Category: pollinators

Through the eyes of bees

Posted on by andy.winfield

One of the many fabulous things about the Botanic Garden is that on any given day, you may find scientists out there conducting cutting edge research. There are currently at least seven research programs going on either directly or indirectly with the garden, making it not only a place of beauty, but also a place of scientific discovery.

I recently had the opportunity to speak with a researcher from the University of Bristol’s Ecology of Vision group, who was in the garden photographing flowers with the most bizarre looking camera. I generally take notice of cameras anyway, but this one could hardly be ignored. It was essentially a metal box perched atop a tripod with a lens protruding out one end and an abundance of wires to connect it to a laptop protruding out the other. It simply begged the question – “what is that and what are you doing with it?”
“It’s a POL camera,” said James Foster, a PhD student in the School of Biological Sciences, “we’re imaging the polarized light reflected off flowers. Humans don’t have polarization vision, so we use this camera to create an image that allows us to see what animals with polarized light sensitivity, such as bees, can see. We want to see what flowers are like from a bee’s point of view.”  
James Foster, a PhD student in the School of Biological Sciences,
is using a special camera, built by Dr. Shelby Temple
and Dr. Nick Roberts, to photograph flowers in the
Botanic Garden. The camera characterises and quantifies
all aspects of light polarization and will help researchers see
the flowers from the bee’s point of view.
If, like me, you aren’t confident in your understanding of polarized light, here are the basics. Light travels as a wave, oscillating as it moves through space. As it travels, the wave can oscillate in any number of orientations, up and down, side to side or any angle in between. Polarization refers to either oscillation orientation of the wave (the angle of polarization) or how many waves oscillate in the same direction (the degree of polarization).
Though humans aren’t sensitive to polarized light, many other species are, including many important plant pollinators such as bees.  It’s been known for about 60 years that bees use patterns of polarized light in the sky to navigate, but are they using polarized signals in other aspects of their daily behaviours?  This is the question Foster is trying to answer as part of his PhD.
“We know that it’s the upwards facing portion of the bee’s eye that is most sensitive to polarized light, so we’ve been looking specifically at downwards facing flowers,” said Foster. “Those that seem to be most popular with the bees are usually found as clusters on an inflorescence, often where there are less mature flowers at the top and more mature flowers at the bottom.  I don’t expect that the bee is using polarized light signals to identify the flower as a flower, but once it gets to the flowers it might be using those signals to optimize its foraging activities. For instance, it could influence the bee’s decision to stay on a lower, more mature flower that may be more depleted in nectar or move quickly up to younger flowers that may have more nectar.”
The research is still in its early stages, but if Foster can demonstrate differences in the polarized signals of mature flowers versus younger flowers that also relate to differences in nectar availability, this will be a first step in determining whether bees are using polarized signals for more than just navigation. 
Recent research conducted at the University of Bristol and the University of Cambridge, has shown that conical cells on the surface of the petals of many flowering plants help increase grip for visiting pollinators and are particularly important when the flowers are moving (as they often do in a naturally breezy world).
“Those conical cells would also reduce the degree of polarization of reflections coming off the flower,” added Foster. “What we predict is that there will be areas that will be rich in these conical cells, for gripping, but there will also be regions where the cells are completely flat and these areas will allow polarized reflections that may be important signals for pollinators.”
It’s a tricky thing trying to study a sensory world that we are essentially blind to. However, it probably means that you might see more of James wandering about the garden, POL camera in tow, trying to see the flowers through the eyes of bees.

“WOW! That’s a lot of bees!”

Posted on by andy.winfield

     I could hear my son’s enthusiastic voice coming from somewhere near the front. He had managed to squeeze through the crowd so he could see, while I stood at the back trying to catch a glimpse of what was going on. There were about a hundred of us gathered around a demonstration beehive in the University of Bristol’s Botanic Garden, listening to the beekeeper talk about maintaining beehives. He’d just pulled out a frame from the hive that was absolutely writhing. We all stepped in for a closer look, and despite having no fear of bees, I have to admit that I was grateful for the mist net that separated us. After all, 15,000 is a lot of bees!
An audience gathers around the demonstration hive to
learn about the art of beekeeping. Photo: Nick Wray.
     Last month, my son and I were on a long walk when we happened upon the annual Bee and Pollination Festival at the Botanic Garden. The festival is a joint effort between the Botanic Garden and the Bristol branch of the Avon Beekeepers Association and this was its 3rd year running. This year, the event also partnered with the Bristol City Council’s Allotments Team, who helped to build a small working allotment on-site to celebrate the event’s theme of vegetable growing and allotments. About 1,000 people visited the gardens over the festival weekend and judging by the faces gathered around the demonstration hive, it was a hit whether you were two or ninety-two.
     For my 4-year old, bees mean delicious sweet golden honey. However, for many of us with gardens or allotments, bees have a much greater importance and value in their role as pollinators and the Bee and Pollination Festival was a chance to celebrate this. In the UK, the hard work of pollination is mostly done by insects – bees, butterflies and hoverflies to name a few. Besides our domestic bee, Apis mellifera, the UK has 26 species of bumblebee and 250 species of solitary bee. While we’re at work making a mental list of things that need sorting out in the garden on the weekend, these pollinators are out there doing their thing. In the UK alone, the value of insect-pollinated crops is estimated to be £510 million annually; pollinators perform an extremely valuable ecosystem service that is critical to our future food security.
     It’s important to be reminded of the connection between food and insects, particularly when we consider the plight of our pollinators. Bee and pollinator populations are in decline largely due to loss of natural habitat; monoculture crops and well-grazed pastures do not promote the wild flowers that are essential food for our pollinators. Loss of nesting areas, widespread use of pesticides and disease are also taking their toll.
     The University of Bristol’s Urban Pollinators Project was on hand at the festival to discuss some of these issues. The project is taking a close look at pollinators in urban environments, surveying pollinating insects in the urban centres of Bristol, Edinburgh, Leeds and Reading. The researchers are comparing the biodiversity of pollinators in urban environments with that in reserves and farmland. They’re also trying to identify urban hot-spots of pollinator biodiversity and look at ways of improving diversity and abundance of pollinators in urban areas.
The small working allotment built for the Bee and
Pollination Festival. Photo: Nick Wray.
     While my son stood entranced at the observation hive, searching for the queen, I also had a chance to check out the Bees for Development stand. If you haven’t heard of them, this is an independent organisation that works largely in Africa and Asia promoting more and better beekeeping to help build sustainable livelihoods in developing communities, while also conserving biodiversity. Among other things, the group helps promote the value of bees as pollinators, linking beekeeping to improved crop yields and profits for farmers and stressing their importance for food security.
     We had unfortunately just missed a speaker from Writhlington School’s Orchid Project, but we did meander through the artist exhibits and local nursery displays. We stopped by the Riverford Organic and Butcombe Brewery displays, and of course we couldn’t leave without buying a jar of local honey from the Bristol Beekeepers.

      However, the highlight of the day for me was, without a doubt, seeing my son’s face as he wound his way through the crowd to find me and share his unbridled excitement at seeing all those bees. For him, the smell of the smoke, the hum of the bees and the thrill of spotting the queen among thousands of dancing bees was an incredible window into the world of bees. For me, it was a reminder of the many ways we’re connected to insects and pollinators in particular. For both of us, we’ll have fond memories to think back on each time we enjoy some of our local honey.