Third update of the Apivox Smart Monitor app - Apivox Smart Monitor_r3

 Apivox project is releasing the third update of the Apivox Smart Monitor app, which we will begin to make and send to our customers, from January 2021.  New version of the application Apivox Smart Monitor ( r3)  has improved diagnostic of the state of bees in the main operating mode of the device - in General State Control mode. Added information messages about some new states based on a combination of acoustic signals emitted by bees during various types of work in the hive. Diagnostics has become even more complete and accurate. At the same time, the price of the application remains unchanged at $ 40 or € 30. Today it is the cheapest solution for the most accurate diagnostics of the condition of your bees, available both to an amateur beekeeper with a couple of hives, and to professionals who have apiaries with dozens of bee colonies. And as you remember,  diagnostics does not require opening the hives and disturbing the bees. This is especially important for those who keep bees near residential buildings, and especially for urban beekeepers.

 Together with the app you will receive manual and the book on the theory of acoustic control of the bees' families - " LISTENING FOR THE BEES" or "ISSUES OF BIOACOUSTICS"! This book is an unique knowledge set about the most unusual way of understanding the life of bees, and about its use in beekeeping practice. Another book which you'll receive- is the book on Varroa mites combating - "FEATURES OF DEVELOPMENT OF VARROA MITES' POPULATION  IN THE FAMILIES OF HONEY BEES, AND NEW EFFECTIVE  METHODS OF SUPPRESSION OF THEIR  DEVELOPMENT WITHOUT THE USE OF CHEMICAL DRUGS".

APIVOX SMART MONITOR. DIFFERENCES IN THE VALUES OF THE SIGNALS IN BROOD CONTROL MODE, IN THE PRESENCE OF OPEN AND SEALED BROOD.

As we mentioned in the book, bees emit vibro-acoustic signals when caring for brood. This does not apply to any type of brood, but only to open brood. Only taking care of it - heating and aeration cause the appearance of vibro-acoustic signals that we can hear, see on the screen of the Apivox Smart Monitor device, and interpret correctly.

 Let's give an example ... We will consider three colonies of bees in the fall, when the brood rearing ends in the colonies ... but not at the same time. This allows us to monitor families in different conditions. Some families have only sealed brood, and some families have both sealed and open brood in different quantities.

In this family, brood hatching is finished. Despite the fact that there are frames with sealed brood, there is practically no care for open brood. The check of the hive shows presence only of the last sealed brood . We do not see eggs and larvae. And the device shows the corresponding diagnostics ... The graph is white, which means that the bees perform all kind of works without any emphasis on brood care. This is a fairly active process and if it is present it immediately becomes noticeable on the diagnostic graph.

In the next hive, the situation is different. Here we see a small amount of open brood - young larvae and eggs. There are very few sealed brood. Apparently the queen finished laying eggs, and then little by little continued it. The presence of an open brood is confirmed by the red peaks on the plot obtained in the Brood Control mode. There is not much open brood and it does not take too much time to care for it. Mostly bees are engaged in other works inside the hive.

In the third hive, the situation is intermediate. Exists both, open and sealed brood. There is still quite a lot of open brood and therefore we see three red peaks on the graph. Bees turn to brood care more often.

The two graphs in hives 1 and 3 were made at different times. It is clearly seen that it is better to check families for the amount of open brood either in the morning or in the late afternoon, when the work on honey collection subsides. Then the readings of the device become more accurate and visual.

 

When is the best time to delete the sealed brood in order to remove maximum Varroa mites from the bee family, and to protect the bees for the rest of the year.

As we have already said, a good method for both - for inhibition of swarming process and for reducing the number Varroa mites in bee families in the spring, is the method of removal of sealed brood, which is widely used in Europe. The reason of prevalence of this method is use in Europe of such a breeds of bees as Buckfast and especially Carnica. These breeds are characterized by an early start of egg laying by the queen, and very strong and rapid spring growth. This makes it possible to use brood removal in order to form early offshoots, for reduction of swarming mood in bee families, and for removal of  maximum amount of Varroa mites from bee families which are going to be used for honey collection.

This method has worked well in Europe and there is no reason why it can't be used elsewhere.... But, there is one interesting question... And when is the best time to remove sealed brood and how to determine this time?  This is the question we will try to answer ....

Let's define the criteria that we need... At first, we must have the sealed brood itself. It should not be much - one or 2 frames ... no more. Otherwise, we will take away a lot of energy from the main working family, which it will spend on feeding and heating of this brood.  Secondly, the forces of each family in which the brood will be collected from 3-4 families, should be enough to heat it.  Thirdly, in these one or two frames of sealed brood should be gathered almost all the mites that wintered on worker bees ...

When will this moment come and what is its indicator? We think, that free fall of dead mites on sticky board is a pretty good indicator. 

Throughout the winter, the mites drop have relatively small quantities, since the reproduction process was not possible or was severely limited by a small amount of early spring brood. This can be seen in all charts of counting of the mites drop in our four experimental families. A little more or a little less in each family, but on average, the values ​​are not high.

With the coming of warmth and the beginning of spring development of bees, Varroa mites also begin their development. Gradually, begins the growth of mites drop, consists of dark old mites . Behind it, with some delay, pale-colored immature mites appear in mites drop. This means that the mites have begun their active spring breeding phase. So right now it is needed to be interrupted.

It is at this moment, while the mites have not yet managed to increase their population, and it is necessary to start removal of sealed brood from the main working families, and to formation of  prefabricated families from it, which will later be treated with acaricidal preparations or natural acids. As soon as there are drones in bee colonies, fertile queens can be removed from these colonies. After their removal, the bees will lay queen cells on the remains of the open brood. And in a week or two,  young bees will come out from sealed brood and only flying bees and unfertile queens will remain in these families. There will be no brood for a long time. There is almost no honey in the nest at this time. And bees can be safely treated against Varroa mites, and with a high degree of efficiency. After processing, these bees can be used to make either non-honeycomb offshoots, or offshoots with honeycombs, or to strengthen those colonies from which the brood was taken.

At 55 degrees north latitude, and when working with Carnica bees, this is around mid-April. By the way, this can be clearly seen from the graph which shows the temperatures in the "streets" of the experimental hive in the period from autumn 2019 to early summer 2020.

The line graph shows the number of mites of both types falling on the sticky board per day. It is clearly seen from the graphs, that the growth of mites drop began in early April, when the bees began to confidently heat 3-4 frames in the nest (that is, 6-8 "streets"), most likely with brood. As a rule, the two central frames should already contain the sealed brood. This also confirms, that with the beginning of the growth of the mites drop, and with the presence of 2-3 frames of sealed brood, it can be removed from the bees family in order to remove Varroa mites together with it. At this time, the largest number of female Varroa mites should be exactly in it. Thus, temperature sensors located in the streets of the hive can be used in order to find this moment, if you do not want to often open the hive and to check the number of frames with brood ...

An additional element of the fight against Varroa mites at this time also becomes building frames from which it is necessary to regularly remove drone brood ( if it is not needed for breeding purposes), in which a lot of  female mites may present at this time of the year.

Instead of removed frames with brood, it is better to put clean combs in which the queen can immediately start laying new eggs, and to start feeding  bees with syrup. This will make it possible to avoid the weakening of families, which should work on honey collection, as much as possible. The developmental delay will be only a few days.

If it will be a good weather and if it will be a good supply of the families with  spring nectar, (and therefore in the presence of a large amount of brood) at the time period  before the onset of swarming season, this procedure can be repeated in whole or in part, both in order to extinguish the swarming mood of working families, and in order to create anti-swarming offshoots. The same procedure can be carried out immediately before the main honey harvest, which will free the bees from taking care of the brood and thereby will increase the production of marketable honey. Bee families in which the brood was transferred for further care, should be treated with formic acid. The bees obtained in these colonies, will be free from Varroa mites, and will be able, in the future, compensate the loss of strength of  families working at honey harvest, or will be able to become a source of bees for new offshoots ...

Thus, we found out that the best moment for removing of sealed brood from bee colonies, in order to reduce the quantity of Varroa mites, is the beginning of spring, when - 1) there are about two frames of sealed brood present in the family, and  - 2) at the same time the mites drop is just starting to increase in relation to the usual winter mites drop, and this situation means, that the female mites are maximally concentrated in the sealed brood in order to start the active reproduction process of new year.

 

Copyright   Sergey Glebskij   2020   ©  All rights reserved

Autumn 2020. First tests of bee families using Apivox Smart Monitor in winter mode.

It is late autumn now, and the bees are not doing any work outside the hive. When it is warm enough some bees can take honey from different places in the hive in order to supply another bees with food. There are bees that heat the central part of the nest in which the queen is located . Until it is not so cold,  (now about + 5C - + 7C) all signals inside the hive remain practically the same as in summer. This suggests that the bee colony feels normal and the bees are  engaged in normal in-hive works.

 But there are some peculiarities of diagnosing the state of bees in winter mode of operation of our device ... At first, you must switch it to winter mode (1), then you must make sure that you hear the signal of bees ... The picture of bees sounds must be clearly visible when amplification indicator is green or yellow... (2) If you see a red icon when trying to see the signals of bees, it is better to change the place of control, or to check the condition of bees personally...

At this time, if we will even slightly open inner cover of the hive or slightly knock on the body of the hive, the bees will be immediately excited ... To a certain extent, this interferes with the diagnosis, but this is normal and we should not pay attention to this. That is why even if there are such signals on the chart, (3) then we do not pay attention to them in the resulting diagnosis ...

Another feature is the behavior of the heating signals ... Usually, when the colony is in a normal state of hibernation, the heating signals are almost always small enough... (4) They are not the main ones, because it is enough metabolic heat which the bees emit without generation of any sounds, to heat the loose autumn cluster of bees. Therefore, the heating signal is small and the diagnostics do not mention it. If it is strong enough, then there is a high probability that brood rearing continues in the family and this is not a very good factor, since it allows Varroa mites to continue reproduction even in winter ...

The third feature is the possibility of presence of emergency heating signals. This is the lowest frequency signal in the hive. (5) And the most unpleasant one ... Its presence usually indicates, that the family does not have enough own heat to heat the nest and the queen, and this, in turn, suggests that there are too few bees left in the family to the beginning of winter. This is a very unpleasant sign, because there is a very high probability, that you will lose this family during the wintering process!

 Thus, diagnostics using Apivox Smart Monitor in winter time will not only show the state of the bees at the moment, but can give you a long-term forecast about their condition in future, if you will understand the relationship between phenomena about which we have just written ...

 Here are examples of diagnostics of two families remaining after 2 years of experiments on the Apivox Varroa Eliminator project. Until the last opportunity, these families did not receive treatment against Varroa mites, and suffered quite severely from it. Family 5-2 was very strong and produced 60 kilograms of marketable honey. But there were a lot of mites in it, especially after the finish of honey collection, and It suffered hard enough. Family 8-2 restored the queen in June and Varroa mites population in it became strong only at the beginning of autumn. We have not monitored these families for a month.

The family 8-2 showed a fairly good result. We can see 2 pictures - the first was taken in the Monitoring mode, the second was taken in the General State Control mode, that is, with averaging the results. We always choose an interval of 3 minutes as more indicative. Signals are clearly visible when the gain level is in the green zone. Family is in a working state. There is practically no excitement. Ventilation is episodic and is very weak when averaged. There is heating, but it is small and is not reflected in the diagnostics. In general, the family's condition is satisfactory.

Family 5-2 did not show very good results. We see the same 2 pictures. At first, we can see, that in order to see good signal of the bees we had to increase the gain - we see a yellow warning icon. This means that the sound of the bees is rather weak. In the monitoring mode, we also see the periodical appearance of the emergency heating signal. In General State Control mode, it also appeared, but unfortunately we did not take a photo. The second photo shows the presence of strong excitement. It would not be scary if it were not for the presence of the first signal - that is, the emergency heating signal ...

 

 

This most likely suggests, that 5-2 family is very small ... Most likely, there are very few bees and they have to heat the nest even at positive outside temperatures in a mode, that will lead to their rapid deterioration and death. This also explains the reason, that the bees are very easily become excited at the slightest touch of the hive ... Most likely this family will not survive in winter. The damage caused by the mites was too strong. There are almost no young bees left in the family which can survive until spring.

The check of the sticky board confirmed our assumption ... According to it, the size of winter cluster of bees is quite small!

And besides this, there are many mites on sticky
board, which fell down after the last treatment with amitraz. Most likely, not all the mites died.

 

Inspection of sticky board  from the family 8-2 showed,  that its size is also not very large, most likely it is about twice as large as the 5-2 family.

Thus, it can be assumed, that most likely, the 5-2 family will die before the beginning of new year. The family 8-2 has more chances to survive until spring, although they are not absolute...

 

Booklet with all articles on the theme of acoustic control.

 https://drive.google.com/file/d/1lFTQmivNP3vVwLtNYyC2mPkjsCYzYkWr/view?usp=sharing

 https://drive.google.com/file/d/1lFTQmivNP3vVwLtNYyC2mPkjsCYzYkWr/view?usp=sharing

NEW DATA FROM THE USA, CONFIRMING OUR OPINION ON THE NECESSITY TO CONTINUE THE PROJECT "APIVOX VARROA ELIMINATOR".

Studying the materials published in the American Bee Journal # 4 2020, we came across statistics, which fully correspond to our own results obtained during the work on the Apivox Varroa Eliminator project. This both pleased and upset us, since the loss of bees wherever they occur, worsens the situation with the bees on the entire Earth. 

In addition, the statistics again confirmed, that none of the drugs currently used in beekeeping, no matter how loudly they are advertised, do not radically solve the problem of combating varroatosis in our apiaries, but only put us "on the needle" of companies that produce heaps of "highly effective drugs" for the treatment of bees from various diseases!

Let's move on to specific data and their interpretation ...

So, the first material is data on the loss of bees over the past 10 years according to Bee Informed organization . The graph shows, that in the US, average bee losses have increased from 25-30 %% to 35-40% per year. Professional beekeepers always say that these are exaggerated figures that have nothing to do with reality. But, this is not entirely true.

 

Professionals also have bee losses, but they are significantly less than those of amateurs and beekeepers with small apiaries. We are also agree with this. The reason, as a rule, is that amateurs are trying to conduct eco-friendly beekeeping and to use as little as possible chemicals intended to treat bees from various diseases. At a minimum, they use them in the event of illness of their bees.

 

Professional beekeepers are always try to act ahead of the curve, as are poultry and livestock breeders. Why wait for the animals to get sick? This always results in waste of time and money. All measures for the treatment or, more precisely, for the prevention of diseases are carried out within clearly defined terms, regardless of the presence or absence of a real disease. Therefore, diseases occur less frequently and the losses from them are less. If the main task of the apiary is pollination or rearing queens, then the amount of chemicals in the combs and honey does not matter at all for them.

 

But, as it can be seen from the graphs, the losses of bees both in professional beekeepers and in other beekeepers, have been growing in recent years proportionally despite some difference in absolute values !!!!

In addition to these data, there is a table, which became the result of a survey of beekeepers about the reasons for the death of bees in their apiaries. The result was expected - most of the bees died from infestation with the Varroa mites! I think, that the column "weak in fall" can be safely summed up with the column "died from the Varroa mites" ... Our studies, which we told you about, claim, that this is most likely, the result of an autumn peak in the development of population of Varroa mites, which many beekeepers do not notice during and after Main honey harvest. So, we believe, that 69% of the deaths of the bees in small apiaries occurs from infestation with Varroa mites, which today cannot be completely destroyed by any means! This is a really perfect situation for chemical producers and traders! There are always remains enough mites in the hives to keep their business going! This is a really great business!

Another very interesting result is hidden in the diagram obtained by Bee Informed and is connected with our previous statement about the death of bee colonies in small apiaries from varroatosis even when the beekeepers do not expect this ... That is, from those two peaks in the development of Varroa mites population - spring pre-swarming peak, and summer post-honey harvest peak ...

 Pay attention to the diagram! What is common between the two seasons -  2014-15 and 2019-20 ... In both cases, more bees died in summer than in winter !!!! These years were extremely warm, and with extremely warm winters ... With temperatures 5-6 degrees above the climatic norm on average !!!

 What does this mean ? The fact is, that in winter, the mites were able to unimpededly breed several new generations in winter brood of worker bees, and to increase their population 6-8 times compared to ordinary years, when winters were cold! In the same way, our families of the experimental apiary died in the 2019-20 season - E-1 family died already at the beginning of June, that is, after the very first spring peak in the growth of the mites population, which became lethal for her, and the 8-1 family died after honey harvest, having lost strength due to massive damage of young bees by the mites and simply melted by the mid of September ... Just what the column "weak in fall" in the table with the results of a survey of beekeepers of small apiaries says!

 

What does all this say .... It says, that despite the advertising-oriented results of "successful use" of various oils and chemicals, they are not very effective in real life! To quote from an American Bee Journal article ... "  Four chemical control options show the greatest potential for better survival in survey results for the past four seasons. Essential oils Apiguard and ApiLifeVar show about a 30% greater survival, and use of Apivar about a 29% better survival. Oxalic acid vaporization demonstrated an 11% better survival over past three years, but survival improvement of Oxalic acid drizzle was minor and in only one of the last three seasons. "....  Just advertising !  ....

The lack of effectiveness of drugs against Varroa mites is confirmed by this table, given in the journal article.

Pay attention to the bottom line of this table ... It tells you, that with only fifteen percent of the family infected by Varroa mites, as a rule, no drugs can already save it! They simply will not kill all the mites in the family, and they cannot repair the damages caused by the mites! None of the medicines!  The family of bees is doomed to death because the brood is massively damaged, because almost all young bees in the family are already infected with viruses, including the wing deformation virus... All this will soon lead the family to the loss of almost all bees and, accordingly, to its death.

But the fact that bee colonies may find themselves in such a situation is the result of the ineffectiveness of all known types of treatment of bees against varroatosis, which, undoubtedly, beekeepers have carried out. It was carried out using essential oils or amitraza, or fluvalinate, or acids, or all together ... But on average, the result is the same! Bees die anyway ... And according to  diagrams, every year more and more of them die, despite the increasing number of "effective drugs that destroy 99% of Varroa mites" on sale!

This is why we believe, that our Apivox Varroa Eliminator project is so important. Our project is built on the idea that Nature itself has taken care to limit the uncontrolled reproduction of all living beings. Including Varroa mites. Our task is only to understand what is such a limiter for Varroa mites .... It is the finding of this limiter and its competent use that should allow the bees and the mites to live nearby without destroying each other.

 

In this article we used diagrams from two articles of ABJ magazine,

HONEY BEE COLONY MORTALITY - Survey results for the Pacific Northwest by DEWEY M. CARON.

Re-evaluating Varroa Monitoring by RANDY OLIVER ScientificBeekeeping.com

whose .pdf  file is available on the link -

https://abj-fe8.kxcdn.com/wp-content/uploads/2020/03/ABJ-4-2020.pdf

 

And the Bee Informed project documents. https://beeinformed.org/

https://beeinformed.org/wp-content/uploads/2020/06/BIP_2019_2020_Losses_Abstract.pdf

 

 

 

 

 

                                 Copyright Sergey Glebskij 2019 © All rights reserved

Organization of correct wintering of bees as the first stage of anti-mite measures of the new season.

The autumn preparation of families for wintering is the most important stage in the entire cycle of works on suppression of the development of Varroa mites in the bee colonies of your apiary. It is in the fall that both success in future honey harvesting and the possibility of losing bees due to the overdevelopment of the mite population in their families are laid. 

In autumn, the first task facing the beekeeper is to interrupt the mites' reproduction chain in the bee colony. This can be done by removal of sealed brood in the fall, when there are relatively few brood in the colonies. By removing most of the young mites and founding females into a separate colony together with sealed brood, and subjecting them to radical anti-mite treatment after the young bees emerge from the brood, it is possible to achieve a significant purification of the main colonies and of a new, assembled from sealed brood and bees, colony.

At the same time, in all colonies from which the brood was taken and new combs were given, if time permits, the queens will begin a new laying of eggs, from which will born strong and healthy bees, which will become the basis of the bee colony of the next year. At the same time, a huge number of mites will be removed from working bee colonies and they will not be able to start a new reproduction cycle.

The second task is to ensure a smooth transition of colonies to cold wintering with a corresponding decrease and further termination of brood rearing. Cold wintering is the most important stage in the proper maintenance of bees in terms of combating varroatosis. This is especially true for rock bees such as the Caucasian mountain bees and Carnica bees.

This method has been known in Europe for a long time. Carnica is a European breed of bees and it is in Germany that they know how important it is to suppress its natural tendency to constantly grow brood.

It is very important to make the bees to stop brood rearing early and to start it as late as possible. It is very bad when the bees finish growing the brood in November and start growing it again in January. It is thanks to this that the mites can slowly and imperceptibly increase their quantity, and with the first large spring brood, they can sharply increase the population size to a critical value.

This is how our E-1 family died... The graph (Fig) clearly shows that exactly in this family, during the whole winter, was observed a fairly strong fall  of old mites (the presence of which in a narrow strip of projection of the interframe space to the bottom of the hive, we consider to be a sign of the ongoing reproduction process) and already in April we see the appearance the peak in the fall of immature and mature females - that is, a powerful surge in the reproductive activity of Varroa mites.

It is ideal if bees, especially the bees of Carnica breed, begin to actively rear the brood only with the arrival of stable heat and the appearance of sources of pollen in nature. It is from this moment and not earlier that the active development of families begins. During this time, if the bees are warm and supplied with nectar and pollen, they quickly build up strength. In other cases, in the hive better develops and renews the population of Varroa mites, rather than bees.

That is why in Europe and especially in Germany, cold wintering has acquired special importance in the fight against varroatosis. It is she who should not allow the mites to multiply during the winter, when we cannot help the bees to get rid of them. It is this event that will help to avoid, or at least  to reduce greatly, the first spring peak in the growth of Varroa mites population in the next year.

The late-summer peak of the growth of Varroa mites population in the bee colonies, which can be fatal as well as the spring peak.

In our previous article, we focused mainly on the spring peak in the growth of the mites population in the bees families and the problems associated with it. However, the spring peak of the growth of the mites population is not the only one. There is a second such a  peak after the end of honey collection and removal of honey combs . At this point, the family has enough honey, pollen and again free space for the bees to start mass rearing of brood of their spring shift. This is also a very dangerous moment, often leading families to death. In the period after the honey harvest, families have a sharp increase in the quantity of brood, almost similar to the spring, pre-harvest build-up....

At any time of the year, an important method of reducing of the quantity of the mites in the bees families in the apiar  is the maintenance of young families which are not inclined to switch to the swarming state. This allows families to rear very few drone brood, which, if it is a lot and if it is well heated by the bees, causes a sharp increase of the mites population.

In the spring, possible method for improving the condition of the  bees is expand of the nest, which leads both to a decrease in swarming mood and to cooling of the areas where drone brood may be present. It is also appropriate to use building frames, in order to remove periodically drone brood infected with the mites.

But, the death of bees can occur at the moment at which this is least expected ... It would seem, that a strong family worked perfectly at the honey collection, gave a lot of marketable honey ... And after removal of honey combs, it suddenly begins to simply melt before our eyes ...

This is exactly what happened with the 8-1 family in our experimental apiary ...

Despite the simple removal of drone brood at the beginning of June, the growth of the mites population, having slowed down sharply in June-July, continued in August ...

The family did an excellent job at honey collection, giving 60 kilograms of marketable honey in a stationary apiary. During the honey harvest, we observed a mites drop and a fairly large number of bees infected with the wing deformity virus. But the situation during the examinations did not seem critical. The small number of bees in the hive during inspection could be associated with the fact that many flying bees work at this time on nectar collection. There are a lot of them, as the amount of brood reduced, due to the loading of a part of the nest with honey.

Our control of the families of the experimental apiary continued ... By August 1, began a sharp increase in free fall of mature and immature mites  (pic), which, according to our observation, is a sign of the worst case for us - a powerful reproductive flash in the mites population. By August 1,  free fall of the mites of both types averaged 10 mites per day, by August 9 - 20 mites per day, by August 17 more than 100 mites per day ... In fact, repeated situation, which led to the death of the E-1 family, with the exception of lack of drone brood at this time !!!

Since August 24, the family has been treated twice with an interval of about a week with a preparation containing amitrase. At the same time, the daily amount of mites drop of both types ( mature and immature) significantly exceeded 100 mites per day. But, despite the treatment carried out, by September 25, only a handful of bees remained in the hive, which fully corresponds to the picture of the so-called Collapse of the Bee Families. The too late treatment did not help to compensate the death of brood and young bees, which were born with wing deformities affected by the virus. Young bees went out and never returned to the hive. The family just melted before our eyes ... 

What can be opposed to the growth of the Varroa mites population during the honey harvesting season, when there is no possibility to use chemicals ...

We think that it is necessary to use the method, which has proven itself perfectly in Central Europe when working with Karnika bees. This is a method of removal of the sealed brood.

Removal of frames with sealed brood, which can be carried out during the period of  growing of bees families before the main honey collection with the goal to prevent swarming and to create offshoots, also sharply reduces the number of Varroa mites in bee colonies, and significantly contributes to the fact, that disease will not take a threatening character in the main families even in the absence of other Varroa mites' control measures.

In addition, holding such an event in June, before the main honey collection, can, under certain conditions, increase honey productivity by reducing brood rearing, and families from which the brood was selected, can be treated with formic acid ( if remaining before the main honey collection time allows this), which will be very effective at this stage. After all, there is no sealed brood in the family and all the mites are on the bees and are accessible for acaricidal preparations.

In the process of honey collection, bees themselves usually create conditions that are not very good for the reproduction of the mites ... This can be seen from the graphs of the mites drop in all families. But even at this time, it is possible to influence the mite population using methods of temporary limitation of queen's egg laying and removal of sealed brood. Unfortunately, such measures during the period of honey collection cannot be radical, otherwise there will be losses of marketable honey due to the weakening of the strength of bee colonies.

At the same time, to offshoots, in which all sealed brood from the apiary was collected,  can be given sealed queen cells or they can rear new queen by themselves. Moreover,  there will be no brood for about two to three weeks for natural reasons. At the same time, all sealed brood  will turn into young bees, on which the entire mites population of your apiary  will be! There is no marketable honey in these young families, so nothing prevent to treat them with any acaricidal preparations, both natural (formic acid) and chemical.

Thus, you will free the working families from 70-80 %% of mites by removing sealed brood and you can destroy 70-80 %% of remaining mites by treating the bees with formic acid ... At the same time, young families created on the basis of sealed brood, after the release of young bees and their subsequent treatment with acaricidal preparations, and best of all, with the same formic acid, will also lose 70-80 %% of Varroa mites.

This technique can simultaneously extinguish both the first - spring and second - summer peaks of Varroa mites population growth.

Thus, to keep bee colonies healthy with minimal use of chemical acaricidal preparations, it is imperative to carry out exactly two blocks of events, each of which is important in its own way. And never forgetting especially about the second - the summer peak of the mites population growth. Of course, the spring peak of the mite population growth must be suppressed unambiguously. But if a strong treatment of bees against Varroa mites was carried out in the fall and there is not much of the mites left till the spring, then this peak may pass unnoticed or the signs of its presence will be blurred...  And in such situation the second peak, which usually occurs long before the autumn anti-varroatous treating of the bees  can become lethal for the bees families. A family of bees may simply not live up to see it !

APIVOX PROJECT and Serjio Glebskij become a Honorary Members of F. Benton International Beekeeping Association. You can become the members too !

 

APIS MELLIFERA CAUCASICA

F. Benton International Beekeeping Association unite beekeepers from different countries with aim to research Gray Mountain Caucasian honey bee and encourage beekeepers to breed and repopulate their hives with pure breed lines to improve the colonies health, to increase pollination quality and overall productivity.

HISTORICAL ADVANTAGES OF CAUCASIAN BEES; RESEARCH AND EXPORT TO THE UNITED STATES AND EUROPE

Georgia has a long history of beekeeping. So far, the oldest remains of honey in the world have been found in Georgia. In 2016, during the construction of BAKU–TBILISI–CEYHAN PIPELINE Archaeologists have found honey remains on the inner surface of clay vessels in ancient tomb, dating back to some 5,500 years. Georgia is the central homeland for the endemic species of Caucasian Mountain Grey honey bees. Caucasian bees have legendary ability to produce large amounts of honey despite cold weather, light rain and unfavorable climatic conditions. Caucasian bee’s proboscis length is about 7.3 mm, therefore it can reach nectar that its competitors can not.

At the beginning of the 20th century, at the dawn of industrial farming, many countries faced sometimes formidable challenge of increasing agricultural productivity by naturally stimulating the plants that had been declared a priority for national farming and the agro-industry. Numerous attempts to enhance the efficiency of local beekeeping farms did not lead to tangible results. It was then that a program arose for the US Department of Agriculture and other countries to search for the introduction of best suitable bee breeds capable of providing the farming with the most important functionality - pollination.

The state of beekeeping at the beginning of the XIX century, the lack of development of the whole teachings about the variability of bee traits did not allow for the consolidation of practical solutions to the problem. It was decided to look to different continents and countries in search of an acceptable bees. Western scientists began to establish contacts and study the works of leading beekeepers of USSR. The work was not in vain - the choice fell on the Grey Caucasian Bee, which was referred to as Mountain Grey. The irreplaceable contribution in research of Caucaian bees made by such luminaries as A.M.Butlerov (1828-1886), K.A.Gorbachev (1864—1936), V.V. Alpatov (1898 -1979), I.N. Klingen (1851-1922), F. Benton (1852-1919), E.F. Phillips (1878-1951) played a decisive role in determining the commercial vector of cooperation beteen Georgian and foreign beekeepers and worldwide popularization.

The merit of the American entomologist Frank Benton, who opened the export of the Caucasian Bee to Western countries, is great. Benton worked in the U.S. Department of Agriculture. His mission was to search for the best bee species that would be ideally suited to the U.S. agriculture. For that purpose, Benton traveled to many European and Asian countries. Benton is also known for invention of special mailing cage for shipping queen bees (Benton Cage). In 1905 F. Benton visited Georgia. Here is what K.A. Gorbachev writes about this visit ("Beekeeping Life", No. 2, 1907, p. 45): “A famous American beekeeper visited us in the Caucasus. The purpose of his visit is to get acquainted with the Caucasian bee... Benton is delighted with the Caucasian bees and predicts the most brilliant future... There is another huge advantage for the Caucasian bees: their tongue is longer than that of the bees of Central Europe”. Benton recommended the import of Georgian bees to the US Department of Agriculture and American beekeepers.

Thanks to Benton's visit the export shipments were carried out from the Tbilisi Silk Station to the USA and Europe. This is what Polish beekeepers wrote, who imported the queens from Georgia - “The bees amazed us by taking honey from Clover and Lucerne while the local bees did not fly up to these plants”. It is necessary to explain why exactly Polish beekeepers paid attention to the fact that the Caucasian bees gather honey from a red clover. In pre-revolutionary Russia at that time, red clover was almost completely absent in the farming with its three-field system. Multifield with legumes as crops enriching the soil with nitrogen was more common on the estates of Poland than in the estates of Russia. The significance of the length of the proboscis, as a sign that determines the suitability of bees for working on red clover, was widely discussed in the first decade XX century printed media. This time includes the invention of a large number of different glossometer devices, which make it possible to measure the depth from which bees can extract nectar. All this led to a more professional scientific study of the physical and biological characteristics of the Caucasian mountain grey bees which were named as Apis mellifera var. caucasica (1916).

On these observations grew the research of I. N. Klingen about the beekeeping industry. From 1907 to 1911, the practice of using Caucasian bees to pollinate red clover was put into practice. I.N. Klingen’s work showed that the Caucasians are a factor in the very significant increase in the yield of red clover. A. S. Skornikov was able to show that of the Caucasians grey mountain bees, the bees of Mingrelia region (West Georgia) along the Inguri River have the longest proboscis ever measured, namely 7.21 mm.

In 1932, Everett Franklin Phillips, a professor at Cornell University (a key figure in American beekeeping), arrived in Georgia from the United States on a special mission. He acquainted with Caucasian bees even more and focused on its importance and great future prospects. As a result of different scientific researches, Benton’s and Phillips’s missions in Georgia, as well as the US Department of Agriculture recommendations, the United States made a historic decision to conclude a trade agreement with the USSR, which provided for the direct imports of queen bees from Georgian SSR to the United States.

As it turned out, it is the Caucasian bees who is the absolute champion of pollination of deep blossom plants and legumes, which accounts for 47% of world agricultural crops - this is clover and alfalfa, and beans and acacia and peanuts (USA is in the first place in terms of peanut cultivation), this is both lentils and soybeans and peas and so on. In Poland, Scotland and the United States, bee breeding apiaries were created in order to boost Caucasian queen rearing. Here is what V.V. Alpatov writes on the results of the export of a Caucasian bees to US - “As an indicator of the role played by the Caucasian bees in beekeeping in America, I will cite my count of apiaries in the United States selling queens of one breed or another. This count is based on a list of breeding facilities published by the Department of Agriculture in 1943 (Bulletin E 297) It states that there are 43 Mountain Grey breeding apiaries in the United States, including the first in Iowa, accounting for approximately 25% of all queens produced in the USA. It is the biometric length of the proboscis and persistence in in nectar collection that allows the Caucasian bee to be indispensable in the huge industry of legumes in the USA and European countries”.

Frank Benton

Frank Benton (July 5, 1852 – February 28, 1919) was an prominent American entomologist, researcher, beekeeping innovator and author. Benton studied at Michigan Agricultural College, University of Tennessee, the University of Munich, and the University of Athens. He was a member of various organizations: Bureau of Entomology in the United States Department of Agriculture, Entomological Society of Washington, North American Beekeepers Association, National Geographic Society and the American Association for the Advancement of Science. He is also known for invention of special mailing cage for shipping queen bees (Benton Cage).

At the dawn of industrial farming, many countries faced sometimes formidable challenge of increasing agricultural productivity by naturally stimulating the plants that had been declared a priority for national farming and the agriculture industry. Numerous attempts to enhance the efficiency of local beekeeping farms did not lead to tangible results. It was then that a program arose for the US Department of Agriculture for the introduction of best suitable bee breeds capable of providing the farming with the most important biological functionality - pollination.

For this aim Benton traveled to many countries from Europe to Palestine and Far East. In 1905 Benton visited Georgia to further investigate the Caucasian honeybees which were already known to US beekeepers from 1890.

Here is what K. A. Gorbachev writes about this visit ("Beekeeping Life", No. 2, 1907, p. 45): “A famous American beekeeper visited us in the Caucasus. The purpose of his visit is to get acquainted with the Caucasian bee... Benton is delighted with the Caucasian bees and predicts the most brilliant future... There is another huge advantage for the Caucasian bees: their tongue is longer than that of the bees of Central Europe”.

Benton greatly supported the import of Caucasian (Georgian) Mountain Grey honey bees to the United States. It was only after Benton had been placed in charge of bee culture in the United States Department of Agriculture and made his second trip abroad, that Caucasian bees became well known in the USA. Based on a list of breeding facilities published by the US Department of Agriculture in 1943 (Bulletin E 297) there were 43 Mountain Grey breeding apiaries in the United States, including the first in Iowa, accounting for approximately 25% of all queens produced in the USA.

The merit of Benton, who opened the export of the Caucasian Bee to Western countries, is great. During his research of big bees (Apis dorsata) in India Benton contracted "jungle fever". Benton died at Fort Myers, February 28, 1919.

The Founders, Executive Council & Association Members

OUR RESEARCHES, WHICH WE MAKE TOGETHER WITH ASSOCIACION

Apivox Smart Monitor project

Apivox Varroa Eliminator Project

Beekeeping Management System

Beekeeping Alert System (BAS)

Monitoring & deceases prevention program

MEMBERSHIP

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Our mission is to support beekeeping globally and help to popularize Caucasian bees among commercial and individual beekeepers, and support government beekeeping programs. Caucasian bees proved their ability and today they are considered as one of the best choice for many beekeepers in the world. Membership connects you with other beekeepers, organizations and researchers and supports a common effort to promote Caucasian bees and help the agricultural industry with better pollination capability.
Join our effort. It’s worth it.

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RELATIONSHIP BETWEEN TEMPERATURE IN THE NEST, THE AMOUNT OF BROOD AND THE DEVELOPMENT OF THE POPULATION OF VARROA MITES IN THE FAMILY OF BEES.

 During our Apivox Varroa Eliminator project, we are constantly trying to identify the relationship between the state of the bee colony and the population of Varroa mites parasitizing in it. One of the important observations is the relationship between the temperature in the "streets" of the bee nest in spring and the growth of the amount of mites drop.

It is believed, and we in principle agree with this, that the free fall of the mites is proportional to the size of the mite's population. We believe that this relationship is quantitatively much more complex than scientists believe, but in general it is so ...

Thus, with a number of simplifications and assumptions, we will also assume that the stable growth of free fall of the mites tells us about the growth of the tick population, and its stable decrease, about the process of reducing the size of the mite's population. In our opinion, the stable amount of the mites falling freely on the sticky board indicates some stabilization in the development of the mite's population.

In order to understand the state of the bee colony and the presence of brood in it, temperature sensors were placed in the center of all the "streets" between the frames of the experimental colony. Our results provided data for building the chart, which  you can see below. The measurement range is from September 23, 2019 to May 30, 2020. The bars are the temperature distribution in the "streets" of the nest of bees for each measurement, the red line is the temperature level equal to +30C, the yellow graph is the quantity of the mites of all ages falling on sticky board in units per day ...

So, what dependencies do we see ...

     1) At the end of September, the drop in temperature in the "streets" led to the complete impossibility of laying eggs by the queen, and, accordingly, to the complete cessation of reproduction of the mites. The mites drop began to decline, because most of the old mites, according to our data, die during the reproduction process. The  quantity of the mites starting to stabilize.

     2) Since January, when the outside temperatures became positive or slightly negative, about 2 "streets" of the nest were heated by bees to the temperatures above 32-33C, which allow the queen to lay eggs. This led to the beginning of the renewal of the mites population. At the same time, the mites drop did not grow much, since the quantity of the brood was not big.

     3) From March 26, when sufficiently high positive outside temperatures were established, the bees switched to stable heating of seven or eight "streets" of the nest to the temperatures of 33-35C. This led to the possibility of brood rearing in the cells of these  frames. This led to a steady increase of the mite's population, which received a lot of space for multiple, unlimited growth. This led to the death of old females during the reproduction process and to increase of falling mites.

     4) In May, the family went into the state of preparation for swarming. The temperature at the periphery of the nest has significantly increased to 33-35C. This allowed the bees to lay drone brood and queen cells at the periphery of the nest. The mites population received at its disposal not only a huge amount of brood of worker bees, but also drone brood. The growth of the population accelerated many times, bringing the family in early June to collapse ... The growth of the mites population was accompanied by a corresponding fall of young immature mites and dying founding females to sticky board...

The graph clearly shows the point of the beginning of the growth of the mites population (arrow) corresponding to stable heating of more than half of the frames of the nest , which corresponds to the appearance of brood of worker bees in them.

Thus, we can state that:

1. The appearance in the nest of bees in winter at least one "street" with a temperature above + 30C indicates the beginning of the recovery of the mites population.

2. The presence in the nest of bees in the spring of more than half of the "streets", heated for more than 32-33C can be a sign of the beginning of active reproduction of the mites in the brood of worker bees. From this point on, the mites population begin to grow rapidly.

3. A rise in temperature at the periphery of the nest to 33-35C means the beginning of the mass laying of drone brood and a catastrophic increase in the populations of Varroa mites.

Thus, there is a direct and almost linear relationship between the increase in the number of heated nesting frames and the growth of both mites drop and the mites population itself in the bee colony. For beekeepers, this can be an indicator for determining the stages of the fight against Varroa mites in bee colonies of their apiaries.

 

FINAL CONCLUSIONS, OCCURRING FROM THE WORK OF APIVOX VARROA ELIMINATOR PROJECT DURING 1.5 YEARS.

In the frameworks of our Apivox Varroa Eliminator project, we continue to review and analyze the state of the bee's families and the mite's population living in this families,  using the method of counting free fall of the mites on sticky board, and we believe that this method, although it does not yet allow one hundred percent accurate numerical data, can help to determine key points in the development of bee's families and the population of mites parasitizing on them.

For a long time scientists tried to adapt such a parameter as the mites drop, for prediction of the degree of mites, parasitizing on the bees in the colonies ... But everyone wanted to get specific numerical data, even by simply adjusting the numbers to the needed results ...

On the basis of this method, the ministries of agriculture of the United States, Britain, Spain and other countries distribute, their own recommendations  and methods of Varroa mites' control. On the basis of the average number of mites, falling on sticky board per day, it is proposed to build the strategy for treating bees with acaricidal drugs!  Representatives of the agricultural industry, trusting scientists, made the method of calculating the free fall of Varroa mites, the main one for estimating of infestation of bees' families, as the least laborious.

It is believed, that it gives fairly accurate results. But sometimes it's not quite right, and sometimes it's not right at all .... We came to this conclusion for two reasons:

 The first reason - is that in different  works of scientists, who studied and evaluated the accuracy of all known methods of calculating of the quantity of Varroa mites in bees families,  it is written, that all methods are equally not accurate at the beginning and at the end of season, when the number of mites in the family is too small.  And that in these works, scientists use at least three different coefficients to translate the amount of daily free fall of mites, into the total number of mites in the family of bees. We know that  scientists use this special coefficient, by which, the average daily fall of mites is multiplied ... It is equal to :

1)   20 in spring, and to 40 in summer and  to  250-500 during broodless  season. ( Population model for the ectoparasitic mite Varroa jacobsoni in honey bee (Apis mellifera) colonies Stephen Martin  National Bee Unit, Central Science Laboratory, Sand Hutton, York, YO4 1LZ, UK )

 

2) 120 throughout the season. (Development of the mite, Varroa jacobsoni oud., in the honeybee, Apis mellifera L., in Michigan, USA, and a comparison of diagnostic methods for detection of the mites Ahmad Al Ghamdi and Roger Hoopingarner )

3)  170-200 throughout the season.  (GUÍA TÉCNICA PARA PARA LA LUCHA Y CONTROL DE LA VARROOSIS Y USO RESPONSABLE DE MEDICAMENTOS VETERINARIOS CONTRA LA VARROA   DIRECCIÓN GENERAL DE SANIDAD DE LA PRODUCCIÓN AGRARIA  SUBDIRECCIÓN GENERAL DE SANIDAD E HIGIENE ANIMAL Y TRAZABILIDAD) 

 

This already suggests, that each researcher adjusted the coefficient to the situation in his apiary, or in his zone.  And even this fitting  does not work if used in mathematical models, which are compared then, with the real results of counting of Varroa mites in the brood and on adult bees... (Population growth of Varroa destructor (Acari: Varroidae) in honey bee colonies is affected by the number of foragers with mites Gloria DeGrandi-Hoffman  Fabiana Ahumada Victor Zazueta Mona Chambers  Geoffrey Hidalgo Emily Watkins deJong)

 It must be said, that counting  of a quantity of mites, using another methods is not much better ... Counting the quantity of mites, parasityzing on adult bees is not indicative since in summer, up to 70% of the mites are situated in the sealed brood... analysis of the sealed brood are not accurate due to the uneven distribution of the mites in the brood and due to the presence of a part of the mites on adult bees ...

Calculation of the percentage of mites in any form is also not an indicator...  With different strengths of bee families, the same percentage can mean a multiple difference in the real number of mites, which, in the process of development of bee families and reproduction of mites, leads to a multiple difference in the percentage of mites when the strength of bee families will become equal...

For our project we invented our own method of calculating of mites drop. It consists in a separate count of dark - old, already participated in reproduction females, and pale-colored young female mites and deutonymphs, which died or did not fertilized by a male mite inside the cells, and were thrown out by the bees. We call this the two-graph method. So, what is its meaning ...

The point is that in addition to the fall of an old dark mites, that is clearly visible to everyone, there is another process - the process of death of young females that have not yet participated in the growth of the mite's population. Pay attention to the photo ... It shows the mites, which fell down on sticky board of our experimental hive in different seasons of the year.

 They all have a different color !!!  Mature old fertilized females are deep red and burgundy! Young females have a bright red color that is darker or lighter depending on maturity, and the paler ones are not mature females and transparent individuals are deutonymphs ... In order to find this facts, we had to turn to authoritative documents ....

(Managing Varroa.  Published by The Food and Environment Research Agency. Printed in the UK, November 2010, www.defra.gov.uk/fera )

 On the diagram we see once again the confirmation of our practical results - 1) Varroa mites in the summer live 2-3 months. In practice, we see about 2.5-3 months. 2) Immature and not fertilized young females do not survive. 3) The final red-brown color of Varroa mites is gained after the last molt ot the mite, when it become fully grown and capable to lay eggs. Young females does not have such a  color. They are paler. The color is closer to brigh-red. Confirmation of this item we took from another document ...

(A deadly honey bee parasite  The Varroa Mite  PUBLISHED BY  Bayer AG  beecare@bayer.com  www.beecare.bayer.com )

 "...Graphic showing Varroa mite development stages The first development stage of the Varroa mite is a six-legged larva that develops inside its closed egg. The eight-legged protonymph emerges in the post-hatching second stage. In the third phase this protonymph develops into a deutonymph, which then becomes the adult mite. In the final nymph phase, the growing mite undergoes two immobile transitional chrysalis stages (protoand deutochrysalis). Young female nymphs are white in color and, after molting several times during the development process, turn dark reddish-brown during the last immobile stage – the deutochrysalis – and maintain this color as adult Varroa mites..."

So, the method of two graphs that we use, assumes separate counting of dead old females of the mites, dying during or after breeding, and dead young females, that did not participate in breeding. Shifting back the graph of mites drop of mature dark mites by 2.5-3 months, or by the approximate lifespan of the tick, we can talk about the approximate time of their birth, and we can analyze the events, that led to their appearance and development in the bee colony. The appearance of the mite's drop, consists of pale mites is, according to our long-term observations, a very bad sign, and speaks of an over-intensive reproduction of the mites, when it uses all brood zones for reproduction, even that are not  too suitable for reproduction in terms of their parameters. Thus, using two graphs, we can learn about the past of the mite's population, about the prospects for its increase in future, and about the intensity of the process of  growth of the mite's population at the moment.

In general, free fall of the mites at the time of testing is not always indicative. There are intervals, as we can see from the graphs, when there is practically no mite's drop or it is small ... This does not mean that there is no mites or its number is small... It is just mean, that the mites are waiting for suitable conditions for mass reproduction.

From the graphs we can see, that the mass death of the mites of all ages is directly related to the cycles of enhanced reproduction, which apparently takes away the last strength from the old individuals and leads to their death...  In this case, the idea that the mites live for about 2-3 months and the method of shifting the graph of free fall of the mites  by 2-3 months back shows the time of their birth, allows us to see the real time of birth of this mass of falling mites ... And these are the months, when it seemed to us, that there was almost no mites or very few...  In particular, so was in January-February 2020, as can be seen from the graphs below ...

 

The graph of free fall of the mites (mites per day) in 4 families of our experimental apiary during 2019-2020 years

An analysis of the graphs of free fall of the mites obtained by us during 1.5 years of continuous observations of 4 families of bees, shows the following ...

Almost throughout the winter, except November and December, the mite population had the opportunity to reproduce and maintain its existence, since the bees had brood due to the warm winter and wintering in a pavilion heating by the sun. This led to the fact, that the first massive release of new mites and the fall of old and immature mites coincided with the honey harvest from the willow on about April 23rd. The influx of large volumes of nectar and pollen led to the first mass release of young bees from the brood, and accordingly, to the first powerful release of the mites. The second release took place at pre-swarming time from 11 to 30 May, when the number of brood at least doubled, and was laid drone brood. All  these led to the next outbreak of the mites population.

In colonies 5-1 and 5-2, the growth of the mite's population during the main honey gathering stopped due to a reduction in brood quantity due to the filling of the nest with honey, but at the end of it, the mites began to reproduce again. The family 5-1 lost its queen and was left without open brood for a couple of weeks. The mites drop in it has grown quite insignificantly, and then it sharply decreased. But in the 5-2 family, at the end of honey harvest,  free fall of the mites of all ages again sharply increased to close to critical values.

In the E-1 hive, the growth of the mite's population was so strong that, when the swarming began, it led to a complete loss of the family. The reason is that this family with an old queen had already laid swarming queen cells by May 7. The sharp increase in the amount of well-heated brood resulted in a powerful increase in the mite's population. As a result,  in the family, there were a lot of sick and dead larvae in the brood, and sick young bees. All infected brood was abandoned. The family, despite the removal of swarming queen cells and the division in half,  flew away in the form of two swarms.

In the hive 8-1, a similar picture began with some lag behind E-1. The bees of this family also laid swarming queen cells, but the queen in this family was young, and the removal of queen cells led to the termination of the swarming mood of the family. Despite this, it was  laid a lot of drone brood , which caused the subsequent increase in the mite's population. The growth of the mite's population began in this family too, but a little bit later, on the background of honey collection, since the family was not quite ready for it and began to bring marketable honey later than 5-1 and 5-2 ... In order not to lose the family,  were taken a measures, as you can see on the graph, on June 23.  One frame of drone brood was removed and was completely destroyed drone brood  on all other frames. The fall of immature and mature mites dropped sharply. This indicates the possibility of temporarily suppressing of the development of mite's population in pre-swarming time by removing the maximum amount of drone brood. But at the end of the honey harvest, the mites were able to develop vigorously again, and the fall of the mites of all types increased sharply to close to critical values.

So, what did our observations show in general ...

1) Observations show on the example of all families, that each next burst of the mite's reproduction is at least 2-3 times stronger than the previous one. This difference roughly corresponds to the amount of mature mites fallen free during the present reproductive cycle, divided by the amount of fallen free immature mites of the previous reproductive cycle... The value is approximate, but it is confirmed in all experimental families. You can see it on the graph.

2) Observations show that swarming state of bees should be avoided by all means. It is the massive laying of drone and bee brood before swarming and, most importantly, its thorough heating by the bees, that leads to a catastrophic increase in the mite's population due to a multiple increase in the reproductive territory, comfortable for it.

What happens in this case with the bee family? Let's have a look... 

In the course of our scientific work and acoustic monitoring of bee colonies using our Apivox Smart Monitor device, we came to understanding, of the changes, that occur in the bee nest in pre-swarming period ...

The fact is that at the beginning of the process of preparing for the swarming, the task of the family and the queen is to build up the maximum possible strength of the family before the swarm leaves. Then, dividing in two, the family will remain large enough to survive and collect honey for the wintering. To do this, the queen begins to fill all the cells in the hive suitable for this with brood ... But the nest is not the whole hive, and the bees do the following !! They start powerful heating of the ENTIRE hive ! The whole hive turns into a nest! The earliest queen cells appear on the periphery of the nest - on the second frames after the extreme honey frames ... It was at this moment when a specific acoustic signal appears in the hive, which we use as a sign of an impending swarming, which Woods considered to be a signal of young bees, and prof. Eskov mistakenly considered to be a signal of passive bees .... A signal,  that accompanies heating of the hive and a signal that accompanies heating and aeration of open brood. These signals becomes so powerful, that they dominates in the hive even in the daytime, suppressing the signals associated with the work of bees on honey harvest!

This event in the life of a family of bees becomes the "golden" time for Varroa mites and the cause of the subsequent troubles of bees ... down to their death .... Now the mites can actively reproduce in a huge amount of brood, and not only in brood of worker bees, which used to be warm enough even earlier,  and also to reproduce actively in drone brood... This at least doubles their breeding potential, which ultimately leads to exponential growth of the mite's population in April-June.

Such a leap in the growth of the mite's population occurs primarily in the families,  which are initially ready for swarming - that is, in the  families with old queens. It is possible, that this was the reason for the confidence of many beekeepers that bee families with young queens are better able to cope with the mites. But it is normal thing, in the families with young queens, bees are less prone to swarming, which means, that they are less prone to heating the entire hive and to the massive construction of drone cells, which become a "bomb" placed under the colony during swarming time. In normal times, drone brood located in cool areas of the hive does not create such an "incubator" for the mites, and colonies that do not enter the swarming state suffer from the mites much less.

The use of anti-mite's techniques associated with expansion and, as a consequence, with cooling of the nest, will worsen the mite's reproductive capabilities and, possibly, save the bees from death in the event of a high infection of the bee's colonies in spring.

Basing on this, we can say, that in springtime, early diagnosis of swarming state of bee colonies become a very important point for a beekeeper who want to get ecologically pure honey. Using Apivox Smart Monitor application, you will be able to know about it at least 2 weeks before the start of the swarming process, or even earlier, and will be able to understand, that it is high time to take measures, which will not only help to avoid losing of swarms and honey, but will also dramatically reduce the number of mites in bee colonies.

3) Observations show that if, during the next cycle of enhanced reproduction, free fall of an immature mites significantly exceeds free fall of an old mature dark mites, and has sufficiently large values, then this is a very alarming signal. It can be assumed, that not only a large number of young mites were released, but the founding females did not die ! Thanks to this, accumulates the mass of live mites, ready to participate in the new reproductive cycle, and exactly this make the next flash of reproduction so powerful.

During the main honey flow period, when the mites have less bee's brood in the nest for reproduction and worsening climatic conditions in the nest, overall reproductive opportunities of the mites reduces. Free fall of the mites sharply reduces or stops altogether ... The mites of reproductive age are waiting for the optimal moment to start laying eggs ... With a decrease in the flow of honey at the end of the main honey harvest, as well as with removal of honey by beekeepers at the end of summer, the volume of free space for laying eggs by the queen increases ... The weather conditions at this time, in August-September, are still favorable for the bee's brood rearing  and for the mite's reproduction. At this time, beekeepers are trying to get as many young bees as possible, because exactly these bees will winter and form a family next year. Under these conditions, starts new powerful laying of brood by the mites, which, as a rule, leads to a powerful autumn surge of the mites population, and during release of young bees from the cells, to a strong fall of old mature females, and immature young female mites.

All this can be seen in the diagrams for families E-1 and 5-1.5-2. It was in the E-1 family, which showed the greatest growthof free fall  of pale immature mites, and as a result, a sharp increase in the mites population till a critical numbers.  This led to the loss of the family. In  families 5-1 and 5-2, the number of immature mites falling free on sticky board  was significantly less, and it needed about two months for the mite's population, to grow to almost the same size as in the E-1 family.

4) Observations show, that the state of a bee colony when a quantity of falling mature mites reaches quantity up to 5 mites per day, in principle, is not too bad for a colony of bees of almost any strength. The bees of a strong family can even withstand situation,  when a quantity of falling mature mites reaches 60-70 mites per day, for up to a month.  They are also can withstand situation when a quantity of falling mature mites reaches from 20 to 40 ticks per day, for 2-3 months. Of course, in the bee's family appear many damaged bees that are unable to fly, and this weakens the family and reduces its honey productivity... We can see such a situation in the graphs of three families of our experimental apiary - 5-1, 5-2, 8-1. At the same time, 8-1 and 5-1 produced about 40 kilograms of marketable honey, and a 5-2 family - 60 kilograms, while being in a stationary apiary. Thus, we can say, that the state of a bee colony when a quantity of falling mature mites reaches quantity up to 10 mites per day, in principle, is not terrible in the short term for a strong colony of bees. The danger appears when, in addition to mature dark-colored mites, immature pale-colored mites appear on sticky board. This is a signal of alarm. This is a sign of an incipient reproductive "outbreak" of the mites. So, as you can imagine, the main task of beekeeper is to combat these periodic reproductive outbreaks! Their suppression should be the main task.

What methods can be used for this... Let's consider these methods in chronological order in accordance with the life of bees ...

Wintering: The first step in keeping bees properly in terms of Varroa mites control -  is cold wintering. This method has been known in Europe for a long time. Carnica - is a European bee breed and it is in Germany that they know how important it is to suppress its natural tendency to constant brood rearing. It is very important to make bees to stop brood rearing early enough, and to start brood rearing as late as possible. It is very bad when the bees finish growing the brood in November and start growing it again in January. It is thanks to this that the mites can slowly and imperceptibly increase their quantity during winter, and with the first abundant spring bees' brood, can sharply increase size of their population to critical values. This is how our E-1 family died. The graph clearly shows that exactly in this family we can see fairly strong fall of old mites throughout the winter, and already in April we can see the appearance of a peak in free fall of immature and mature females - that is, a powerful surge in the reproductive activity of the mites.

It is ideal, if bees, especially Carnica bees, begin to actively rear brood with the arrival of stable heat and appearance of pollen sources in nature. It is from this moment and not earlier begins the active development of bee families . At this time, if the bees have  warm nest and are supplied with nectar and pollen, they build up their strength surprisingly quickly, especially in the case of the bees of Carnica breed.

In other case, exactly population of Varroa mites, rather than the population of the bees, develops and renews better. That is why in Europe and especially in Germany, cold wintering has acquired particular importance in the fight against varroatosis. It is exactly cold wintering should not allow the mites to multiply during the winter, when beekeeper cannot help the bees to get rid of them. It is this event that will help to avoid the first spring peak in the growth of the mite's population. And here we can say, that design of our new hive, or rather its inner cover, makes it easy to provide the bees with both - cold in winter and with warm in spring.

Spring development till the main honey flow:  The main methods of influencing the mites population in this period are:  the reduction of the space suitable for the reproduction of the mites and the deterioration of the conditions, required for their reproduction. Several techniques can be involved here together or separately ...

1) Creation and maintenance of young families. Creating young families in the apiary to replace old working families by forming artificial swarms, by forming offshoots with mature queen cells, the beekeeper "kills two birds with one stone at once."  Firstly - when creating such families, the brood which at this time is the main repository of the mites, is not used or is used minimally. Secondly -  such colonies are easy to process in any way, including using of formic acid, which is a method, that minimally contaminates frames and honey. Thirdly -  the families will have young queens, which is an excellent anti-swarming technique. Such families, as a rule, have a good start in development and begin wintering healthy and clean.

2) Suppression of swarming state of the bees in order to deprive the mites possibility of super-active reproduction in a huge amount of well-heated brood of worker bees and drones. Before the start of the main honey collection, possible methods are:  the presence of young queens, expansion of the nest, removal of maximum possible amount of drone brood. Firstly, as we have already said, colonies with young queens are, in principle, much less prone to swarming. Secondly, the expansion of the nest reduces swarming mood of worker bees and deprives mites of a large, well-heated brood zone and, most importantly, a well-heated drone brood. Thirdly, the use of building frames allows not only to reduce swarming mood of the bees, but also to remove from the hive and destroy almost ninety percent of  drone brood with mites in it, with a minimum expenditure of efforts and without injuring the bee family.

3) Removal of sealed brood. Removal of frames with sealed brood, which can be carried out during the period of bee's families growth,  till the main honey collection, in order to prevent swarming and to create offshoots, also sharply reduces the number of mites in bee colonies, and significantly contributes to the fact, that the disease does not take on a threatening character in the main colonies until autumn, even in the absence of other mites control measures. In addition, holding such an event in June can, under certain conditions, increase honey productivity of bee's families by reducing number of bees engaged in brood rearing. At the same time, the families from which the brood was removed, can be treated with formic acid, and this treatment will be very effective at this stage.

In the process of honey collection, bees themselves usually create conditions, which are not very good for the mites reproduction ... This can be seen from the graphs of free fall of the mites in all four families. ( June-mid of July)  But even at this time, it is possible to influence the mite population using methods of temporary limitation of queen egg laying, and removal of sealed brood. Unfortunately, such measures during the period of honey collection cannot be radical, otherwise there will be losses of marketable honey due to weakening of the strength of bee colonies.

Autumn preparation of bee families for wintering. It is possible that you can again use the method of removing the sealed brood, and then proceed to cooling the nest, in order to stimulate the end of brood rearing season. In this case, the first task is to interrupt the mite reproduction chain in working family. Using this method, beekeeper can remove most young mites and founding females into a separate colony, which will be a subject of radical anti-mites treatment after the entire brood will release. At the same time, in all families from which the brood will be taken, should be given new combs, in which the queens will begin to lay eggs, from which will born the bees, which will go wintering  strong and healthy. At the same time, a huge number of mites will be removed from working bee colonies, and will not be able to start a new reproduction cycle. This should be done at the very beginning of the growth of peaks of free fall of the immature mites, which means,  that a lot of mites already entered the brood cells for reproduction. The second task is to ensure a smooth transition of colonies to cold wintering with corresponding decrease and further termination of brood rearing.

The use of our new Apivox Varroa Eliminator project and a new method of keeping bees takes a special place. Using this method, we managed, although not to completely suppress the development of the mites population in the experimental family, but to reduce significantly their growth rates in summer ... Today we believe, that the design of the hive, although correct, is still not optimal. But even today it has certain advantages ...

- Its design makes it easy to control the mites drop, in order to understand the processes occurring in the mites population.

- Its design allows to ensure the autumn transition to the winter regime and cold wintering of bees, as well as their warming in the spring and summer.

- Its design allows to accelerate the development of families in  spring and summer, while reducing the intensity of mites reproduction.

An analysis of data from the past 2019 showed, that if we can consider free fall of the mites proportional to their number in the bee colony, or to the size of the mites population, then, the growth rate of the mites population in the experimental hive number E-1 did not exceed six times, despite the fact that the family had an old queen bee and a lot brood, while control colonies, some of which had young queens born in this year, and which had less mites, had growth rates from ten to one hundred times... In this case, we are talking about relative values. The absolute values ​​of free fall of the mites in  experimental family were initially higher than in the control families, but by the fall these values ​​were almost equal ... In the end, not the design of the hive led to the death of experimental family, but the need to conduct observations of the development of the mites population in it even till its death!

In general,  new hive showed that the bees can live and develop in it, and we can select its parameters in order to suppress the development of Varroa mites to one degree or another. But this will have to be done again next season, in order to obtain more statistically reliable results.

So, we are confident that application of the above rules of keeping bees throughout the year and the use of our new hive will be able to jointly solve the problem of preserving bees and of suppressing the development of Varroa mites in their families.

Here we used diagrams and drawings from the works:

1.        Population model for the ectoparasitic mite Varroa jacobsoni in honey bee (Apis mellifera) colonies Stephen Martin  National Bee Unit, Central Science Laboratory, Sand Hutton, York, YO4 1LZ, UK

2.        Development of the mite, Varroa jacobsoni oud., in the honeybee, Apis mellifera L., in Michigan, USA, and a comparison of diagnostic methods for detection of the mites Ahmad Al Ghamdi and Roger Hoopingarner

3.        GUÍA TÉCNICA PARA PARA LA LUCHA Y CONTROL DE LA VARROOSIS Y USO RESPONSABLE DE MEDICAMENTOS VETERINARIOS CONTRA LA VARROA   DIRECCIÓN GENERAL DE SANIDAD DE LA PRODUCCIÓN AGRARIA  SUBDIRECCIÓN GENERAL DE SANIDAD E HIGIENE ANIMAL Y TRAZABILIDAD

4.        Population growth of Varroa destructor (Acari: Varroidae) in honey bee colonies is affected by the number of foragers with mites Gloria DeGrandi-Hoffman  Fabiana Ahumada Victor Zazueta Mona Chambers  Geoffrey Hidalgo Emily Watkins deJong

5.        A deadly honey bee parasite, the Varroa mite.  PUBLISHED BY  Bayer AG

 

  

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