Tag Archives: Everynuc

Compatibility

There’s a saying that goes something like “Ask three beekeepers an opinion on … and you’ll get five answers”. And if it isn’t a saying, then it should be. Have a look at the online forums and you’ll see numerous threads with multiple – often wildly contradictory – answers. This can be a problem for experienced beekeepers and is a total nightmare for new beekeepers.

Inevitably, beekeeping is an inexact science. There are too many variables to be dogmatic about things – the weather, colony strength, available forage, parasite levels, time, beekeeping ability etc. 

Compatibility, standardisation and efficiency 

However, one thing that most beekeepers should agree on is that compatibility of equipment is important. For efficiency, your equipment needs to be compatible e.g. using a roof that fits any of your hives. Without compatibility you will inevitably experience the frustration of trying to make incompatible equipment ‘fit’ together, or have to make repeated trips to the apiary with the correct kit.

Been there, done that 🙁

Compatibility is best achieved by standardisation i.e. all hives are of the same size and design, built to an agreed specification or standard, ideally by a single manufacturer. I suggest ‘single manufacturer’ as some don’t adhere to the standards as closely as others. Unless you are, and intend to stay, a single hive owner (and there are very good reasons why you shouldn’t) this is an ideal that is rarely achieved.

If you have more than one apiary you’re likely to be moving hives between them. Again, compatibility is important. Finally, if you are being mentored, acting as a mentor to others or intending to sell nucleus colonies, it helps if your hive equipment is compatible with others.

This compatibility starts with the frame size – and therefore defines the brood/super dimensions – and the frame spacing (e.g. Hoffman/Manley), but extends to whether the hives are bottom or top bee space, the types of floors, entrance blocks, clearer boards, split or division boards, feeders etc. 

Which hive?

We’re spoilt for choice in the UK … literally.

Compare the hive types sold by some of the largest suppliers of beekeeping equipment in the UK and USA e.g. Thorne’s and Dadant. Thorne’s list about eight removable-frame hives (National, WBC, Langstroth, Commercial, Dadant, Smith, Rose and Dartington). Dadant list just one (Langstroth, albeit in 8 or 10 frame widths). I know that some hives use the same frame sizes, but have also simplified things by ignoring the range of frame depths offered – 14×12’s, shallows, mediums, deeps etc. In this post I’m only really concerned with box compatibility.

No wonder many starting beekeeping ask “Which hive should I buy?”. They’re probably advised to get whatever is in use locally, often Nationals, but increasingly Langstroths in some places or Smiths in parts of Scotland. The recommendation to start with whatever is used locally is both logical and pragmatic. The beginner is likely to have to source a nucleus colony to start with and (hopefully) this will have been purchased locally, from a more experienced beekeeper (their mentor?) with gentle bees of known provenance, adapted to the local climate and inspected before purchase.

In the overall scheme of things I don’t think the choice of hive type is particularly important. None are inherently better than others, though a few are perhaps worse. The bees, Apis mellifera, are the same and certainly don’t care. Far more important is that the equipment acquired is compatible – with what is already owned, with what might be purchased, built or inherited in the future, and with what others use.

Running out of kit

A universal truth about beekeeping is that, sooner or later, you’ll run out of equipment. For beginners it’s during their first swarm season when they suddenly find they need a complete additional hive to undertake the classic Pagden ‘artificial swarm’ method. Alternatively, or perhaps simultaneously, they capture a swarm and have to house that. It’s not unusual for all this to happen in the same week of the same month of the first year of beekeeping.

It can be a little chaotic 🙂

Gaffer tape apiary

Gaffer tape apiary …

There are two or three obvious ways to reduce the equipment crisis. Firstly, use a version of the vertical split rather than a Pagden artificial swarm, thereby reducing the need for an additional floor and roof for starters. Secondly, bodge a solution … use stacked supers as a makeshift broodbox, build roofs out of Correx (abandoned For Sale signs should always be repurposed) or use an upturned plant tray or piece of polythene-covered plywood. Finally, borrow suitable kit from a friendly local beekeeper … which brings us back to compatibility again.

Don’t for a moment think that a dozen colonies and a decade’s experience stops a beekeeper running out of equipment. A couple of years ago we had a bumper summer and I ran out of supers. Most colonies had 2-3 supers on already and there seemed to be no end in sight to the nectar flow. It was fantastic. A generous friend loaned me a dozen supers to buy me enough time to remove the first fully capped supers, extract the honey and recycle the boxes. Without this act of generosity – only possible as my friend was downsizing – my hives would have become packed with nectar and the colonies might have swarmed.

Mix’n’match

It’s at these times that equipment compatibility becomes paramount. I could borrow and use those supers as my friend also ran Nationals. The beginner can of course borrow any type of kit, but if the artificially swarmed colony needs to subsequently be united with the original box then it’s much easier if the equipment is compatible (note the thin shim in use in the picture below, between the incompatible poly boxes on top and standard cedars). As it turned out, the supers I borrowed weren’t 100% compatible as my friend used top bee space whereas mine were bottom bee space … the bees and I coped.

This need to mix’n’match equipment happens every season. You might want to move frames about to boost particular colonies, to mix frames removed from several strong colonies to make up nucs for overwintering, to unite nucleus colonies after using the newly mated queen from one of them, or merge two very uneven strength colonies for overwintering. It even happens when trying to efficiently ‘use up’ two- or three-frame nucs used for queen mating at the end of the season – it’s far easier to simply drop these into full-size hives than do the same thing with brood and bees from mini-nucs.

Uniting with newspaper ...

Uniting with newspaper …

Not only the big box items

Equipment standardisation and compatibility also extends to things other than frames and boxes. There’s a host of other items where it’s beneficial to have one type only, and for that type to be compatible with your other equipment. Floors are a good example; if they’re all made to the same design and dimensions then the removable Correx Varroa trays, the entrance reducers and the travel screens/entrance blocks are perfectly interchangeable. Both crownboards and roofs should also be broadly standardised and compatible. For example, all my colonies have year-round insulation in the crownboard and all the roofs are uninsulated. I previously had some insulated roofs and some uninsulated crownboards. Inevitably, moving or uniting hives resulted in the odd colony lacking insulation altogether. D’oh!

Pragmatic rationalisation

I’ve slowly achieved a reasonable level of standardisation and compatibility across my apiaries. I’m hoping that this will be improved further in 2017. After using a range of hives – purchased, borrowed and homemade, I’m settling on:

  • Standard depth, bottom bee space, Nationals in cedar or poly but – critically – these boxes must be interchangeable. To this end I’m using standard cedar broods and supers, or Swienty poly equivalents. These have the same external dimensions (18″/46cm), so can be stacked as required, and the interface between boxes is completely flat.
  • Just two floor designs. One has a fully sealed Varroa tray – built by Pete Little – and is used exclusively in the bee shed. The entrance reducer is fitted permanently to these floors. The second type are the so-called ‘kewl’ floors with a Dartington-inspired underfloor entrance. All my kewl floors are homemade. Despite this (and my amateur DIY skills), they take the same size Correx Varroa tray, all have holes drilled in the correct places to a) attach luggage scales for winter ‘hefting’, and b) deliver vaporised miticides. In addition, all take the same size and design entrance block for transport or other operations when the entrance needs to be sealed (vaporisation, vertical splits or Bailey comb changes).
  • Roofs are all uninsulated, interchangeable and either standard wood/metal or simple sheets of folded Correx. They serve no other purpose than weatherporoofing. I gave away all my insulated roofs when I moved North.
  • All crownboards are insulated, either with inbuilt Kingspan blocks or by the addition of an 18″ square block on top. None have feeder holes. Almost all are reversible and I’ve got ekes to achieve the same separation when I need space to feed fondant.
  • All nucleus hives are Thorne’s Everynucs. This design has a removable floor, so two bodies can be stacked for uniting.

But … if I were to start again from scratch I’d probably use Langstroths. I use Nationals because I’ve invested in Nationals, not because I think they’re inherently better.

Exceptions to the rule

Or compromises …

  • All of my bait hives are MB/Paradise poly Nationals (or stacked supers from the same manufacturer). All have simple Correx floors and roofs, or those supplied at purchase. Almost none of these items – floors, boxes or roofs – are readily compatible with production hives. This poly hive design has an infuriating lip/overhang that makes them incompatible with standard National equipment (see images above). Bait hives tend to get lugged about a bit more than production hives so their low weight is a bonus. My continued use of these hives is a perfect example of meanness and generosity … I’m too mean to get rid of them and I’m too generous to palm them off on an unsuspecting beginner.
  • My Everynucs are not directly (i.e. box to box) compatible with National hives though of course the frames are. I therefore can’t stack nucs onto standard brood boxes – for uniting, for overwintering or for certain types of queen rearing operations. This is a compromise I have to make due to a) the finances and time I have invested in these poly nucs, and b) their overall benefits and quality, both of which I remain convinced about. I have a few lovely cedar nuc boxes built by Pete Little that can be used for the queenright queen rearing method developed by Steve Rose if needed.
  • I have a few Paynes 8-frame nuc boxes used solely to capture swarms (or for dire emergencies). These are lightweight boxes with flimsy lids and no removable floor … ideal for use in one hand at the top of a ladder.
Paynes nuc box ...

Paynes nuc box …

Outstanding improvements to compatibility

Outstanding as in ‘not yet achieved’ that is. Sorry if you were expecting some brilliant insights here 😉 Regular readers are unlikely to have been mislead.

The entrance holes through the bee shed wall are of two sizes and the larger ones will be replaced (reduced) at some point. When I first built them I overestimated the size needed. The oversized entrances are too big for a weak colony to defend and the different sizes means I need two types of foam entrance blocks when vaporising.

Secondly, I have to decide on a standard way to block/reduce the entrance of the poly Everynucs. I’ve previously used a hotchpotch collection of wire mesh, foam or wooden blocks. The entrance on these nucs is ridiculously large and I’ve been dabbling with a few simple designs over the winter. I need a simple and inexpensive ‘fix’ as I have a lot of these boxes … as usual, Correx is my friend!

Reduced entrance ...

Reduced entrance …

Finally, I’ve recently purchased a stack of Abelo poly hives for work and will be interested to see how these perform this season. These boxes are ‘Nationals’, but ever so slightly different from the Swienty and cedar boxes. However, the dimensions and interfaces of broods and supers are definitely compatible, so they should mix’n’match OK. This purchase was a perfect example of how beekeepers end up with a wide range of different gear … they are supplied ready-painted, so save time, and they were cheap as chips in the Abelo sale 😉


Of course, the widely divergent views expressed on some of the discussions forums simply reflects a bad case of midwinter cabin fever and the contrariness of some contributors.

And irritatingly, some take the same frame sizes, but with either short or long lugs. Grrr.

And if you are a beginner reading this I would encourage you to read a couple of previous posts on mentoring and the benefits of buying local bees.

Everynuc feeder

I bought a few of these Ashforth-style feeders when I standardised on using Everynucs from Thorne’s a year or two ago. They’ve sat more or less unused since then, largely because the design of this poly nuc – a Langstroth-sized box adapted to take National frames – includes an integral feeder. This year I’ve used these nucs for queen mating and holding ‘spare’ queens when undertaking swarm control. Most of these have either migrated up to a full colony or been returned to the original hive, but I have a few left to take through the winter. These are now being fed up for the coming months. All are, or will be, housed in the bee shed overwinter for additional protection, though I’ve previously overwintered colonies in them outside reasonably successfully.

Everynuc feeder ...

Everynuc feeder …

Syrup and paint

The feeder is well designed, with an opening at one end leading to a good-sized reservoir for syrup or fondant. The volume of the reservoir is a little more that 3.5 litres when filled to dangerously near the brim. When using syrup – which I don’t – there’s a folded wire mesh screen that should prevent the bees drowning. They can climb up and over the dam to reach the syrup, but don’t have free access to the reservoir. This should reduce that distressingly high ‘body count’ sometimes seen with badly designed feeders. Additionally, the mesh screen prevents bees from leaving the hive when the clear plastic crownboard is removed to top up the reservoir. Convenient  🙂

Rodent damage ...

Rodent damage …

Like all poly hives, and particularly poly feeders, these should be painted before use (remember, Do as I say, don’t do as I do … some of mine aren’t painted due to poor planning). Syrup soaks into the poly if the surface isn’t sealed first. This can lead to problems with fungus growth and attack by rodents when the feeders are stored. As an aside, I try and remember to seal the entrances of my poly hives when not in use to prevent mice from destroying them … they seem very enthusiastic about having polystyrene chip parties at my expense. A couple of my poly bait hives have already been attacked this autumn – these just smell of bees and propolis (and now strongly of mouse 🙁 ) without the added attraction of syrup residues which would just make things worse.

The wire mesh screen on the Everynuc feeders is a bit ‘springy’ and probably needs holding in place with a couple of drawing pins (see image above). Additionally, both sides of the dam wall should also be painted and, when still wet, sprinkled with sand to improve the grip for bees accessing the syrup (as I show on the landing boards on my kewl floors).

Fondant

Feeder with fondant

Feeder with fondant …

At one end of the feeder, opposite the syrup reservoir, is a well that can be filled with fondant if the wire mesh screen is fitted. My crude measurements suggest it should hold about 1.5 kg of fondant if packed in tight. It might be possible to directly carve off suitably sized lumps from an intact block but it’s easier to pack it with a variety of offcuts and squeeze them down. Bees are be able to access the fondant from underneath and adjacent to the dam wall. As with syrup, feeding them like this means the fondant can be topped up without bees escaping.

Alternatively (and see the next section) you can simply stuff a big lump of fondant into the well of the feeder and omit the wire mesh – as shown above.

Easy top-ups

Easy top-ups …

I had a few concerns about how well the bees would access the fondant through the mesh – might the fondant dry out too quickly, would access be restricted as the fondant block shrank in size etc? Therefore, before it got too cold I set a couple up of feeders with or without the mesh fitted to see how readily the bees could access and take down the fondant (this post was started in mid-September). Both methods seemed to work fine though I suspect feeding through the mesh directly above the frames is likely to work better as the weather cools further, simply because it’s less far for the bees to travel and likely to be a little bit warmer.

Alternatively

Peter Edwards has recently written a short article in BIBBA’s Bee Improvement on modifying the Miller-style feeder supplied by Maisemores for their poly nuc. He simply drilled a series of ~25mm holes through the bottom of the one side of the feeder, leaving the other side unbutchered for delivering syrup if needed. A simple but effective solution ideally suited to Maisie’s double-sided feeder. Since I’m so wedded to the use of fondant for my autumn/winter feeding I may do this on a few of these Everynuc feeders as well … accepting that they’ll be trashed for use with syrup.

That’s all folks

The last week has seen temperatures peaking in the low teens, with the first overnight frosts of the year. Active beekeeping is effectively over for the season. Colonies checked at the end of last week are taking fondant down well and two that I briefly inspected had reasonable levels of brood in all stages, wth the queen laying at a consistent rate albeit much less than earlier in the season. These new bees will help the colony get through the winter and – because mite treatments were completed several weeks ago – will have been reared in a hive with very low Varroa levels, ensuring they are protected from virulent strains of deformed wing virus. I have a couple more colonies to check in the next few days and one more nuc to move to the bee shed.

However, before the autumn tidying and winter tasks are started there’s still some reasonable weather to get out and enjoy the beautiful Fife countryside.

Ballo Reservoir and West Lomond

Ballo Reservoir and West Lomond

 


 The Ashforth-style feeder has the entrance at one end or side, the feeder with the double entrance in the middle is the Miller feeder.

 

What was that?

Zoom. Having moved back to Scotland in mid-2015 this is my first full season keeping bees here. The season has been very short. Some colonies weren’t inspected until the end of April and now, about 14 weeks later, it’s turned distinctly autumnal over the last week or so in Fife. Nectar flows have pretty much dried up, nights are much cooler and thoughts turn to preparing colonies for the winter. However, good winter preparation with strong, disease-free colonies and low Varroa levels means that, should Spring 2017 be early, the bees will be ready to take advantage of it.

The immediate priorities are to:

  • protect colonies from robbing
  • ensure colonies have enough stores
  • remove any honey for extraction before the bees use it

Robbing b’stards

Entrance reducer ...

Entrance reducer …

The very best way to protect colonies from robbing – either by other bees or wasps – is to keep them as strong as possible. Wasps can be very troublesome in the autumn. Smaller colonies and nucs are particularly susceptible to attack and can be devastated in just a day or so if not properly looked after. A block of foam or wood can easily be pushed into place on a full hive, reducing the space the bees need to defend. The underfloor entrance of kewl floors (right) have the added advantage of a narrow L-shaped tunnel that can be defended on the landing board and/or immediately below the frames.

It’s not unusual to have 2-4 frame nucs in mid-August, either being prepared for overwintering or with ‘backup’ queens while re-queening other colonies. If the colonies aren’t really strong enough to defend themselves they need to be given all the help they can. Reducing the entrance space to a single bee width helps a lot, particularly when the entrance is as cavernous as the design on the Thorne’s Everynucs that I use.

Reduced entrance ...

Reduced entrance …

Stores

There’s still sufficient time for strong nucs to be built up to occupy a full hive, but they need to be given sufficient space for the queen to lay and will probably require feeding unless there’s a good late-season nectar flow. This nuc (below) started the first week of July on just a frame of emerging brood, a frame of stores and a new queen and is just about ready for a full hive. Although not obvious from the picture, the feeder on the left contains a large block of fondant which the bees are busy with. This was added as soon as the flow stopped and before the nuc got dangerously light. The bees might have survived but the queen would have slowed or stopped laying eggs and development of the colony would have been retarded. This nuc is fast running out of space and will be moved into a full hive in the next day or two.

5 frame nuc ...

5 frame nuc …

The  integral feeder on these Everynucs has space for about a kilo of fondant. Here’s another nuc started a fortnight ago with a ‘backup’ queen that was also light on stores. The parent colony were showing signs of replacing the queen so I removed her and a couple of frames of emerging brood and left them in the corner of the apiary with the entrance stuffed with grass (to deter the flying bees from returning to the original colony). After a couple of days I removed the dried grass and they’re now ticking along nicely. As they’re a smaller colony and contain predominantly young bees they lack a strong force of foragers and so need regular feeding. If the original colony successfully rears a new queen I’ll have a spare for overwintering. If not I’ll unite them back together at the end of the month.

Nuc with fondant ...

Nuc with fondant …

This is the same nuc as shown in the top image with the reduced width entrance. One of the advantages of feeding fondant is there’s no chance of slopping it about and leaving spills to attract wasps to the apiary.

The image above also shows a ‘crossbar’ I add to the Everynuc feeders; this prevents the frames sliding backwards when the nucs are in transit between apiaries. The integral feeder is useful, but it means there’s no ‘stop’ against which the end of the frame topbar can rest. There is a stop fitted across the bottom of the face of the feeder (shown in a previous post) but my experience is that the inevitable jolting of a car journey means the frames lift above this and then can slide about too much with the risk of crushing bees.

Supers off

I’m resigned to it being a poor summer for honey this season – a combination of a late spring and consequent slow colony development, variable weather during the summer and an extended queenless period for many colonies due (again) to lousy weather for queen mating. Clearers are now on the majority of colonies with filled supers. I’ll retrieve all the filled frames for extraction and make up new supers with the leftovers (incompletely filled or too high water content). The latter will go back onto strong colonies, either in the hope of a late season top-up from the himalayan balsam or for winter stores.

Clearers on ...

Clearers on …


The opening video clip was from the second series of Fawlty Towers first shown in 1979. Immediately before it Basil and Sybil are discussing their early married life …

Basil Fawlty … “Seriously, Sybil, do you remember, when we were first manacled together, we used to laugh quite a lot?”

Sybil Fawlty … “Yes, but not at the same time, Basil.”

Just retrieving the clip from YouTube means I’ll now be spending half the evening chuckling over other bits of this classic series.

Basil Fawlty … “Well… may I ask what you were expecting to see out of a Torquay hotel bedroom window? Sydney Opera House, perhaps? The Hanging Gardens of Babylon? Herds of wildebeeste sweeping majestically…”

Everynuc elbow room

Of the polystyrene nucleus hives (polynucs) I’ve seen, owned or butchered, the Everynuc sold by Thorne’s is the one I prefer. They have a separate OMF floor and Varroa tray, are easy to paint and are made from dense, robust and thick (i.e. well-insulating) polystyrene. The entrance is a gaping maw, but that is easily fixed with some wire mesh pinned in place. The beespace is also an issue due to the compromises made to accommodate both long-lugged National and short-lugged Langstroth frames, but again this can be fixed easily and cheaply (though it’s a bit irritating having to ‘fix’ a box that costs almost £50  🙁 ).

Entrance reducer

Entrance reducer …

Polynucs for overwintering

Colonies overwintered in these boxes did very well and were generally at least as good, and often better, than my colonies in cedar hives. Although I’ve also purchased a few of the Miller-type feeders it’s actually easier to prise up one end of the crownboard and simply drop fondant – or pour syrup – into the integral feeder in the brood box. Checking the remaining fondant/syrup levels takes seconds through the clear flexible crownboard and barely disturbs the colony at all.

Everynuc

Everynuc …

Polynucs for queen mating

Due to work commitments I haven’t had time this season to deal with high-maintenance mini-nucs for queen mating, so have been exclusively using these Everynucs. With the vagaries of the weather in my part of the world it’s good not to have to keep checking them for stores during cold, wet periods. It’s also great to work with full-sized brood frames that allow the laying pattern of the queen to be determined easily. I usually raise a couple of batches of queens in a season and this means I’m going in and out of a dozen or so of these boxes regularly, making them up, priming them with a sealed queen cell, inspecting them for a mated queen etc. I usually start them off as 3 frame nucs, dummied down, to save resources, allowing them to expand with successive batches of queens.

Space for five and a bit frames

Not 6 frames

Er, no …

One of the nice features of these boxes is their internal width which is almost but not quite sufficient for 6 Hoffmann frames. You therefore need to use five frames together with a dummy board to avoid strong colonies building brace comb in the gaps on one or both sides of the outside frames. One advantage of this additional ‘elbow room’ is that these boxes can accommodate slightly fatter brood frames, for example when the bees build up the corners with stores rather than drawing out foundation of the adjacent frame. There’s also ample space to introduce a queen cell or caged queen, check for emergence – or release – in a day or two and then gently push the frames back together again.

Dummy board needed ...

Dummy board needed …

Even better, by removing the dummy board there’s enough space to work from one side of the box to the other without first removing, and leaving aside, a frame to make space. The frames do need to be removed gently and slowly to avoid rolling bees (but you do this anyway of course). However, since I’m generally looking for the recently mated and laying queen ‘slow and steady’ is a definite advantage. In the image below you can see the space available, even when four of the frames are reasonably heavily propilised.

Just enough space ...

Just enough space …

To make frame manipulation easier it’s worth adding a frame runner on the inside of the feed compartment (it’s the white strip just visible in the photo above) as described previously. Without this the bees tend to stick the frames to the coarse wooden lip of the feeder with propolis, thereby making it more difficult to gently slide the frames together (or apart).

The brood boxes of these Everynuc’s stack, meaning you can easily unite two nucs into a vertical 10-frame unit using newspaper. The vertical beespace is wrong (the boxes are appreciably deeper than a National frame) so the resulting colony should be moved to a standard 10-12 frame brood box before they build extensive brace comb. As the season draws to an end it’s therefore possible to take pairs of boxes, remove the queen from one to requeen another hive, unite the colonies and then – a week or so later – have a good 10-frame colony to prepare for overwintering … or, of course, overwinter them directly in these nucleus hives.


The only exception were those in the bee shed which were probably 2-3 weeks even further ahead in their development by late March/early April this year.

Not beekeeping …

… pretty much describes my August. Having moved from the Midlands to Fife at the very end of July, with a new house and new job to sort out, I’ve had almost no spare time for my bees. Fortunately, August is usually a pretty quiet month. The swarming urge is more or less over and – with good weather – the colonies should be piling in the nectar. Unless you’re queen rearing – and I’m not – it’s a time to sit back and look forward to the fruits of their labours.

Tentsmuir fireweed

Tentsmuir fireweed

All the colonies I moved up in a van settled well in their new apiaries. The majority are in a temporary site while my beehouse (about which more in a later post) and main apiary are prepared. The remainder are in a friend’s garden, in a lovely sheltered South East facing spot. The fortnight after moving them the weather was very unsettled and there were reports on the SBAi forum about the risk of starvation. It’s been unseasonably wet throughout July (200% of the 30 year average rainfall) and there was nearly no nectar available. Large colonies were OK, surviving on their stores or even collecting a bit here and there. In contrast, nucs were very low on stores and dangerously close to starvation. I’ve noticed this type of threshold effect before, where only the larger colonies have sufficient foragers to exploit limited nectar sources. I know that others think that the colonies most at risk are those with a large proportion of open brood – whether nucs or full colonies. This might be the same thing, just described in a different way. These nucs were expanding fast and had quite a bit of open brood. I gave all of them a block or two of fondant, either dropped directly into the feeder of the Everynucs, or laid across the tops of the frames in Paynes poly nucs.

Within days the weather picked up, the colonies quickly used up their fondant and several of the larger nucs (the 8-framers in butchered Paynes poly nucs) all started running out of space. I moved these into full sized hives. At the same time the full colonies had started piling in the nectar so a few were given extra supers in the hope of getting a bit of honey late in the season.

Give them more supers ...

Give them more supers …

As soon as this period of settled weather looks like ending it’ll be time to start thinking about preparations for the winter. This means taking and extracting any honey, Varroa treatment and feeding up the colonies. I usually like to get my Varroa treatment completed early as Apiguard (which I routinely use) has a tendency to stop the queen from laying. On warm early autumn days the smell of thymol in Apiguard-treated hives can be overpowering. However, this year I’m going to use vaporised oxalic acid on the majority of colonies. I’ve used this a few times already this year – on colonies with undesirably high mite levels early in the season and on swarms – and think it’s very well tolerated by the colony, with no apparent interruption to egg laying by the queen. By treating three times at 5 day intervals – to account for the sealed brood in the colony – at the same time as I feed fondant I hope to let the queen lay well into the autumn, generating the all important winter bees that will get the colony through to the next season.

Note … this post has been sitting unfinished on my Mac for a week or more as I struggle with an endless pile of boxes to unpack. The weather looks to be gradually deteriorating and the supers will probably be taken off this weekend.

Langstroth nuc conversion

I bought several Modern Beekeeping/Paradise honey 6 frame Langstroth poly nucs in a sale a couple of years ago. My recollection is that they were £29 each. These are fine quality poly nucs and I’ve previously described their conversion into 2 x 3 National frame nucs for queen mating. I wanted to convert the remaining nucs into standard 6 frame Nationals, similar in design to the Everynuc sold by Thorne’s. I think the latter is probably the best quality poly National nuc currently available but, at over £47, they’re not cheap and not without their faults.

Using scrap ply from the offcuts bin, a few bits of stripwood and some odds and ends it was relatively easy to convert the box non-destructively. One end of the box consists of a single piece of 11mm ply 239x243mm (w x h). The other end has an integral feeder made from two pieces of 5mm ply 239x240mm (w x h) separated by a 54mm wide piece of softwood. The feeder has a 3mm ply base. Because the MB nucleus boxes have internal mouldings I needed to add spacers (6mm and 9mm respectively) on the non-feeder and feeder ends. All joints were glued and stapled with a nail gun. I added plastic runners to the top edges, sealed the inside of the feeder with melted wax and fixed the ends in place with screws.

Unlike the Everynuc, this converted MB poly nuc has the correct beespace at the frame ends, top beespace and a small entrance (two 16mm holes, easily sealed for transport and easier to defend). The cost of the materials is negligible. Although I still don’t like painting these boxes, the handholds are useful and – if you can buy them in the sales from Modern Beekeeping – this converted nuc works out about 40% cheaper than the Everynuc and corrects most of its design faults.

That’s probably the last posting ever on converting poly nucs … I’ve now got more than enough for my modest needs. Other than infrequent repainting and the odd bit of filler to fix holes or damage I expect these to last and last.