- Joined
- Sep 7, 2013
- Messages
- 333
- Reaction score
- 307
- Location
- Loughborough
- Hive Type
- 14x12
- Number of Hives
- 11
Hi all, thoughts on this are appreciated. Attached is a video taken at the entrance of my Warre hive today, before the storm. It being mild, the bees were out on (presumably cleansing) flights, and some corpses were being ejected. So all fairly positive, and, for now at least, it appears the colony is still OK.
The hive scales are showing a progressive decline; though 2.5kg in the last 3 months must certainly rank as a frugal use of stores. Maybe the colony is very small.
What I can't quite wrap my head around is what happened to the internal hive temperature (and humidity) in mid September, and how this data has tracked since. Indeed I both changed the battery, and then sent the sensor unit back to Slovenia, as I believed it to be defective.
I started monitoring in April last year, at a point when the colony was clearly expanding. As you can see, come rain or shine, the bees kept the hive temperature at around a constant 35 degrees, and the humidity at about 65%. Then, in mid-Sep, a dramatic collapse:
Even though I had healthy cohorts of flying bees, my initial conclusion was a catastrophic event (probably a Queen death) causing the colony to lose it's cohesion. As such (and assuming a functional monitor), I was expecting a speedy demise.
Instead, these bees are showing consistent signs of life, even though my monitor has even shown (last week) internal temperatures dropping below zero:
Whaaat ??
We will all be familiar with feeling the strong heat emanating from a crownboard in, say, February/March, when the brood factory is firing up again in anger.... But (mainly as I don't open my hives at this time of year) I have no real 'feel' for how much heat is emitted/lost by a colony in cluster.
By all accounts, if my stats are to be believed - virtually none. i.e. the cluster is staggeringly efficient.
The hive has 3 boxes on, incidentally, and the sensors are between the top box (which, in Sep, contained stores, but no brood) and the middle box (which contained brood in all stages).
I fully respect the "insulationladz" on the forum, and the use of a 'perfect' tree cavity as a point of reference for the 'ideal' (with its thick, insulative walls and small entrance)....... I'm not suggesting where they can stick their R or U values, but I would hazard a guess that the majority of feral colonies overwinter in sub-optimal homes, and therefore, whilst it is obviously goodly, kind and right to provide bees dry homes with super-insulative properties, I think healthy bees are well adapted and able to cope even in very harsh circumstances.
Now, these bees might not survive. If they do, I'm going to be very interested to see whether and when the internal temperature clicks back up to the 35 degree level.
It just seems weird to me at present.
Maybe others who monitor see similar things, or not?
Video:
View attachment 1000005262.mp4
The hive scales are showing a progressive decline; though 2.5kg in the last 3 months must certainly rank as a frugal use of stores. Maybe the colony is very small.
What I can't quite wrap my head around is what happened to the internal hive temperature (and humidity) in mid September, and how this data has tracked since. Indeed I both changed the battery, and then sent the sensor unit back to Slovenia, as I believed it to be defective.
I started monitoring in April last year, at a point when the colony was clearly expanding. As you can see, come rain or shine, the bees kept the hive temperature at around a constant 35 degrees, and the humidity at about 65%. Then, in mid-Sep, a dramatic collapse:
Even though I had healthy cohorts of flying bees, my initial conclusion was a catastrophic event (probably a Queen death) causing the colony to lose it's cohesion. As such (and assuming a functional monitor), I was expecting a speedy demise.
Instead, these bees are showing consistent signs of life, even though my monitor has even shown (last week) internal temperatures dropping below zero:
Whaaat ??
We will all be familiar with feeling the strong heat emanating from a crownboard in, say, February/March, when the brood factory is firing up again in anger.... But (mainly as I don't open my hives at this time of year) I have no real 'feel' for how much heat is emitted/lost by a colony in cluster.
By all accounts, if my stats are to be believed - virtually none. i.e. the cluster is staggeringly efficient.
The hive has 3 boxes on, incidentally, and the sensors are between the top box (which, in Sep, contained stores, but no brood) and the middle box (which contained brood in all stages).
I fully respect the "insulationladz" on the forum, and the use of a 'perfect' tree cavity as a point of reference for the 'ideal' (with its thick, insulative walls and small entrance)....... I'm not suggesting where they can stick their R or U values, but I would hazard a guess that the majority of feral colonies overwinter in sub-optimal homes, and therefore, whilst it is obviously goodly, kind and right to provide bees dry homes with super-insulative properties, I think healthy bees are well adapted and able to cope even in very harsh circumstances.
Now, these bees might not survive. If they do, I'm going to be very interested to see whether and when the internal temperature clicks back up to the 35 degree level.
It just seems weird to me at present.
Maybe others who monitor see similar things, or not?
Video:
View attachment 1000005262.mp4
