Tag Archives: Google

Prime numbers and cast offs

This post was prompted by a recent search used to reach this website. The question posed was can a prime swarm be led by virgin queen if [the] old clipped queen dies trying to lead a swarm?”

Swarming is the natural way that honey bee colonies reproduce. The process is triggered by a number of factors – overcrowding and diminishing levels of queen pheromone being two of the most important.

A small swarm

A small swarm …

Both these are, directly or indirectly, measures of how strong the colony is. If the queen has nowhere to lay because the box is wall-to-wall brood or stuffed with nectar, the colony is effectively overcrowded. In contrast, if the colony has ample space but there are so many bees that the queen pheromone is ‘diluted’, the colony will sense this indirect measure of strength and make swarm preparations.

In addition, as queens age they naturally produce less queen pheromone; colonies headed by older queens are therefore more likely to swarm than those headed by first year queens.

Prime swarms

You’ll see two definitions of prime swarms. Some define it as the swarm headed by the mated, laying queen and others use it to mean the first swarm to issue from a hive.

They’re usually one and the same thing.

Developing queen cells in the hive are capped on the 9th day after the egg they contained was laid. If the weather conditions are suitable – typically early afternoon on a warm, sunny day – the mated queen leaves the hive with up to half the workers.

This swarm – headed by the mated queen and often containing perhaps 20 – 30,000 bees – is the prime swarm. It’s the first to leave the hive … but it might not be the last …

Captured swarm in 8 frame poly nuc

Captured swarm in 8 frame poly nuc …

Casts (or cast swarms)

Seven days after the queen cells were sealed the new, virgin queen emerges (or ecloses). For the continued viability of the original colony this queen needs to be mated and return to the colony. She does this on a warm, sunny day a few days after eclosion.

However, there are often several developing queen cells remaining in a hive after a prime swarm disappears over the fence to the howling wilderness.

This is where things get interesting.

All sorts of things can happen at this point. If the colony is strong enough it will throw off one or more casts. These are small swarms, headed by a virgin queen. Small is a relative term. They’re small in comparison to a prime swarm. Once started a colony can continue to throw off smaller and smaller casts. Some are these small in comparison to a mug of tea.

The continued loss of bees means the colony may effectively ‘swarm-out’, reducing in strength until perhaps only 10% of the original colony remains. If this happens any opportunity of a honey harvest is also lost and there’s a chance the colony will not recover sufficiently in time to overwinter successfully.

To complicate matters further, if multiple queens emerge casts can contain more than one queen. Sometimes you’ll open a hive at the same time as multiple queens are emerging. It can be bedlam trying to catch half-a-dozen virgins scuttling around a busy brood box.

Hiving casts

Large casts – perhaps football-sized – are worth catching and dumping into a nuc. Once the queen gets mated they can develop into a worthwhile colony. Ted Hooper describes ‘rescuing’ smaller casts by uniting them over a queen excluder on top of the supers on a strong hive. The bees unite and the queen is prevented from entering the hive by the excluder. I’ve not had to do this. I’ve lost one or two colonies that swarmed out but missed the ever-diminishing casts altogether.

A cast ...

A cast …

The cast swarm above was collected in a skep and allowed to settle for a few hours. When I lifted the skep from the sheet to dump the bees into a nuc there was a single bee corpse remaining … a dead queen. The cast obviously contained at least two queens. On checking the nuc a week later, after a week of almost continuous rain, I found a single skittish queen running around. Her behaviour suggested she hadn’t yet had an opportunity to get out and mate.

A cast in the skep ...

A cast in the skep …

And the answer is … ?

Consider again the original question … can a prime swarm be led by virgin queen if [the] old clipped queen dies trying to lead a swarm?”. The answer isn’t necessarily straightforward.

I think I’d argue that a swarm led by a virgin queen, despite being the first swarm to leave the hive, is not a prime swarm. It’s viability still depends absolutely on the virgin getting mated.

I would consider it as a cast.

Clipped queen ...

Clipped queen …

Clipped queens have one wing trimmed to restrict their flight. This is a well-established method of swarm control. If the colony swarms the queen drops to the ground and the swarm often clusters with her under the hive. Colonies with clipped queens usually swarm a bit later in the development cycle of the new queen(s) in the colony. However, they are only delayed by a day or two.

I’m therefore puzzled why – as suggested in the question – there was both a clipped queen and an emerged virgin in the colony simultaneously. Or perhaps there wasn’t, but the query was whether a subsequent emerging virgin would head the swarm …

I’m afraid the puzzle will remain. The question came from an internet search … unless the person who posed it reads this and responds all we can do is speculate.

Or perhaps to establish themselves in your neighbours soffits. The same neighbour who has always complained about your bees chasing their dog and stinging their children. Reason enough to try and not lose swarms.

‡ I know this was a cast headed by a virgin queen because it came from a vertical split in which the queenless half was left overly strong. The clipped and mated queen was ‘all present and correct’ in the queenright half of the split – I checked. I’m intending to write a bit more about how to prevent casts in the future … once I’m a little better at it than I’ve been this Spring  😥

Google maps and apiary security

The increased interest in beekeeping over the last few years has meant there is considerable demand for bees, either for beginners or to replace stocks lost over the winter. The impatient and unscrupulous have resorted to bee rustling, either directly or indirectly. It is therefore sensible to take precautions to prevent the theft of your hives and nucs. This subject was covered extensively a couple of years ago in a post on Beekeeper UK which described branding, locks, ground anchors and other deterrents and is recommended reading. However, one aspect of security worth reinforcing is the impact of new digital technology – specifically smartphones and satellite imagery – which can be used to locate hives.

GPS-tagged image

GPS-tagged image

Smartphone cameras (and many new digital cameras) embed the GPS coordinates into their images. This information is contained within the exif (an abbreviation for exchangeable image file) data in the image, which also includes details of the camera, exposure etc. This can be readily viewed using online tools such as Jeffrey Friedl’s Exif (Image Metadata) Viewer. To illustrate this I’ve uploaded an image (right) taken when out cycling – so not compromising my own apiary security – with an iPhone a few years ago. If you point the Exif Viewer at the image you can extract all the embedded information, including both the GPS coordinates and a Google Maps view, as shown here. You can then use Google Streetview to see the, er, street view of the scene (if their little cars have visited).

Google Streetview

Google Streetview …

So what? I don’t share my images online …

OK, so much for the introduction to a potential problem, why should it be of interest or relevance if you don’t post GPS-tagged images on your personal blog, Facebook page, Instagram account, internet discussion forums, Flikr, 500px etc.?

… three rows of hive stands, cars provide scale

Baton Rouge labs

The real problem isn’t the GPS-tagged images at all (I’ll describe an easy solution to this later in this post), rather it’s the resolution of the online satellite images provided by Google, Bing and others. These are good enough now to locate apiaries relatively easily and to see individual hives in certain circumstances. They’re also going to get a lot better soon. Rather than compromise an amateur beekeeper, or publicise an otherwise hidden apiary, here is an image containing  three rows of hives (on rail stands) at the ARS Honeybee breeding, genetics and research labs in Baton Rouge, Louisiana, USA … I think it’s fair to say it’s no secret that they’ll have apiaries on site 😉  And below is the view from ground level, taken in a different season with the trees in full leaf. The cars in the satellite image provide a sense of scale.

Baton Rouge apiary

Baton Rouge apiary …

Google Maps (and Bing and others) satellite imagery are of similar resolution for the USA and the UK. The satellite image above is not even at maximum size … when it is you can pretty easily count individual hives. This was brought home forcefully when processing a smartphone image (with embedded GPS coordinates) in Adobe Lightroom. The Map module showed a neat row of hives in the corner of a field. Google updates the images they use reasonably frequently, so even if your colonies are not visible now they might be soon after the next satellite passes over.

Security by obscurity

How can you prevent your apiary from being detected? Of the local apiaries I’m aware of I couldn’t detect those that:

  • were located under light tree cover. This would seem to be both practical and relatively easy to achieve. As long as they are not in deep shade it can also make for a much more pleasant inspection experience on a sweltering hot day, and the trees or hedges can provide shelter from strong winds.
  • contained only individual hives. Whilst absence of evidence isn’t evidence of absence it is certainly easier to detect neat rows of hives along field boundaries or angled across the corner of a meadow.
There you are!

There you are!

The most obvious hives were those in which the roof contrasted with the ground. This was particularly marked with bright, shiny, metal roofs glinting in the sun. Older, tattier, hives or those with roofs covered in roofing felt were more difficult to find. Perhaps it might be worth applying camouflage paint to new hive roofs. Irregularly placed hives in dark or muted colours that didn’t contrast with the ground were generally tricky to see.

None of these precautions are foolproof. None of them negate the need to keep your colonies in secure, private locations, preferably behind locked gates. However, they might be useful in preventing unwanted attention.

But what about my online images?

Some image hosting sites automagically strip location-sensitive information from uploaded images. Others do not. On the principle that it’s better to be safe than sorry it’s worth always ensuring the uploaded images do not contain this information. Phones usually have an option to exclude GPS data from images. Alternatively (and to avoid omitting the location information from all the images you want to keep it in) it’s easy to strip unwanted exif data, including all the GPS data, using software. If you’re an Adobe Lightroom user this is an option under the ‘export’ menu. Alternatively, ImageOptim is an excellent (and free) Mac application that compresses images, strips out unnecessary metadata including all the location information and removes unnecessary colour profiles. This typically reduces the file size by 10-20% and works with a range of graphics format images. The image per se is unaltered. It runs as a Service on the Mac, which makes it even easier to use.

Not GPS-tagged

Not GPS-tagged …

The GPS-tagged image of the bike on the fence at the top of the page is 242 kB. After using ImageOptim this is reduced to 213 kB in size. More importantly, as far as security is concerned, Jeffrey’s Exif Viewer now shows no geographical information. It even hides the embarrassing fact that my smartphone is over four years old 😉

There are also ways of removing exif data from your images if you use Windows. I’ve not used these and cannot comment on how well they work.