a half days. Imagine the fleeting beauty of a firework—bright and brilliant, but gone in an instant. This ephemeral nature of blooms means that bees have a narrow window to gather pollen.

Among the various farmland plants tested, willows (Salix spp.) stood out as pollen powerhouses. Each floral unit of a willow produced an impressive 1.1 cubic centimetres of pollen per day. To put this in perspective, that's like comparing a drop of honey to a spoonful—small but mighty in its impact.

In my own beekeeping experience, I've noticed how willows become the centre of activity during early spring. The bees are practically giddy with excitement, diving into the flowers with an urgency that's palpable. It's their first major pollen feast of the year, and they make the most of it.

But willows aren't the only players in the pollen game. The study found that hedgerows, though not as prolific in individual pollen production, provide the most diverse pollen sources. It's like a well-balanced diet for bees—variety is key to their health and vitality. Meanwhile, permanent pastures, with their vast expanses, contribute the largest total amount of pollen, acting like a giant buffet spread.

April marks the peak of pollen availability, thanks largely to the willows. As spring progresses, other plants like meadowsweet (Filipendula ulmaria), bramble (Rubus fruticosus), and dandelion (Taraxacum officinale) take over as the main sources of pollen. However, as with any good story, there's a twist. From June to July and then again after August, there's a notable dip in pollen resources. This gap poses a significant challenge for bees, akin to hitting a barren stretch in the middle of a journey.

In my hives, I've seen how these gaps can impact the bees. They become more restless, and their foraging patterns change as they desperately search for any available pollen. It's a reminder of the delicate balance within our ecosystems and the crucial role every plant plays in supporting our pollinators.

By understanding these dynamics, we can take steps to support our bees better, ensuring they have access to diverse and plentiful pollen sources throughout the year. It's a small but significant way we can give back to these tireless workers who do so much for us.

Hedgerows: The Unsung Heroes of Farmland

When we think of farmland, our minds often conjure images of vast fields of crops swaying in the breeze. However, the humble hedgerow, with its tangled mass of shrubs and wildflowers, plays an essential role in maintaining the health of our ecosystems. According to the study, hedgerows provide the most diverse pollen sources on farmland. This diversity is crucial for the well-being of bees, much like how a balanced diet is vital for our health.

Let me share a personal story to illustrate this point. A few years ago, I visited a small farm that had meticulously maintained its hedgerows. The farmer, an old friend, believed in the power of these natural borders. As we walked along the hedgerows, I noticed the vibrant mix of plants—hawthorn, blackthorn, and wild roses, all buzzing with bee activity. It was like a bustling market, with each stall offering something unique. The bees, I observed, were healthier and more active compared to those in farms with sparse hedgerows. This diversity in pollen sources provided them with a rich array of nutrients, much like a colorful salad does for us.

The study reinforces this observation, highlighting that hedgerows are not just pretty features of the landscape but vital habitats that support a wide range of pollinators. By maintaining and planting more hedgerows, we can create a network of pollen-rich pathways that sustain our bees throughout the year.

The Critical Role of Permanent Pastures

While hedgerows provide diversity, permanent pastures are the heavy lifters when it comes to sheer volume of pollen. These expansive areas of land, often covered in grasses and wildflowers, contribute the most significant amount of pollen overall due to their size. Think of it as the difference between a cozy family dinner and a grand banquet—both are valuable, but the banquet feeds many more mouths.

In my beekeeping journey, I've come to appreciate the importance of these pastures. One memorable spring, I placed several hives near a sprawling pasture that had been left to grow wild. The results were astounding. The bees thrived, producing an abundance of honey, and the hive populations boomed. The abundance of pollen from the various wildflowers supported their growth and productivity.

The study notes that April is when these pastures reach their peak pollen production, driven largely by willows. But as the season progresses, other plants like meadowsweet, bramble, and dandelion take over, ensuring a steady supply of pollen. However, the study also highlights a concerning gap in pollen availability from June to July and after August. This gap can be likened to a drought in the middle of a growing season—a time when resources are desperately needed but scarce.

For beekeepers, this means being proactive in supporting our bees during these lean times. Planting late-blooming flowers or strategically placing hives near areas with continuous bloom can help bridge these gaps. It’s all about thinking ahead and creating a supportive environment for our bees year-round.

Read more about the benefits of wild pastures in our article on Growing a Lawn that is Better for Wildlife.

The Pollen Resource Gap – Challenges and Solutions

The pollen resource gap identified in the study poses a significant challenge. Just as a long road trip requires careful planning of rest stops and fuel breaks, our bees need continuous access to pollen to maintain their health and productivity. The gap from June to July and after August can leave bees struggling to find sufficient food.

In my own beekeeping practices, I've seen how crucial it is to anticipate these gaps. One summer, I noticed my bees were unusually agitated and less productive. After some investigation, I realised they were experiencing a pollen shortage. To address this, I planted a variety of late-blooming flowers around my apiary. The difference was remarkable. The bees quickly adapted, and their health improved significantly.

The study suggests similar solutions on a larger scale. By planting a mix of early and late-blooming plants, farmers and gardeners can help ensure a continuous supply of pollen. Additionally, preserving natural habitats like meadows and forests, which offer diverse and extended blooming periods, can provide critical support during these lean months.

For practical tips on planting for pollinators, visit our guide on Creating a Year-Round Blooming Garden.