{"id":3299,"date":"2019-06-20T13:37:33","date_gmt":"2019-06-20T13:37:33","guid":{"rendered":"http:\/\/beefree.es\/?p=3299"},"modified":"2026-01-12T15:01:11","modified_gmt":"2026-01-12T15:01:11","slug":"wissenschaftliche-studien-ueber-die-wirkung-von-kleinen-zellen","status":"publish","type":"post","link":"https:\/\/resistantbees.es\/?p=3299","title":{"rendered":"Widerlegung der wissenschaftlichen Studien \u00fcber die Uneffektifit\u00e4t der kleinen Zellen"},"content":{"rendered":"<p>[vc_row][vc_column][vc_column_text]<strong><span class=\"Estilo52\">Wissenschaftliche Studien \u00fcber die Wirkung von kleinen Zellen auf die Vermehrung von Varroamilben wurden fast alle mit falschen Voraussetzungen vollzogen.<\/span><\/strong><\/p>\n<p class=\"Estilo85\">Endlich k\u00f6nnen wir beweisen dass nahezu all diese Studien falsche Ans\u00e4tze hatten und unkorrekt durchgef\u00fchrt wurden. Erik \u00d6sterlund hat sich die M\u00fche gemacht dies genauestens auszuarbeiten.<br \/>\n<a class=\"Estilo29\" href=\"\/?p=3299#anal\">Hier ist Eriks Studie einzusehen.<\/a><\/p>\n<p class=\"Estilo85\" align=\"center\"><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/resistantbees.com\/fotos\/celle1a.jpg\" width=\"500\" height=\"405\" \/><\/p>\n<p class=\"Estilo85\">In den 90er Jahren, nachdem\u00a0<a href=\"\/?p=3328\">Ed und Dee Lusby<\/a>\u00a0herausgefunden hatten, dass die Zellengr\u00f6\u00dfe vor mehr als 100 Jahren\u00a0<a href=\"\/?p=3003\">k\u00fcnstlich vergr\u00f6\u00dfert wurde<\/a>, wurden die ersten wissenschaftlichen Studien dazu erstellt. Eine dieser Arbeiten (Message&amp;Goncalves in Brasilien) zeigte dass die Zellgr\u00f6\u00dfe sehr wohl Einfluss hat auf die Vermehrung der Varroen. Dies wurde sp\u00e4ter best\u00e4tigt durch die Untersuchungen von Piccirillo&amp;De Jong.<\/p>\n<p class=\"Estilo85\">In den folgenden Jahren wurden dann weitere wissenschftliche Test unternommen, jedoch mit absoult anderen Ans\u00e4tzen als die ersten. Letztere nahmen keine R\u00fccksicht auf die speziellen Erfordernisse solcher Tests. Nat\u00fcrlich kamen all diese zum Schluss dass die Zellgr\u00f6\u00dfe keinen Einfluss auf die Vermehrung der Varroamilben haben.<\/p>\n<p class=\"Estilo85\">Immer bekommen wir diese &#8222;wissenschftlichen Studien&#8220; vorgesetzt und es wird behauptet dass unser Ansatz falsch ist. Doch ich muss dazu f\u00fcgen dass es hier ausschlie\u00dflich um die Vermehrung der Varroamilben in verschiedenen Zellgr\u00f6\u00dfen geht. In Wirklichkeit hat aber die Zellgr\u00f6\u00dfe vor allem einen indirekten Effekt auf die Abwehrm\u00f6glichkeit durch die Bienen. Durch die kleinen Zellen und den geringeren Wabenabstand haben wir ein dichteres Brutnest, die Brutdauer wird um 24h verk\u00fcrzt, die f\u00fcr die Brutpflege ben\u00f6tigten Bienen sind geringer, dadurch verausgeben sich die Bienen weniger und haben eine l\u00e4ngere Lebenserwartung. Durch mehr Bienen f\u00fcr dieselbe Arbeit wird vor allem das<a href=\"\/?p=3041\">\u00a0hygienische Verhalten <\/a>stimuliert.<\/p>\n<p>&nbsp;<\/p>\n<div id=\"page_1\">\n<div>\n<p><strong>Warum kamen die wissenschaftlichen Untersuchungen \u00fcber den Einflu\u00df der kleinen Zellen auf die Varroamilben zu negativen Ergebnissen?<\/strong>\u00a0(Erik \u00d6sterlund)<\/p>\n<ul>\n<li>Es gibt zwei fr\u00fche Untersuchungen, die den Einfluss der kleinen Zellen auf die Varroamilben studierten. Beide wurden in Brasilien unter Bedigungen unternommen, die sich von denen, die in Europa, USA und Neuseeland\u00a0 gemacht wurden, unterscheiden.\u00a0<strong>Die ersten zeigten einen bedeutsamen Vorteil der kleinen Zellen.<br \/>\n.<br \/>\n<\/strong><\/li>\n<li>Die sp\u00e4teren Tests konnten die Ergebnisse der ersten wissenschaftlichen Studien aus Brasilien nicht best\u00e4tigen.<br \/>\n.<\/li>\n<li>Da diese sp\u00e4teren Tests nicht die ersten beiden best\u00e4tigten, w\u00e4re es wohl die normale Reaktion gewesen, herauszufinden, was die ersten beiden Studien gemein hatten und wo die Unterschiede zwischen den positiven und den negativen bestanden. Ich konnte aber nichts desgleichen finden. Warum aber nicht? Es ist ein g\u00e4ngige wissenschaftliche Gewohnheit derat vorzugehen. Ich will nun genau dies hier versuchen.<\/li>\n<\/ul>\n<ul>\n<li><strong>Unterschiede zwischen den ersten Versuchen in Brasilien und den sp\u00e4ter ausgef\u00fchrten<br \/>\n<\/strong><\/li>\n<\/ul>\n<ol>\n<li>Die Versuche wurden in\u00a0S\u00fcdamerika\u00a0gemacht<\/li>\n<li>Die verwendeten Bienen waren\u00a0afrikanisierte\u00a0Bienen<\/li>\n<li>Die Bienen der ersten Versuche waren\u00a0Varroaresistent<\/li>\n<li>Die Bienen der erstenVersuche lebten \u00fcblicherweise auf\u00a0kleinen Zellen\u00a0(SC)<\/li>\n<li>Keine oder nur wenige gro\u00dfzellige Bienen\u00a0(LC) waren in der Nachbarschaft<\/li>\n<li>Die Bienen wurden nie oder nur wenig\u00a0mit Chemikalien\u00a0behandelt.<\/li>\n<li>Das Wachs der Bienenwaben war\u00a0frei von chemischen R\u00fcckst\u00e4nden<\/li>\n<li>Epigenetische\u00a0Unterschiede durch die erw\u00e4hnten Unterschiede der Umgebung<\/li>\n<\/ol>\n<ul>\n<li><strong>zus\u00e4tzliche Unterschiede zu den 8 oben aufgef\u00fchrten<\/strong><\/li>\n<\/ul>\n<ol>\n<li>Verhinderung von\u00a0Verflug und R\u00e4uberei<\/li>\n<li>Wachs frei von\u00a0chemischen R\u00fcckst\u00e4nden<\/li>\n<li>Was wurde gef\u00fcttert\u00a0wenn gef\u00fcttert wurde<\/li>\n<\/ol>\n<ul>\n<li><strong>\u00dcberlebensf\u00e4higkeit<\/strong><strong><br \/>\n<\/strong>In den meisten Studien \u00fcber Varroaresistenz, auch in denen wo es um Zellgr\u00f6\u00dfen ging, wurde das Augenmerk auf Reproduktionsrate und Bev\u00f6lkerungszuwachs der Varroamilben gelegt. Das was f\u00fcr einen praktischen Imker z\u00e4hlt sind aber das \u00dcberleben der Bienenv\u00f6lker und gute Honigproduktion. Auf jeden Fall ist eine der wichtigsten Eigenschaften zur Bek\u00e4mpfung der Milbe das sogenannte\u00a0\u00a0<a href=\"\/?p=3452\">VSH (Varroa Sensitive Hygiene)<\/a>\u00a0(Ref 13,14), das Aufsp\u00fchren von Milben in der verdeckelten Brut, vor allem solche mit Nachwuchs, das \u00d6ffnen dieser Zellen, das oft gefolgt wird vom Ausr\u00e4umen der infizierten Bienenpuppe. Dieses wichtige Merkmal ist nichts neues. Auch wenn die Vermehrungsrate der Varroen langsam ist, werden sie anwachsen, nur etwas langsamer. Schlussendlich wird die Milbenpopulation f\u00fcr die Bienen zu hoch sein und sie m\u00fcssen aktiv etwas tun um zu \u00fcberleben, indem sie sie direkt bek\u00e4mpfen. Und sie m\u00fcssen bereits beginnen, wenn der Milbenpopulation noch gering ist.<\/li>\n<\/ul>\n<ul>\n<li><a href=\"\/?p=3305\">Test von Hans-Otto Johnsen<\/a>\u00a0nach ein paar Saisonen. Er wurde mit Bienen durchgef\u00fchrt, die nicht auf Varroaresistenz <a id=\"anal\"><\/a>ausgew\u00e4hlt wurden. Siehe seinen online Artikel (Ref 20).<em>Testergebnis:\u00a0<strong>kleinzellige Bienen bringen mehr Honig<\/strong>\u00a0\u2013\u00a0<strong>die Varroapopulation ist in kleinzelligen St\u00f6cken deutlich geringer<\/strong><strong>.<\/strong><\/em><\/li>\n<li>In den 60er Jahren testete der Besitzer eines der gr\u00f6\u00dften Imkerzubeh\u00f6rgesch\u00e4fte Schwedens,\u00a0 Evert Svensson, der ebenfalls Profiimker ist, gr\u00f6\u00dfere Zellen als seine bis dahin verwendeten 5.1-5.2 mm. Er verwendete die gr\u00f6\u00dferen Zellen in ungef\u00e4hr 50 Bienenst\u00f6cken, an einem Bienenstand \u00fcber einige Jahre hinweg.\u00a0<strong>Seine Schlussfolgerung war, dass gr\u00f6\u00dfere Zellen weniger Geld in der Tasche gaben.<\/strong><\/li>\n<\/ul>\n<\/div>\n<div>hier die gesamte Studie von Erik \u00d6sterlund:<\/div>\n<div><\/div>\n<div><span style=\"font-size: 22pt;\"><a href=\"https:\/\/resistantbees.com\/fotos\/estudio\/analisis_small_cell_test.pdf\">Analysis of small test designs<\/a><\/span><\/div>\n<div id=\"id_1\">ERIK \u00d6STERLUND<\/div>\n<div><\/div>\n<div><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test1.jpg\" alt=\"\" width=\"337\" height=\"275\" \/><\/div>\n<div><\/div>\n<div><em>click at the URL:s at the end of the article to view referenced articles<\/em><\/div>\n<div><\/div>\n<div>Smaller cells in the broodnest than what is most common today, does it have any advantages?\u00a0Particularly \u2013 does it have any advantages concerning Varroa resistance for the bee colony? Bees naturally build different sizes of cells depending on where they are built in the nest, smallest downward nearest the entrance where the brood is and biggest upwards and away from the entrance where honey is stored.<\/div>\n<div>.<\/div>\n<div><\/div>\n<div><\/div>\n<div><\/div>\n<div><\/div>\n<div><strong>Wax foundation<\/strong><\/div>\n<div><\/div>\n<div>.<\/div>\n<div>When wax foundation first was made in a commercial scale, beginning with A. I. Root in USA in 1876, natural comb evidently was measured and an average became the guideline to choose the easily manageable size 5 cells to the inch (Ref 1), which is 5.08 mm per cell including one cell wall. This is easiest measured over the parallel sides taking 10 cells at a time and divide by 10. The actual average was said to be somewhat bigger. This meant that in the broodnest the average was still smaller \u2013 remember, the average. And the average for honey storage cell sizes were of course bigger.<\/div>\n<div><img decoding=\"async\" loading=\"lazy\" class=\"aligncenter\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test2.jpg\" alt=\"\" width=\"387\" height=\"484\" \/><\/div>\n<\/div>\n<div id=\"page_2\">\n<div id=\"dimg1\"><\/div>\n<div id=\"id_1\">\n<p>Two early works investigating small cells influence on Varroa mites. Both done in Brazil under circumstances differing from those made in Europe, USA and New Zealand. They showed a significant advantage of small cells.<\/p>\n<p><img decoding=\"async\" loading=\"lazy\" class=\"aligncenter\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test3.jpg\" alt=\"\" width=\"388\" height=\"199\" \/><\/p>\n<p>Already in 1888 Frank Cheshire in England wrote in his Bees and Beekeeping, Vol II2 (Ref 2): \u201c<strong>The idea that it is desirable to increase the dimension of our bees \u2026 I have ventured, more than once to stand alone in condemning it\u2026.<\/strong>\u201d This enlargement was achieved by increasing the size of the cells.<\/p>\n<p><strong>A century later<\/strong><\/p>\n<p>100 years later it was rediscovered by Dee and Ed Lusby that bees naturally build different cell sizes. Bee Culture was among the first to publish works on small cell size in 1990, Erickson et al, On the size of cells. Soon there were articles and papers published supporting the idea that smaller cell sizes contributed to varroa resistance, by Erickson (Ref 3), Lusbys(Ref 4), Message&amp;Goncalves\u00a0(Ref 5) and Piccirillo&amp;DeJong (Ref 6). Also anecdotal reports in forums etc appeared. And many began testing small cells (SC). Small cells are 4.8-5.1 mm. Mostly mentioned is 4.9 mm. Commercial foundation varied between 5.3-5.7 mm in their cell size.<\/p>\n<p>Later tests did not verify the first research papers from Brazil. It seemed to become common among researchers to dismiss the first positive results as associated with Africanized bees. Especially those whose own tests didn\u2019t show any advantages for SC. In 2008 and 2009 there were some tests published that have been used to make a \u201cfinal\u201d statement that \u201cthe case is closed\u201d concerning difference in influence on varroa resistance from small (SC) or large (LC) cells.<\/p>\n<p>If there had been only one positive test showing SC had positive influence on Varroa resistance it wouldn\u2019t had been strange to dismiss it in the light of later tests. It\u2019s often said that one time is no time in re- search context. But the first paper by Message &amp; Goncalves in Apidolo- gie 1995 was verified by Piccirillo &amp; De Jong in Genetics and Molecular Research in 2003, even if it wasn\u2019t a true replication test.<\/p>\n<p>The natural response to later tests that did not verify these two papers would have been to investigate what was in common between the two positive papers and what differed between the positive and the not positive ones. But no such investigation has been able to be found. Why not? It is a natural scientific response to do so. I will try to do this here.<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_3\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test4.jpg\" alt=\"\" width=\"569\" height=\"338\" \/><\/div>\n<div id=\"id_1\">\n<p>&nbsp;<\/p>\n<p><strong>Important differences<\/strong><\/p>\n<p>In the context of scientific research these differences may be crucial and should not be taken lightly. They could be the explanation for the differing results and should be taken in account for new research before the conclusion \u201dcase is closed\u201d could be made.<\/p>\n<p>It must be of uttermost interest to investigate the differences in test context for theses positive tests and tests not being positive.\u00a0<strong>Note that there are no tests showing it\u2019s negative to use SC!<\/strong><\/p>\n<p><strong>1. Could the results be dismissed because these tests were made in South America?<br \/>\n<\/strong>No, climate may influence, but no research verifies any hypothesis that all bees in the tropics are resistant to the Varroa mite. Not resistant bees are kept in similar climate.<\/p>\n<p><strong>2. Could the results be dismissed because the bees in these tests were Africanized?<br \/>\n<\/strong>No, There is no research showing any such differences between African and European honeybees. On the contrary these types of bees are both Apis Mellifera, closely related and interbreed easily.<\/p>\n<p><strong>3. Bees in other tests have not been resistant to Varroa.<\/strong>\u00a0This is an interesting difference. Today there are reports of quite some beekeepers in different places not treating at all for Varroa mites and bees seem to tolerate the presence of mites and still produce normally. There are SC and other bees among those. There are tests showing most probable reasons for the resistance are changes in the behaviour of the bees. Could these changes in behaviour in some way have effects on the bees\u2019 relation to an SC environment?<\/p>\n<\/div>\n<\/div>\n<div id=\"page_4\">\n<div id=\"id_1\">\n<p><strong>4. When bees are born in SC they may well have been fed differently.<\/strong>\u00a0And bees born in SC may well be feeding larvae differently. Differences in feeding behavior have been shown in SC-colonies. Different feeding has influence on the phenotype of bees. How big behaviour differences are resulting? In the Brazil tests the nurse bees have been born in SC and fed by SC-bees. In most of the other tests the nurse bees have been born in LC and fed by LC bees.<\/p>\n<p><strong>5. There is a growing awareness of the influence of the exchange of bees between bee colonies.<\/strong>\u00a0It can be quite big under certain circumstances. Two of the causes are drifting and robbing. Robbing can be slow, almost not noticeable, and it can be intensive. This exchange of bees can be destructive for the possibilities to get an accurate test result. Even 1.5 km can be too short distance to avoid significant not wanted influence. (Ref 7)<\/p>\n<p><strong>6. When bees are treated with something that kills parasites or microbes, they are loosing also beneficial microbes.<\/strong>\u00a0This can influence their immune system and their behavior. In the short perspective of course it\u2019s understandable if a beekeeper chooses to save his bees from dying.<\/p>\n<p><strong>7. Wax in combs has been found to contain a substantial amount of different chemical residues from varroa treatments, AFB treatments and plant protection sprays.<\/strong>\u00a0That of course applies for such environments where such a result is possible, which applies for many areas in North America and Europe. Chemicals in sublethal doses are known to influence immune system and bee behavior in a negative way.<\/p>\n<p><strong>8. Heritable changes take place in the genom of all living beings, also bees, depending on changes in the environment.<\/strong>\u00a0It\u2019s been more and more discussed among genetics. It\u2019s called epigenetics as the changes is not taking place in the composition of the DNA in the chromosomes, but in how the genes and even fractions of genes are expressed, \u201cturning them on\u2019 or \u2018turning them off\u2019. This effects the production of proteins and thus the phenotype of the bee. (Ref 8)<\/p>\n<p><strong>Epigenetics<\/strong><\/p>\n<p>Epigenetic adjustments are inheritable to the next generations and when environment changes again there will be new epigenetic changes. This is a powerful way for animals and plants to adapt to new environments. Actually there is no other way to explain the formation of resistant Apis mellifera bees in South America in the 1980s and in South Africa in the 2000s. In both cases it took about 5 years for Apis mellifera bees to develop resistance, and without masses of bees dying from the Varroa mites. What was seen was a decrease of a 50 % mite infestation (one mite on every second bee) to about 5 % mite infestation (one mite on every 20th bee). And this was achieved with the conditions described in paragraphs 2, 4, 5, 6 and 7.<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_5\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test5.jpg\" alt=\"\" width=\"497\" height=\"390\" \/><\/div>\n<div id=\"id_1\">\n<p><em>Changes in the Histone Code and DNA-methy- lation are made due to changes in the envi- ronment which causes changes in the produc- tion of proteins. These are two epigentic pro- cesses. The changes are inherited, until the environment changes again.<\/em><\/p>\n<p>&nbsp;<\/p>\n<p><strong>Not the natural host<\/strong><\/p>\n<p><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test6.jpg\" alt=\"\" width=\"583\" height=\"332\" \/><\/p>\n<p>The paragraph describing a difference of the composition of the bee itself with European bees are no 2 of course, the somewhat different genetics. Most prominent difference was probably the more varied genom. But remember the African bee is not the natural host of Varroa mites either.<\/p>\n<\/div>\n<div id=\"id_2\">\n<p><img decoding=\"async\" loading=\"lazy\" class=\"aligncenter\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test7.jpg\" alt=\"\" width=\"234\" height=\"321\" \/><\/p>\n<\/div>\n<\/div>\n<div id=\"page_6\">\n<div id=\"id_1\">\n<p>A prominent difference of African bees compared to European is probably a bigger genetic variation contributing to the adaptation process. But the 5 years are way to short to give time for genetic selection after recombination of nucleus DNA to form a resistant bee. The only powerful process (rather processes) that can explain such a short successful adaptation is epigentics.<\/p>\n<p>These epigentically changes in the Brasilian bee adapted to small cells and later also changed into resistance may well have contributed to the different reactions to small and large cells compared to the European bees used in the other tests.<\/p>\n<p>Epigenetics actually explains more than quick build up of Varroa resistance. All kind of adaptations to new environ- ments that takes place we understand depend on epigenetic processes. Next step (or at the same time) is the genetic changes taking place th- rough selection.<\/p>\n<p><strong>Early studies with different cellsizes in the same colony<\/strong><\/p>\n<p>Some early studies designed in a similar way as those of Message&amp;Goncalves (1995) and Piccirillo&amp;DeJong (2003) are one by Davidson&amp;Fries (1992) (Ref 10) in Sweden and another by Taylor&amp;Goodwin (2001) in New Zealand (Ref 11). The later one was reorganized and republished by Taylor, Goodwin, McBrydie &amp; Cox (2008)(Ref 12). This later publication was one of the publications of three referred to as \u2018closing the case\u2019 of SC (small cell) compared to LC (large cell).<\/p>\n<p><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test8.jpg\" alt=\"\" width=\"520\" height=\"328\" \/><\/p>\n<p><em>Two works investigating small cells eventual effects on Varroa mite reproduction in a similar fashion as those in Brazil, but made under quite differing circumstances that well may have influenced the results.<\/em><\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_7\">\n<div id=\"dimg1\"><\/div>\n<div id=\"id_1\">\n<p>Both Davidson &amp; Fries and Taylor &amp; Goodwin have all the 8 differences described above compared to Message &amp; Goncalves and Piccirillo&amp;deJong.\u00a0 Also, their LC bees had difficulties drawing SC foundation evenly following the SC imprints. And Davidsson didn\u2019t test 4.9 mm as SC but rather 5.1 mm (900 cells\/sq dm).<\/p>\n<p>Their tests were performed with bees that probably were not adapted, that is epigentically changed, in a maximum way to the altered environment that the presence of the Varroa mite resulted in. Varroa was detected on the island Gotland in the Baltic 1987 and in southern Sweden 1991. The mite was detected 2000 in New Zealand.<\/p>\n<p><strong>Adaptation time<\/strong><\/p>\n<p>The adaptation process to resistance to the mite took about 5 years in South America and South Africa. After about the same number of years with big Varroa populations in the colonies, many beekeepers in Sweden reported a noticeable drop in size of the seasonal population peaks of the mite. In some cases where the beekeepers are quite isolated from bees of other beekeepers and use more resistant bees, they don\u2019t use any treatment help for the bees to deal with the mite.<\/p>\n<\/div>\n<div id=\"id_2\">\n<div id=\"id_2_1\">\n<p><strong>Survivability<\/strong><\/p>\n<p>Focus in most varroa mite resistant studies, also with cell size involved, have been reproduction rate or population growth of the varroa. For the practical beekeeper, survival of bee colonies and good honey production is what matters. Of course the speed with which the mite population grows, is of some interest. Anyway one of the most important traits for fighting the mite is what is called VSH (Varroa Sensitive Hygiene) (Ref 13,14) detection of mites in capped brood, especially those with offspring, and uncapping, often followed by cleaning out the infested pupa. This important trait is not a surprise. Even if the reproduction rate of Varroa is low, it will grow, but more slowly. At last the mite population will be too high for the bees, and they must do something active to survive, which is to fight them physically. And they have to start already when the mite population is low.<\/p>\n<p><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test9.jpg\" alt=\"\" width=\"483\" height=\"421\" \/><\/p>\n<\/div>\n<div id=\"id_2_2\">\n<p><em>This colony has been very active in cleaning out infested capped drone brood. This seems to be very unusual according to some tests, but not in this colony. Could cellsize play a role? All the brown empty cells have apparently contained pupae and the bees are actively continuing uncapping and chewing out. The still capped cells has their first batch of capped drone pupae. The drone cellsize is about 6.4 mm.<\/em><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div id=\"page_8\">\n<div id=\"dimg1\"><\/div>\n<div id=\"id_1\">\n<p><strong>To start the VSH-trait, the number of mites probably will have to reach some density level to trigger the bees to chase them. This threshold needs to be small enough to keep the mite population enough small throughout the season, even if some reinvasion occurs.<\/strong><\/p>\n<p>&nbsp;<\/p>\n<p><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test10.jpg\" alt=\"\" width=\"505\" height=\"278\" \/><\/p>\n<p><strong>Differences explained<\/strong><\/p>\n<p><strong>9. One thing that is seldom talked about in design of tests, is which precautions were taken to avoid drifting and robbing during registering the data for all the figures in tables and graphs!<\/strong>\u00a0I know through experience (when nectar flow is low) that if these kind of thorough lifting up of combs and measures taken in a yard is done continuously during even less than half an hour, it doesn\u2019t take long before you have a robbing going on, which makes any measures of figures more or less worthless. And once the bees have learned to rob, the next day (if nectar flow is low) the bees develop a robbing mode even quicker.<\/p>\n<p><strong>10. We don\u2019t know anything about the chemical residues in the wax combs used.<\/strong>\u00a0Recent tests of wax in combs have shown alarmingly high residue levels from miticides and agricides in brood nest combs. We know too little about the effects of this on the immune system (RNAi, peptides, hemocytes, microbe-balance, etc.) and defense system (defense behavior like VSH, grooming, cleaning out virus filled bees from the hive) in the bee colony. We do know that a test made by Randy Oliver with HSC (fully drawn plastic small cell combs)(Ref 15), which have no such residues, gave a much slower varroa buildup than on large cell size (drawn on plastic foundation).<\/p>\n<p><strong>11. When a drought is at hand, nectar availability is often scarce.<\/strong>\u00a0To help the bees they might be fed. We don\u2019t know from the description<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_9\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" id=\"img1\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test11.jpg\" alt=\"\" width=\"558\" height=\"428\" \/><\/div>\n<div id=\"id_1\">\n<p><em>Robbing inferno at data collection in a Varroa test.<\/em><\/p>\n<p>of the tests what is fed and how much. Is it honey, high fructose corn syrup (HFCS) (Ref16,17) or sucrose solution fed? Are proteins low in colonies and therefore pollen or pollen substitutes supplied? We know that there is a discussion concerning the nutrition value, or rather lack of, in HFCS. What you feed can influence the performance and behavior of your bees. This could be part of the explanation why the ending bee populations in some tests were remarkably low in my view.<\/p>\n<p><strong>The three \u2018case is closed-papers\u2019 (CCP)<\/strong><\/p>\n<p>In the November issue of Bee Culture 2009 there was an article by Jennifer Berry (Ref 18), with the message that there is no value in small cell size as a tool against Varroa mites. The article covers three investigations of small cell effect on varroa population build up during a short period of time, half a year to a year. The article ends with a clear message that her article is the final word concerning small cells against Varroa and ends with words she thinks applies:<\/p>\n<blockquote><p>\u201c\u2026the so-called enlightenment of the 17th and 18th centuries engendered investigative methods that mitigate against bias and presupposition. From this point on, arm-chair science was doomed, and many a brilliant idea has since been shipwrecked by the unforgiving objectivity of the scientific method.\u201d<\/p><\/blockquote>\n<p><strong>The conditions listed in paragraphes 3-8 above describe differences compared to those in these three CCP-tests.<\/strong>\u00a0Actually most small cell tests, at least outside South America are differing the same way.<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_10\">\n<div id=\"id_1\">\n<p><strong>CCP1: New Zealand test<\/strong><\/p>\n<p>One of the papers mentioned in the Berry BC-article is the Taylor &amp; Goodwin-paper. And the result, similar to that of Davidsson&amp;Fries, arrives at no advantage for small cells. As has been already mentioned\u00a0<strong>there are at least 8 conditions that differ from the tests done in Brazil<\/strong>. The Brazilian tests are showing positive influences for small cells concerning varroa reproduction. (Survivability is though not investigated in any of these tests.)<\/p>\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" id=\"img1\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test12.jpg\" alt=\"\" width=\"497\" height=\"269\" \/><\/div>\n<p><strong>Alternative test design:<\/strong><\/p>\n<p>The results of the NZ and Davidsson tests, creates the need for finding out if these differing conditions compared to the Brazilian, have significance for the differing results. To find out that we need a test which use 2 apiaries separated by a distance of about 3 km. One apiary having only bees adapted since maybe 5 years on small cells supplied with pieces of combs according to the test set up. With no LC bees within 3 km. The other test apiary having only LC bees set up the same way. The queens must likewise belong to a stock of adapted SC and LC bees respectively. To overcome the disadvantage of differing genetics in the two apiaries the number of hives in each apiary should be more. Maybe 2-3 of each and no sisters. Residue free wax for the foundation in the combs should be used (or plastic foundation). High fructose corn syrup or pollen substitutes should not be used if feeding is necessary.<\/p>\n<p><strong>CCP2: Berry test<\/strong><\/p>\n<p>The second CCP-paper is one of her own, Berry, Owens &amp; Delaplane, Apidologie (2009)(Ref19). She began the test with bees from a beekeeper successfully keeping bees on 4.9 mm cell size without using treatments. That is note-worthy. But she mixed them with LC-bees and made packages. She kept the test (SC) and control colonies (LC) in the same yard. The resulting mite populations were too small to show any differences in ending mite population sizes. Compare with the first year result presented in a small cell size test by Prof Fries in Sweden (se graph).<\/p>\n<p>Her goal was though not to measure ending mite population sizes but reproduction rate, which she meant was enough with the short time used. For this decision she leaned on only one paper saying a duration<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_11\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" id=\"img1\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test14.jpg\" alt=\"\" width=\"700\" height=\"554\" \/><\/div>\n<div><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test15.jpg\" alt=\"\" width=\"527\" height=\"276\" \/><\/div>\n<div><\/div>\n<div id=\"tx1\"><\/div>\n<div id=\"id_1\">\n<div id=\"id_1_1\">\n<p>of 10 weeks was enough for this (Ref 20). A onetime test should be repeated to give better assurance of the result.\u00a0<strong>This paper does not take in consideration that eventual VSH trait may not start to work until a kind of threshold level is reached.<\/strong>Interesting that this paper is authored by Harbo, who meritoriously bred VSH-bees (first called SMR-bees).<\/p>\n<\/div>\n<\/div>\n<div id=\"id_2\">\n<p>The number of failing colonies in her test is striking. How come? The first batch of 10 + 10 colonies set up in August 2006 should have been enough. But already in October there were only 3 + 4 left. Something went wrong, maybe with the introduction of the queens. So another 10 + 10 colonies were started in March 2007. In June 2007 these two batches were ended. Why not let them continue? Next April in 2008 a third batch of 10 + 10 colonies was set up and run till August 2008. And these are called three separate tests, but done the same way. All figures were pooled except the end populations of bees. Why? The tests were not done the same way. The first one lasted six months. The second began with foundation instead of drawn combs and lasted three months. The third began with drawn comb like the first and lasted four months. Were they replicates of each other?<\/p>\n<\/div>\n<\/div>\n<div id=\"page_12\">\n<div id=\"id_1\">\n<p><strong>Alternative test design:<\/strong><\/p>\n<p>She had a great opportunity to use a stock adapted to small cells and as well resistant to varroa mites (no treatments were used on those bees). But she missed it. Instead of pooling SC and LC bees, two separate apiaries should have been set up, one with SC and one with LC bees, 3 km apart, with no other bees in the neighborhood. To overcome the disadvantage of having a separate apiary for the control colonies, the number of colonies in both groups should be increased. Even better had been to set up 2 apiaries for each group, totaling 4 apiaries. Residue free wax for comb foundation or plastic foundation should have been used. And no HFCS or pollen substitutes for feeding, but real honey or sucrose solution and real pollen. Also the test period should be long enough to enable the mite population to grow over the \u201dnormal\u201d amount of mites for varroa resistant bees (Ref 21), which it probably would after a couple of seasons in the LC apiary.<\/p>\n<\/div>\n<div id=\"id_2\">\n<div id=\"id_2_1\">\n<p><strong>CCP3: Ellis2 &amp; Hayes test<\/strong>\u00a0(Ref 21)<\/p>\n<p>The authors have made efforts to design their test to avoid interferences, for example by establishing the SC colonies with SC packages and placing the LC colonies 680 m away from the SC colonies. Maybe the authors had read the article of Hans-Otto Johnsen in Bee Culture May 2005 (Ref 22) in which he describes a test running over several years. His different apiaries were 700 m apart. The result gives small cells an advantage in fighting the Varroa mite.<\/p>\n<p><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test16.jpg\" alt=\"\" width=\"395\" height=\"438\" \/><\/p>\n<\/div>\n<div id=\"id_2_2\">\n<p><em>One of the graphs from the test of Hans-Otto Johnsen after a couple of season of the test. It was performed with stock unselected for Varroa resistance. See his article online (Ref 20)<\/em><\/p>\n<\/div>\n<\/div>\n<div id=\"id_3\"><\/div>\n<\/div>\n<div id=\"page_13\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" id=\"img1\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test16a.jpg\" alt=\"\" width=\"496\" height=\"1003\" \/><\/div>\n<div id=\"id_1\">\n<p>&nbsp;<\/p>\n<p>But Johnsen knew that robbing, slow or intense, is easily aroused if you keep your hives open long enough, which is not long at all during nectar drought. Therefore he worked the hives late in the day close to dusk. And he worked the hives quickly and had entrances restricted in size. And when harvesting he kept the combs and boxes harvested closed from bees. He didn\u2019t feed the colonies but complement feeding for winter with sucrose solution. The wax in the combs was free of chemical residues.<\/p>\n<p>We don\u2019t know how data were collected by Ellis (Ref 2)&amp;Hayes. 700 m is no hinder for robber bees, especially during a drought. If robbing is started, even only slightly and once, the test may well have been ruined, through mites being distributed and evened out mite populations with the help of robbers. I\u2019ve myself seen a test yard roaring of robbers in the middle of the day while data collection was going on during a drought.<\/p>\n<\/div>\n<\/div>\n<div id=\"page_14\">\n<div id=\"id_1\">\n<p>Sister queens were used to all colonies. Queens from SC- or LC-stock? Probably LC-stock. Their genom is not epigentically adapted to small cells. We don\u2019t know how much that interfere with the result. To over- come that SC-queens could have used in SC-colonies and LC-queens in LC-colonies.<\/p>\n<p>We don\u2019t know what kind of feed that was used. HFCS is suspected of just keeping colonies alive but not making it possible for them to thrive and grow. Pollen substitutes should not be used more than a couple of brood cycles. The bees need real pollen for a lengthy protein feeding. Lack of protein may lead to lowered immune and defense system me- chanisms.<\/p>\n<p>Ellis (Ref 2) &amp; Hayes had a test period of one year. The ending total number of mites indicates that the test period was just about too short. It had reached 3600-4000 mites, lowest with the LC-bees. But the LC-colonies were only half the strength of SC-ones. About 7000 bees compared to 15000. According to the findings of Mondrag\u00f3n, Spivak and Vandame (2005)( Ref 23) the mite population in resistant bees (AHB) in Mexico varied during the season and averaged almost 4000 mites in the colony. This tells us the test should have been running for at least another season.<\/p>\n<p>Notable is the low bee populations in all bee colonies. Are the apiary surroundings almost void of nectar sources? Were the bees fed HFCS instead of honey or sucrose solution? Is the wax in the combs loaded with chemical residues? The SC colonies were more than doubled in strength at the end of test year in May 2008 compared to one year earlier. The LC colonies are just slightly bigger than the starting size. Another season would have produced an interesting continuation.<\/p>\n<p>There are in spite of not optimal design of the test some interesting trends that would have been interesting to follow another season. Maybe the benefit of small cells is to provide a bigger visible variation of varroa resistance making a better selection possible for breeding?<\/p>\n<p>In May 2008 mites per adult bee was 35 % lower in SC-colonies (9 % and 14 % respectively). Mites per brood cell 23 % lower in SC-colonies (13 % and 17 % respectively).<\/p>\n<p><strong>Alternative design:<\/strong><\/p>\n<p>Establish 4 instead of 2 apiaries. Locate them 2-3 km apart. One SC- apiary and one LC-apiary with SC sister queens. (Queens bred from a queen in a SC colony. Her mother and grandmother have also been from SC colonies.) One SC-apiary and one LC-apiary have LC sister queens. Feed when needed in first place with honey and real pollen (best with pollen dust outside the hives protected from rain), if not possible with sucrose and pollen substitutes. The test period should be at least two years.<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_15\">\n<div id=\"dimg1\"><\/div>\n<div id=\"id_1\">\n<p><strong>Other tests<\/strong><\/p>\n<p>The three CCP-tests are covered because of the extraordinary brave conclusion in the Bee Culture article by Jennifer Berry. I felt there was a need to challenge that conclusion. More papers on small cells have been published after the three CCP-ones. I will mention a few. One comes to the conclusion that small cells are beneficial for the bee colony in figh- ting the mite. Another that they are not. Both are focused on reproduction of the mites in first place as a result of how much fertile progeny the mites can produce. No consideration seems to be taken to eventual actions of the bees.<\/p>\n<p><img decoding=\"async\" loading=\"lazy\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test17.jpg\" alt=\"\" width=\"451\" height=\"255\" \/><\/p>\n<p><em>Relative frequency distribution of worker brood cells width (class intervalls) in which a mother mite was found. Cell size is inside measurement not including one cell wall. Graph made with data from the article of Maggi et al.<\/em><\/p>\n<p>The first one is authored by Mat\u00edas Maggi et al, published in Ex- perimental and Applied Acarology 2010 and entitled Brood cell size of Apis mellifera modifies the reproductive behaviour of Varroa destructor (Ref 24). The test is conducted in Argentina at the coast well south of Buenos Aires. One whole frame with capped worker brood was analyzed from 5 colonies. Every cell with mites was measured in size. They vary in size from much smaller than 4.9 mm to much bigger. The stock of bees was European. They hadn\u2019t been treated with miticides for 18 months and the infestation in brood was in average 30 %. (Some info comes from personal communication.) One of the conclusions was:\u00a0<strong>\u2018We found that brood cell width in A. mellifera colonies affected the invasion and reproduction rate of V. destructor under natural conditions.\u2019<a name=\"seeley\"><\/a><\/strong><\/p>\n<p>The second is authored by T Seeley and S Griffin, published in Api- dologie 2011 and entitled Small-cell combs does not control Varroa mites in colonies of honeybees of European origin (Ref 25).\u00a0 The test was done in New York State. Two apiaries with 7 colonies each were established from packages from 7 colonies highly infested by Varroa mites. They were placed 120 m apart in which the colonies were spaced 5 m apart. All this to avoid drifting. The colonies were established June 2, 2009, and ended in October the same year. All bees were LC-bees. All queens were LC-queens from the same commercial source. The SC-colonies got fully drawn plastic SC-combs. The LC colonies fully drawn LC wax combs. Colony strenght was always somewath smaller in SC-colonies.<\/p>\n<\/div>\n<div id=\"id_2\"><\/div>\n<\/div>\n<div id=\"page_16\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" id=\"img1\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test18.jpg\" alt=\"\" width=\"517\" height=\"186\" \/><\/div>\n<div id=\"tx1\"><em>Data from one of the tables in the article. They show that in spite of lower mite drops in total, the mite drops per frame is higher. It shows that the small cell colonies are much smaller in size, most probably due to the fully built plastic combs. They are not accepted as well by the bees and queens to lay in.<\/em><\/div>\n<p>Probably due to the repellent effect plastic and especially fully drawn ones have on acceptance and queens laying in them in the beginning they are given to the bees. That gives an unfair comparison between the groups concerning colony performance.<\/p>\n<p>The main goal of the test was to find out if bees reared in small cells would create an environment for the mites inside the small cell, so that they would reproduce with less success. The first conclusion is that mites can repdoduce well in small cells. I think that is correct.<\/p>\n<p>With the original host of Varroa mites, Apis cerana, VSH and grooming activities of the bees are of great importance. But of course, all kinds of resistance characteristics are of importance, as less successful reproduction in worker brood. However, it seems scientists, with the exception of VSH-scientists, put too little attention to the importance of adult bees resistance activities.<\/p>\n<p>The authors didn\u2019t stop at the first conclusion, but they went on to say that small cells do not control Varroa mites in bee colonies. It seems they meant under all kinds of circumstances. That\u2019s an extrapolating that the test design denies.<\/p>\n<p>Not SC-adapted bees and queens were used in the SC-colonies. The distance between the apiaries were not big enough. Too different character of the combs (wax visavi fully drawn plastic). The initial mite infestation was too big for somewhat resistant bees to have time to take control over the mite population through eventual hygienic behavior.<\/p>\n<p>The test period was too short (well, with that big initial mite load it was maybe about maximum).<\/p>\n<p><strong>There exists varroa resistant bees on large cells<\/strong><\/p>\n<p>It has to be said that small cells are not needed to achieve varroa resistant bees. There are examples in both America and in Europe. One is a friend of mine in southern Sweden who has had an apiary placed at least 3 km from other bees, which he hasn\u2019t treated for varroa for more than 10 years. The bees are on 5.4 mm cellsize, but the stock was bred for varroa resistance before the establishment of that apiary.<\/p>\n<\/div>\n<div id=\"page_17\">\n<div id=\"dimg1\"><img decoding=\"async\" loading=\"lazy\" id=\"img1\" src=\"http:\/\/www.resistantbees.com\/fotos\/blog\/test19.jpg\" alt=\"\" width=\"342\" height=\"449\" \/><\/div>\n<div id=\"id_1\">\n<div id=\"id_1_1\">\n<p><em>Thore H\u00e4rnkloo in Sweden has never ever had the need to treat in his isolated apiaries against Varroa. He is using beestock selected for resistance against Varroa mite and he is using small cells. One contributing factor may well be that the honeyflow in the forested area does not allow big colonies and big honey- crops. The 5 story design is not considered big with this bee in areas with richer honeyflows.<\/em><\/p>\n<p>I know also of other beekeepers that have achieved resistant bees, on small cells, with the same stock of bees. They have them in isolation from LC- bees and\/or nonresistant bees. This isolation of about 3 km to non-resistant bees is evidently very beneficial.<\/p>\n<p>It has to be a reason for naturally living bees to form mostly smaller cells in the brood nest, and also with a variation of cellsizes. Natural selection favors fitness. So there\u2019s no reason not to acquire more fit bees, even if it\u2019s for something else than resistance against Varroa mites. One of the reasons could be economical. In the 1960s the owner of one of the biggest bee equipement companies in Sweden, Evert Svensson, also a commercial beekeeper, tried out bigger cells compared to his 5.1-5.2 mm cell- size. He used the bigger cells on about 50 colonies in one apiary for a couple of years.\u00a0<strong>His conclusion was that bigger cells gave less money in the pocket.<\/strong><\/p>\n<\/div>\n<div id=\"id_1_2\">\n<p>&nbsp;<\/p>\n<\/div>\n<\/div>\n<div id=\"id_2\">\n<p>References (Click on the url to reach the referenced article on internet)<\/p>\n<p>1.The ABC and XYZ of Beekeeping, A. I. Root, 1910:\u00a0<a href=\"http:\/\/archive.org\/details\/abcxyzofbeecultu00root\">http:\/\/archive.org\/details\/abcxyzofbeecultu00root\u00a0<\/a><a href=\"http:\/\/archive.org\/details\/abcxyzofbeecultu00root\">\u2013<\/a>&gt; p. 266, 267<\/p>\n<p>2.Bees and Bee-Keeping, Frank Cheshire:\u00a0<a href=\"http:\/\/generalbooksclub.com\/book.cfm?id=48283090\">http:\/\/GeneralBooksClub.com\/book.cfm?id=48283090<\/a><\/p>\n<p>3.Helping Honey Bees Fight Mites, Eric Erickson:\u00a0<a href=\"http:\/\/www.ars.usda.gov\/is\/ar\/archive\/may97\/honey.pdf\">http:\/\/www.ars.usda.gov\/is\/ar\/archive\/may97\/honey.pdf<\/a><\/p>\n<p>4.Beesource Ppoint of View, Ed &amp; Dee Lusby:\u00a0<a href=\"http:\/\/www.beesource.com\/point-of-view\/ed-dee-lusby\/\">http:\/\/www.beesource.com\/point-of-view\/ed-dee-lusby\/<\/a><\/p>\n<p>5.Effect of the size of worker brood cells of Africanized honey bees on infestation and reproduction of the ectoparasitic mite Varroa jacobsoni Oud, D. Message, L.S. Gon\u00e7alves:\u00a0<a href=\"http:\/\/www.researchgate.net\/publication\/41700870\">http:\/\/www.researchgate.net\/publication\/41700870<\/a><\/p>\n<p>6.The influence of brood comb cell size on the reproductive behavior of the ectoparasitic mite Varroa destructor in Africanized honey bee colonies, Giancarlo A. Piccirillo1, and D. De Jong:\u00a0<a href=\"http:\/\/www.funpecrp.com.br\/gmr\/year2003\/vol1-2\/gmr0057_full_text.htm\">http:\/\/www.funpecrp.com.br\/gmr\/year2003\/vol1-2\/gmr0057_full_text.htm<\/a><\/p>\n<p>7.Peter Rosenkrantz speaking in H\u00e4ssleholm, Sweden, March 19, 2011. Video sequence from 50.16 minutes into the speach to 52.43:\u00a0<a href=\"http:\/\/bambuser.com\/v\/1511682\">http:\/\/bambuser.com\/v\/1511682<\/a><\/p>\n<p>8.New Components of Epigenetic \u2019Code\u2019 for Honey Bee Development Discovered, Science News:\u00a0<a href=\"http:\/\/www.sciencedaily.com\/releases\/2012\/12\/121211101942.htm\">http:\/\/www.sciencedaily.com\/releases\/2012\/12\/121211101942.htm<\/a><\/p>\n<p>9.ANALYSIS OF VARROA DESTRUCTOR INFESTATION OF SOUTHERN AFRICAN HONEYBEE POPULATIONS, MIKE ALLSOP:\u00a0<a href=\"http:\/\/upetd.up.ac.za\/thesis\/available\/etd-08082007-153050\/unrestricted\/dissertation.pdf\">http:\/\/upetd.up.ac.za\/thesis\/available\/etd-08082007-153050\/unrestricted\/dissertation.pdf<\/a><\/p>\n<p>10.The influence of cell size in Varroa reproduction, Davidsson, Mia:\u00a0<a href=\"http:\/\/beeman.se\/research\/cell.htm\">http:\/\/beeman.se\/research\/cell.htm<\/a><\/p>\n<p>11.Can the reduction of Cellsize reduce the impact of Varroa, M.A Taylor and R.A. Goodwin:\u00a0<a href=\"http:\/\/maxa.maf.govt.nz\/sff\/about-projects\/search\/00-256\/cell-size-impact-on-varroa.pdf\">http:\/\/maxa.maf.govt.nz\/sff\/about-projects\/search\/00-256\/cell-size-impact-on-varroa.pdf<\/a>Rearranged and republished:<\/p>\n<p>12.The effect of honey bee worker brood cell size on Varroa destructor infestation and reproduction, Michelle A. Taylor, R. Mark Goodwin, Heather M. McBrydie and Harlan M. Cox:\u00a0<a href=\"http:\/\/www.ibra.org.uk\/articles\/20081124_18\">http:\/\/www.ibra.org.uk\/articles\/20081124_18<\/a><\/p>\n<\/div>\n<div id=\"id_3\"><\/div>\n<\/div>\n<div id=\"page_18\">\n<div id=\"id_1\">\n<p>13.Varroa sensitive hygiene, Wikipedia:\u00a0<a href=\"http:\/\/en.wikipedia.org\/wiki\/Varroa_sensitive_hygiene\">http:\/\/en.wikipedia.org\/wiki\/Varroa_sensitive_hygiene<\/a><\/p>\n<p>14.Effect of Brood Type on Varroa-Sensitive Hygiene by Worker Honey Bees (Hymenoptera: Apidae), Jeffrey W. HArris:\u00a0<a href=\"http:\/\/naldc.nal.usda.gov\/download\/21494\/PDF\">http:\/\/naldc.nal.usda.gov\/download\/21494\/PDF<\/a><\/p>\n<p>15.Trial of HoneySuperCell\u00ae Small Cell Combs, Randy Oliver:<\/p>\n<p><a href=\"http:\/\/scientificbeekeeping.com\/trial-of-honeysupercell-small-cell-combs\/\">http:\/\/scientificbeekeeping.com\/trial-of-honeysupercell-small-cell-combs\/<\/a><\/p>\n<p>16.Formation of Hydroxymethylfurfural in Domestic High-Fructose Corn Syrup and Its Toxicity to the Honey Bee (Apis mellife- ra), BLAISE W. LEBLANC, GILLIAN EGGLESTON, DIANA SAMMATARO, CHARLES CORNETT, RENEE DUFAULT, THOMAS DEEBY, AND ELDWIN ST. CYR:\u00a0<a href=\"http:\/\/www.uwplatt.edu\/~cornettc\/Ag%20and%20Food%20Publish.pdf\">http:\/\/www.uwplatt.edu\/~cornettc\/Ag%20and%20Food%20Publish.pdf<\/a><\/p>\n<p>17.Preliminary Results on Bee Longevity \u2013 HFCS vs. Sucrose, D. Sammataro, M. Weiss, J. Finley:\u00a0<a href=\"http:\/\/projectapism.org\/content\/view\/66\/27\/\">http:\/\/projectapism.org\/content\/view\/66\/27\/<\/a><\/p>\n<p>18.Small Cell Foundation And Varroa Mites, Jennifer Berry:\u00a0<a href=\"http:\/\/www.beeculture.com\/storycms\/index.cfm?cat=Story&amp;recordID=676\">http:\/\/www.beeculture.com\/storycms\/index.cfm?cat=Story&amp;recordID=676<\/a><\/p>\n<p>19.Small-cell comb foundation does not impede Varroa mite population growth in honey bee colonies, Jennifer A. Berry1, Wil- liam B. Owens2, Keith S. Delaplane:\u00a0<a href=\"http:\/\/www.beebehavior.com\/Arxive\/small_cell_comb_varroa_mites.pdf\">http:\/\/www.beebehavior.com\/Arxive\/small_cell_comb_varroa_mites.pdf<\/a><\/p>\n<p>20.Evaluating colonies of honey bees for resistance to Varroa jacobsooni, John R. Harbo:\u00a0<a href=\"http:\/\/www.ars.usda.gov\/SP2UserFiles\/Place\/64133000\/PDFFiles\/301-400\/339-Harbo--Evaluating%20Colonies%20of%20Honey%20Bees.pdf\">http:\/\/www.ars.usda.gov\/SP2UserFiles\/Place\/64133000\/PDFFiles\/301-400\/339-Harbo\u2013Evaluating%20Colonies%20of%20Honey%20Bees.pdf<\/a><\/p>\n<p>21.The efficacy of small cell foundation as a varroa mite (Varroa destructor) control, A. M. Ellis, G. W. Hayes, J. D. Ellis:\u00a0<a href=\"http:\/\/link.springer.com\/content\/pdf\/10.1007%2Fs10493-008-9221-3\">http:\/\/link.springer.com\/content\/pdf\/10.1007%2Fs10493-008-9221-3<\/a><\/p>\n<p>22.Survival of a Commercial Beekeeper in Norway, Hans-Otto Johnsen:<\/p>\n<p><a href=\"http:\/\/www.beesource.com\/point-of-view\/hans-otto-johnsen\/survival-of-a-commercial-beekeeper-in-norway\/\">http:\/\/www.beesource.com\/point-of-view\/hans-otto-johnsen\/survival-of-a-commercial-beekeeper-in-norway\/<\/a><\/p>\n<p>23.A multifactorial study of the resistance of honeybees Apis mellifera to the mite Varroa destructor over one year in Mexico, Luis MONDRAG\u00d3N, Marla SPIVAK, R\u00e9my VANDAME:\u00a0<a href=\"http:\/\/www.beelab.umn.edu\/prod\/groups\/cfans\/@pub\/@cfans\/@bees\/documents\/asset\/cfans_asset_317701.pdf\">http:\/\/www.beelab.umn.edu\/prod\/groups\/cfans\/@pub\/@cfans\/@bees\/documents\/asset\/cfans_asset_317701.pdf<\/a><\/p>\n<p>24.Brood cell size of Apis mellifera modifies the reproductive behavior of Varroa destructor, Mat\u00edas Maggi, Natalia Damiani, Ser- gio Ruffinengo, David De Jong, Judith Principal, Mart\u00edn Eguaras:\u00a0<a href=\"http:\/\/link.springer.com\/content\/pdf\/10.1007%2Fs10493-009-9314-7\">http:\/\/link.springer.com\/content\/pdf\/10.1007%2Fs10493-009-9314-7<\/a><\/p>\n<p>25.Small-cell comb does not control Varroa mites in colonies of honeybees of European origin, Thomas D. Seeley, Sean R. Griffin:\u00a0<a href=\"http:\/\/www.researchgate.net\/publication\/225570786_Small-cell_comb_does_not_control_Varroa_mites_in_colonies_of_honeybees_of_European_origin\">http:\/\/www.researchgate.net\/publication\/225570786_Small-cell_comb_does_not_control_Varroa_mites_in_colonies_of_honeybees_of_European_origin<\/a><\/p>\n<p>Alternative link to reference 25:\u00a0<a href=\"http:\/\/www.researchgate.net\/publication\/225570786_Small-cell_comb_does_not_control_Varroa_mites_in_colonies_of_honeybees_of_European_origin\">http:\/\/tinyurl.com\/ccnd7z2<\/a><\/p>\n<\/div>\n<\/div>\n<p>[\/vc_column_text][\/vc_column][\/vc_row]<\/p>\n","protected":false},"excerpt":{"rendered":"<p>[vc_row][vc_column][vc_column_text]Wissenschaftliche Studien \u00fcber die Wirkung von kleinen Zellen auf die Vermehrung von Varroamilben wurden fast alle mit falschen Voraussetzungen vollzogen. Endlich k\u00f6nnen wir beweisen dass nahezu all diese Studien falsche&hellip;<\/p>\n","protected":false},"author":2,"featured_media":3301,"comment_status":"closed","ping_status":"open","sticky":false,"template":"","format":"standard","meta":[],"categories":[143],"tags":[159,160,169,190,192],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v20.10 - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>Widerlegung der wissenschaftlichen Studien \u00fcber die Uneffektifit\u00e4t der kleinen Zellen - ResistantBees<\/title>\n<meta name=\"description\" content=\"Wissenschaftliche Studien \u00fcber die Wirkung von kleinen Zellen\" \/>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/resistantbees.es\/?p=3299\" \/>\n<meta property=\"og:locale\" content=\"de_DE\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Widerlegung der wissenschaftlichen Studien \u00fcber die Uneffektifit\u00e4t der kleinen Zellen - 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