The Saxons are invading again

In July 1987, Dolichovespula saxonica, commonly known as the Saxon wasp, was first recorded in the UK at Juniper Hall in Surrey. In the 32 years that has since passed, the species has spread throughout south-eastern England, with scattered records further north to Yorkshire and a handful of sightings from Scotland. Eventually, at the end of July this year, I saw my first ever Saxon wasp, in the same county it was first seen. It is one of two social wasp species which have colonised the UK in modern times, along with Dolichovespula media, the median wasp, which was first found by Steven Falk in 1980 in Sussex.

Contrary to what many people might expect, there are several thousand wasp species in the UK, ranging from tiny parasitic wasps which barely reach 0.2mm in length to the docile hornet. Most of these wasps are solitary, and the social wasps comprise only about 1% of all the world’s wasp species. They’re mainly restricted to the subfamily Vespinae, which has around 11 members in the UK.

My recent sighting of the Saxon wasp came as quite a surprise to me. In the past few weeks I’ve been noticing more broad-leaved helleborines Epipactis helleborine (a species of orchid) than I usually do in my local area. They like to grow beside paths within woodland, perhaps due to the increased amount of light that reaches their leaves in comparison to the centre of the dense woodland. As a result, they are one of the most frequently encountered orchids in my region. However, despite their frequency, before I found my first Saxon wasp I had never observed any pollinators visiting these orchids.

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A spike of the broad-leaved helleborine on my neighbour’s verge

As you can see from the photo, their flowers are not particularly attractive colour-wise. Many other orchid species have evolved to mimic their pollinators, so that they are not drawn to the flowers by the promise of a meal but by the promise of a mate; as a bee, for example, attempts to mate with the flower of a bee orchid, pollination will take place. Moreover, the flowers emit a scent mimicking the pheromones emitted by the female bee, attracting the pollinating bees from far afield. This may sound clever, however reducing your number of pollinators to just one or a handful of species greatly restricts spread. Indeed, in southern England, the pollinator of the bee orchid is quite rare, and most of the time the bee orchid reproduces by self-pollination.

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The early spider-orchid, despite its name, has evolved to mimic the mining bee Andrena nigroaenea. I can’t personally see the similarity, but perhaps the bees can.

However, the broad-leaved helleborine does it slightly differently. Its primary pollinators are social wasps, such as the common wasp Vespa vulgaris (one’s standard picnic-botherer) as well as the Saxon wasp. Like many flowers it produces a nectar to entice the wasps in. However, once the wasps have arrived at the orchid flowers, they begin to become intoxicated by traces of opioids within the nectar. The narcotic-like qualities of the nectar cause the wasp to sleepily visit all of the flowers on the orchid multiple times, to ensure that all the pollinia from the flowers are transferred. I like to think that the opioids are also addictive to the wasps to encourage them to visit other broad-leaved helleborines, but I’m not sure whether this has been studied yet!

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A drugged Saxon wasp walking between helleborine flowers.

In the photo of the wasp above, it is quite easy to see a number of white objects on the face of the insect. These are the pollinia of the orchid, which stick to the face of the wasp after it has visited each flower trying to reach the nectar within. Each individual flower only has a few pollinia, which is the whole product of an anther. It is a coherent mass of pollen which is attached to the flower by a stipe (or stalk) and has a sticky disk on the other end which attaches to the face of the insect. Ideally, the insect then transfers these masses of pollinia to another plant, where the pollen in the pollinia will be transferred to the stigmata, completing pollination.

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The wasp reaching into a helleborine flower, looking for nectar. The pollinia can be seen just above the thorax of the wasp, attached to the roof of the flower, ready to attach to the wasp. 

It was fascinating to document this sighting, which was two firsts in one: my first Saxon wasp, and my first observation of pollinia in action. I’ll be keeping an eye on the helleborines this summer to see if any other wasps are enticed to the flowers by the sweet nectar and drugs!

The Wild Wolves of Sussex

Last weekend, 1-2 July, I was fortunate enough to be attending a two-day bee workshop led by pollinator expert Steven Falk at the Rye Harbour Nature Reserve near Rye in East Sussex. Throughout the weekend we were blessed by an incredible diversity of solitary and social bee species alike, with around 50 species of the Apoidea being found during the weekend.

However, one species that caught my eye wasn’t in fact a bee. Covering the sandy paths at some points were a multitude of wolves, excavating burrows and looking for their next meal. They prowled along the tracks and up the sandy slopes, concentrating their efforts on the path-side bramble bushes. This is where their prey is most often found feeding, unaware of the wolves sneaking up behind them until they latch on with a relentless bear-hug.

Of course, the wolves I’m talking about aren’t the canids that roam remote areas of Eurasia and North America. Just as fierce, however slightly smaller, are Bee Wolves, Philanthus triangulum. Bee Wolves are the largest solitary wasp in Britain and they need to be in order to tackle their favoured prey: honey bees.

Bee Wolves used to be not only the largest but also the rarest solitary wasp in Britain. However, since a couple of decades ago, their population has been on the increase and they’ve spread to a number of new sites. Their numbers are not as large now as they were a few years ago, however there are still more about than there were 25 years ago. It’s great that these fascinating insects are more widespread now as they’re incredible to watch.

They weren’t too scared of humans at all, in fact we were able to watch with such proximity that on a couple of occasions one actually landed on Chris Glanfield’s phone while he was trying to take a photo!

Being solitary wasps, they each dig their own long burrow. These burrows contain many small chambers, as many as 30, each containing several bees. In each chamber an egg is laid, and when it hatches the larva feeds upon the bees inside the chamber before emerging as an adult Bee Wolf. The bees are not dead but paralyzed as it helps them to keep fresh and juicy for the developing larva.

We were lucky to be able to watch several wasps excavating and entering their burrows as well as carrying their prey around. This was the first time I had ever seen a bee wolf and I’m hoping I get another opportunity to watch them before too long!

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An adult Bee Wolf on the path

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a Bee Wolf outside a burrow it has only just started to excavate

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A Bee Wolf proudly outside an unfinished burrow I watched her excavate in only about 10 minutes!

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Adult Bee Wolf

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Bee Wolf