Sunday, January 12, 2020

ACOUSTIC CONTROL OF EXPERIMENTAL HIVE IN JANUARY 2020



January 10, 2020. The weather is warm - It's about + 1- +2 degrees Celsius... The bees are in the upper part of the hive. Candy, which we gave, already ended in almost all families ... Some bees were found on the snow ... Due to the hot winter,  it is possible that a cleaning flight  took place, or the bees  throw out the dead ones...




In the control hive it was carried out an acoustic control, using Apivox Smart Monitor . We made a cut in a textile cover of the moss pillow. This made it possible to insert the smartphone into this "pocket" with the microphone facing down. As a result - the maximum possible sound contact without raising the pillow. Bees were active enough, but the wired microphone practically does not hear them !!!






Bees are quite active and this can be seen on the diagram.


Screenshots of results of control in several modes also confirm the same - we used General State Control mode and  Brood Control mode.








It can be seen that after the anxiety of the bees, the signal in the area of ​​active in-hive works increases. However, there are no signals associated with the work of the wings. And there is no any signals of excitement ...







The app in Brood Control mode show, that prior to the anxiety, the signals were clear and that all of them were in the diapason of in-hive works. The anxiety - opening the hive, control of "mites drop", led to extension of the range of signals and their partial falling into the area of the signals, which the bees emit when they work with brood... But their strength is such, that the average value is about zero. And after we stopped working with this family, the signals again began to move into the range of in-hive works...  So, we should say, that most likely, there is no open brood in the family...



Saturday, January 11, 2020

Apivox Smart Monitor measuring in winter through the moss pillow

New inner cover of the hive and the new moss pillow make it easy to use Apivox Smart Monitor app even in winter. The smartphone’s built-in microphone almost touches the bee cluster. All signals are quiet strong... But the bees are too active....  this winter is very hot ... Temperature is close to 0 degrees Celsius... 

Measurement is made in our experimental hive, where we use new model of inner coverage and new model of moss pillow. Textile make it possible to make a hole, and to insert in this "pocket" your smartphone. Result is the best of those, which could be obtained... 


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Wednesday, January 8, 2020

URGENT ACTIVE HEATING OF THE NEST.


Reinforced convection heating, the task of which is to quickly restore the temperature in the hive, which is necessary for the active work of the bees, or for brood rearing. In spring and summer, its presence is usually associated with a large number of sealed brood, and sometimes with the presence of queen cells. In winter - with a sharp cooling of cluster of wintering bees.

The existence of this type of heating was assumed by us for a long time, but unfortunately we did not have enough observations to confirm this effect. Some data from our summer observations and from experiment conducted in winter time allowed us to confirm our ideas. What is the meaning of our idea .... The point is, that for heating of a large volumes as quickly as possible, or for fixing some kind of emergency situation, there is needed the most efficient method of heating and transferring of heat. This is convection, which, in combination with heating of the bee itself, can provide the fastest heating of the nest, the wintering bees' cluster, or the hive as a whole.

The use of this heating method in conjunction with the other three known methods - heat insulation, passive heating, active heating with generation of vibro-acoustic signals without movement of the wings, allows not only to maintain the temperature in the most economical way, but also to eliminate the consequences of emergency situations. In addition, the work of the bees, as an active process, is also accompanied by the release of heat. This is not a heating method, but this process participate in the overall picture of creating and maintaining heat in the nest too.

What exactly the mechanism of urgent heating is ...  We assume, that in addition to silent heating, and heating with thorax vibration, exists the type of heating, which use wings flapping as a source of heat generation. This mechanical loading reduces the resonant frequency of vibration of the muscles of thorax, but increases the amount of work done, as a result,  producing more heat. This also improves heat removal and provides forced convection, redistributing the heat in an optimal way over the volume of the nest or in the winter cluster.

Why is it better to flap wings with a frequency of about 100 Hz, than to vibrate with a higher frequency? Or why not to flap wings with a frequency much more than 100Hz?  It is thought because in all cases Nature avoids the waste of energy and life resources. Unfortunately, any living being is not forever. Each has its own resource. And everyone save and cherish it, lengthening their lives.

And what about vibrations and flapping of the wings? In order to understand this, we will give an example: When we freeze, we begin to shiver. Muscles vibrate, producing heat. If this does not help and we continue to freeze, then the shiver becomes stronger ... we just start to shake. Muscles begin to perform even more work, releasing more heat. But the surest way to quickly warm up in the cold time, is to start waving hands and running. So, our muscles make more work, and  produce more heat. Further, our internal convection starts working. Yes, and we have it too. Convection of blood begin to transfer heat to our internal organs, warming them. We get warm, stop shivering, and stop running and waving our hands. Our body warmed up and went out of the critical phase of cooling.

Realizing that we all have a single Creator, we draw a direct analogy, believing that the general algorithm for the functioning of living beings is one and the same ... And the bees act quite similarly to us... When it become cold, bees  begin to strain muscles, producing heat without vibration. By the way, we are also know how to do it ...  If this does not help, the bees begin to vibrate, emitting more heat, thanks to the accomplishment of more work. If this does not help, then the bees begin to flap their wings, as we do with our hands... By doing more work, they achieve production of more heat! Moreover, in the result of these actions, the bee blows on her own body, and on everything that surrounds her...

 What is the reason for the importance of such a blowing ... The reason - is the efficiency of heat transfer ....

We have no doubts about the effectiveness of  convective heating. Convection is a process of heat transfer during moving of volumes of liquid or gas (fluid) from the place with one temperature to the place with another temperature. In this case the heat transfer is inextricably linked with the transfer of the medium itself, which is essentially a heat carrier.

Convection of heat is always accompanied by conduction of heat. The joint process of heat transfer by convection and conduction is called convective heat transfer.

The intensity of transfer of heat( or cold ) from one medium to another is characterized by the transfer coefficient, which depends from each environment. If environments have dramatically different coefficients of heat transfer, the heat transfer rate is determined by the environment, which makes it the most slowly.

What else affects the intensity of heat transfer. Of course, it's the relational speed of movement of one media over other. As you know from the basics of heat transfer, the heat transfer coefficient increases with increasing of the speed of heat carrier, in our case air flow. But not indefinitely. There is an optimal ratio of speed of air flow, relative to the stationary environment, which is characterized by maximum quantity of the transmitted heat, with expenditure of optimal amount of energy to move the heat carrier. In our case, the two environments are - the body of the bee, and blowing air. If you will use forced blowing of solid body by air flow, instead of free convection, then heat transfer coefficient increases twice.

Additionally, the heat transfer depends on the shape and geometry of the body, blown by the air. The larger the contact area of solid body with air flow, the higher heat transfer. The less streamlined is the shape of the solid body, blown by the air, the higher the coefficient of heat transfer.
In all these, bees are not too much lucky. Their streamlined body covered with a chitinous exoskeleton is not the best heat exchanger. This means that the rate of heat transfer from the body of bees to the air flow will not be very high. So, the flapping of the wings provide air flow, removing heat from the body of bees and transferring it to the brood and other parts of the nest can't be very high. And frequencies rate of emitted sounds can't be very high.

Such sounds with the frequencies above 20 Hz. people can hear as a very low sounds, and our device can register them, if their frequencies are higher than 70 Hz.  And indeed, our device captures such signals at times of tense situations in the bee family. The frequencies that we fixated, were in the range of about 100 Hz and by the type of picture of the spectrum could be attributed to the signals, created primarily by bee wings, since they have the correct multiplicity of harmonics x2, x3 ... etc.

And how do the  bees use their heating capabilities at different situations of their life ...

Settling into a new home, the swarm immediately begin to maintain the temperature, necessary for the beginning of egg laying by the queen. Then the bees begin the process of maintaining the temperature using thermal insulation and passive heating of the nest. Further, if it is necessary to maintain the temperature in a larger volume, the bees use  additional active heating. In cases of a sharp drop in temperature, the bees immediately use urgent heating. After restoring the temperature balance, this type of heating stops and the bees go over to more economical forms of heating.
Let's consider the examples of our observations, which we believe, confirms our ideas...

Recently, we conducted an experiment on cooling the nest of hibernating bees with the fixation of changes in the background signals in the hive. The results were very interesting. At the outside temperature of -15C , we received data, possibly confirming our hypothesis about the "conditioning" of the hive, that is, the use of ventilation of lowest force, in order  to improve the heat removal from the bee's body in emergency moments of severe cooling of the nest ...

We assumed that in addition to heating, which is usually silent, heating with the performance of flapping of the wings can be used by the bees. This reduces the resonant frequency of vibration of muscles of thorax of the bee, but adds improved heat removal and provides forced convection.

When we removed the warming pillow and left only a thin fabric, separating the upper part of wintering bees cluster from the street and made measurements, we saw how the signals characteristic for various jobs in the warm nest began to change, and turned into signals of the lowest frequencies ventilation,  and thorax vibrations which in sum provide the best heating and convection of warm air.

When the pillow was returned, after 20-30 minutes, the signals changed again, and began to correspond to the performance of in-hive works and feeding... We managed to simulate this situation two times in a row. The predominant signals were - heating and convection.


Further research conducted using our archives, showed, that this situation is not unique. The same signals were recorded in the summer in a very specific situation. This once again confirms the immutability of the principle of life support in bees, and its independence from the season of the year.


The appearance of the signals, was absolutely similar to our winter urgent heating, but was recorded in June, in the family, in which there was sealed brood and queen cells.  And we already expected a close exit of the first queens. It should be noted, that at this time, in June, it was pretty cool. The bees in the hive were less than they needed, because these families, in which we were waiting for the queens, were practically divided in half. Thus, the number and age composition of  bees in these families did not allow them to use passive or active heating. And the bees used the most efficient method of heating - heating with convection or as we called this effect - "urgent heating with convection".

As another confirmation, can serve an experiment, in which was used our  observation hive, which we moved from sunny outdoors place to the cold room. In this situation, when the bees placed on the frame with sealed brood  felt cold,  they shifted from the passive state to active ...  At first, they made attempt to retain heat, and then they shifted to active heating and urgent active heating. Here you can consistently see all the phases we talked about. And in the last phase, it seems to us, we can see the signals of both types of heating - of active heating and of urgent heating with convection.

Yes, unfortunately everything is not so simple. We do not yet know, whether there is a combined mode, when a bee can vibrate warming the chest, and at the same time, to blow on itself using her wings. Apparently, since the same muscles are involved in both modes, the bees cannot perform two types of work at the same time. But they can do it in turn! After all, the vibro-acoustic signals which were recorded by the scientists, were lasting for about 0.2 seconds or less. This means, that  for our eyes, a periodic change of heating process to flapping by the wings, will be not noticeable... But the device, based on the Fourier algorithms, will record two chains of pulses with different frequencies of the fundamental tone - one will correspond to the heating with the use of vibration of the thorax, the second will be created by heating with the help of wings flapping ! The possibility of this, we have to find out in our further researches.

There is another possibility that is much more prosaic. It is possible that in this situation we hear a few bees doing the work on heating the brood. But  one of them use "active heating", and the others have already switched to "urgent heating", considering, it seems, that it is better to overdo, than to freeze sealed brood.


it seems to us, that on the diagram it should look like this:

And only Apivox algorithms, after processing the signals for a long period of time, will determine the priorities in this mix of signals, and will give diagnosis about the state of bees, in correspondence with the average situation for the selected time interval.
 

Thus, we can once again state the presence of four modes of thermoregulation in bees.

- Performance of every-day in-hive works, leading to heat generation due to metabolic processes, and further heat preservation due to thermal insulation and creation of clusters.
 - Passive heating with virtually no any vibration of the thorax, but with the heating of the bee's chest.
 - Active heating with powerful vibration of  thorax and creation of vibro-acoustic signals in the low frequency zone of the working range, without the participation of the wings, which are fixed in slightly open position.
 - Urgent heating with the work of the muscles of the thorax in resonance mode, similar to ventilation, but in which the wings operate at extremely low frequency,   which leads to the development of the maximum amount of heat, and  creating a weak air flow, providing improved removal of heat from the body of the bee, and spreading it inside the hive.

Practical lesson. Analysis of sound recordings from two different hives using different modes of Apivox Smart Monitor.




Here we can see a screenshot, on which, in the sound file editor, we can see the appearance of two audio signals, recorded one after another at interval of several minutes, in two different hives, on a warm sunny day at the end of August.This is hives No. 7 and No. 9.

According to our opinion, at a glance, and aurally, these signals are distinguished only by the fact, that the first signal is slightly weaker. We can not understand other differences.

But we conducted an examination of these families, and we know, that their states are different, and after all measurements we will tell about their real state...

So, at first, we will use the basic control mode  -  General State Control mode. We will carry out control, using a long measurement interval. Here is  the result of our measurement....
It is immediately visible, that there are differences in the composition of the signals, and diagnostic messages confirm this...

Family in the hive №9 actively collect honey and make in-hive works. All works are active and strong.

The family in the hive No. 7 practically does not work on honey collection and only make in-hive works. Apparently, it does not have enough strength to work on honey collection.

We will conduct one more check of these families using Readiness for Commodity Honey Collection Control mode. This should show general trends between in-hive works, including brood care, and works aimed at honey collection. And what is more important, we will see their distribution over time, that is, the main trend, taking place in these families. So, the measurements are carried out, and we see the result...

The measurement result unambiguously shows the difference in behavior and condition of the bees in two families.
In the beehive No. 7, bees are in the borderline state between in-hive works, including caring for brood, and  honey collection.  And caring for brood, sometimes prevails.

In the beehive No. 9, the bees are in working state, and can use honey harvest. The work on honey collection is not ideal, the family also has in-hive works, which are needed to be done. But honey is delivered and processed.

Thus, monitoring shows that families have different states....

Family No. 7 is trying to maintain or build up strength, using domestic stocks of honey. Honey harvest is not used.

Family number 9 use honey harvest, but not as active as we would like.  And now, beekeeper himself have to determine the cause - whether this depends on the strength of the family, or on the strength of honey harvest.

Now, a few words about the families, which live in these two hives......

Hive No. 7 - This is offshoot with 4 frames of brood of different ages, and without queen. Bees must grow a new one. Offshoot is located near the main family, so most of flight bees returned to the old place. Bees practically do not fly out.

Beehive number 9 - is a small family, which was in the beginning of the summer an offshoot. It have young queen, 3-4 frames of brood, bees flying for nectar, but activity is not very high.

So you could be sure that the diagnostics that you can get using Apivox Smart Monitor fully corresponds to the state of the families. The only thing about which the beekeeper should not forget, is that the device can not replace him, but will only help him to see some things, which he can not see and can not hear by himself.

P.S. Files with recordings of these signals are always enclosed to the application, in order to give you possibility to test the device at home. When using these files, do not forget to set the equalizers of your record-player and computer to neutral position.

ACOUSTIC CONTROL IN THE PROCESS OF WINTERING - the Peculiarities



Our three-years study of bees' life, using the Apivox Auditor and Apivox Smart Monitor acoustic control devices, led us to conclude that some statements, made by Professor Eskov about acoustic signals of bees during the wintering period, which were considered to be fundamental and not subject to doubt, today look somewhat untenable. We would like to conduct a comparative analysis and allow you to see the reasons why we came to this conclusion.
So, let's talk about bees signals in winter ...


Prof. Eskov writes: * ... "components in the range of 210-330 Hz are generated by processes associated with the heat production of bees  This conclusion is based on the following: 1) the intensity of the components in the range of 210-330 Hz is directly dependent on the amount of heat released by the bee family; 2) this range is constantly present in the sound background of the hive, and bees, as it is well known, support a certain thermal regime in the nest, and as a result have constant heat production ; 3) a decrease in temperature in the peripheral zone of the nest is reflected in a decrease in intensity of bees' sounds in the range of 210-330 Hz 4) Bees are capable to produce sound in the range of these frequencies, exclusively by vibration of thorax, under the action of indirect-acting wing muscles. In the process of this vibrations heat is generated ... "
  * Sources  - Eskov EK 'Honeybee Behavior' - Moscow: Kolos, 1981 - p.184
                   - Eskov E.K. "Acoustic control of the state of bees"
   
We disagree with almost all statement. Heat production, according to all authoritative scientists, under normal conditions, practically does not cause any generation of sound signals. Bees, like all living creatures, first of all follow the path of minimizing of energy losses, and therefore, pay more attention to the conservation of energy, than to its creation. In addition, this statement does not take into account the breed characteristics of the behavior of bees, associated with generation of vibro-acoustic signals.

We believe that appearance of an incorrect interpretation of the behavior of bees during wintering, is associated with a radical difference in the behavior of the Russian breed of bees during wintering, from  breeds of bees, whose homeland were the mountains.

According to scientists, the bees of mountains, to which Caucasian mountain bee belongs, as well as apparently Carnica, require a temperature of 5-6 degrees lower for normal vital activity, than, and this is surprisingly, more thermophilic bees of Russian breed.

That is why Russian bees are forced to spend more strength and energy on wintering, almost constantly engaged in the distribution of food and active heating. That is why they consume more feed and have a large winter waste of bees. That is why their acoustic signals are always loud and always contain peaks in the area, corresponding to the performance of various in-hive works.

We could observe such effect during winter control of two families - the family with the F1 queen of the Carnica breed, and the family, which was a crossbreed between Russian bees and
some other. The bees of the Russian breed could be  heard even at close distance from the hive. Carnica breed bees could not be heard, even when the hive was open, and the microphone was placed on the upper bars of the frames among the bees.

This breed phenomenon, as it seems to us, served as the basis for the incorrect statements of prof. Eskov .... After all, heat production up to a certain point is generally not accompanied by any significant sound signals, and is not always accompanied by the vibration of the bee's thorax. But the amount of works, performed by the family, is directly related to the temperature in the hive and in the nest, and, accordingly, to the generation of sound and vibration signals.

In addition, another observation speaks in our favor ... We observed signals from bees, whose hives were located on open air, and at a total air temperature of about -10C, were heated by the spring sun.... The heating of the hives by the sun activated all signals dramatically, and after sunset,  and accordingly,  after return of the temperature in the hive to negative values, all signals subsided to almost complete inaudibility. And this contradicts the statement of prof. Eskov that these signals are the signals emitted by the bees during heating process, because in this case, they should increase in accordance with a drop in temperature, and not vice versa.

One more data, it seems to us, is confirming our idea. It was obtained this year when working with an observational hive. As we have already written, the family in the observant hive was brought from the cold yard into the cold room.

One side was opened, and we started measurements. The picture on the screen of Apivox Smart Monitor showed a very low level of acoustic signals. This, in our opinion, corresponds to the mode of maintaining the optimal temperature in the nest, in the period of not very low outdoors temperatures. After that, we started heating of the observational hive using a fan heater.  At some intervals, the heating was stopped and measurements were taken. The result showed an increase in the activity of bees in the process of heating the hive.  Accordingly, the level of acoustic background also increased. The cluster of bees became more friable, the bees began to do their usual works.

It should be noted, that after a while, the activity of bees continued only around the queen. The
overall level of background signals decreased, remaining, however, higher than when they were in hibernation. The reason for this could be the apparently complete lack of works, that could be continued to be done, after the first needs of bees were met.

So, this experiment also speaks about the inverse relationship of the acoustic background of the bee family, to the cold in winter. This means, the colder the weather, the lower the acoustic background of the hive at small negative or slightly positive temperatures, when the bees shifts to the phase of passive heating and heat preservation. As the temperature increases, the bees become more active and begin to work and ventilate the nest. This leads to an increment in the acoustic background of the hive.

Basing on our own observations and data of scientific works of American scientists on the topic of thermoregulation in bee colonies (  Honeybee Colony Thermoregulation – Regulatory Mechanisms and Contribution of Individuals in Dependence on Age, Location and Thermal Stress, metabolism-and-upper-thermal-limits-of-apis-mellifera-carnica-and-a-m-ligustica ),  it can be concluded, that there may be times, when the active heating phase may be accompanied by generation of sounds on the lowerest frequencies of the range, indicated by prof. Eskov, as the diapason of signals of working bees.

We have developed our own theory, where we present a group of evidence, which states, that this is possible. No doubt, that  additional researches will be required, in order to confirm this statement.

It cannot be denied, that at extremely low temperatures, bees may still have to spend more energy for heating and, accordingly, this requires more feed, which in its turn, can cause an increase in the amount of works in the warm part of the nest, and a corresponding increase in acoustic background. But the rise of background sounds occurs mainly in the low-frequency part of diapason, which was mentioned by prof. Eskov.

Thus, in the process of conducting our own observations of wintering bees, we clearly noticed the dependence of acoustic signals on temperature and time of day!  Acoustic background of the family fully corresponds to the works, with which bees are currently busy, differs by nothing, from the sound background of the family in summer. This is a very important result, indicating, that the "vocabulary" of bees stay unchanged in summer and winter.


As a result, it can be argued, that the strong sound background of the hive in winter in the high-frequency region is not directly related to heating, and says, apparently, about possible problems in the family.
On the other hand, strong sound background in the low-frequency region, indicates the attempt of the bees to heat the hive. It is possible that the family needs to heat the hive and move to a new frame with food, or about external intervention, because of which, the family must shift to the active state, in spite of the winter cold.  In this case, while beehive is heated, the growth of high-frequency component in working diapason will be associated with the implementation of in-hive works.

At the same time we believe that there is no strictly established relationship, between the reasons that caused this event and the frequency components of the acoustic background. This can be hunger, mice, excessive concentration of CO2. We just see the attempt of bees, in spite of the cold around, to correct the situation in which they found themselves, and save the family.

----------------Copyright Glebskij ------------------