Identification des réseaux neurobiologiques gouvernant les apprentissages ambigus chez l'abeille Apis mellifera / Identification of the neuronal circuits required for ambiguous learning in honey bees apis mellifera

Boitard, Constance

28 September 2015

L'apprentissage associatif recouvre des niveaux variables de complexité, des tâches cognitives simples jusqu'à des tâches complexes qui nécessitent la résolution de discriminations ambigües. Cette thèse traite de deux protocoles présentant des ambigüités chez l'abeille, au cours desquels le blocage de la signalisation GABAergique des neurones récurrents sur les corps pédonculés, structures cérébrales majeures de l'apprentissage, est à l'origine de la perte de capacité de résolution ambigüe. Ces neurones, non requis pour les apprentissages simples, semblent donc indispensables à la résolution des ambigüités propres aux discriminations cognitives complexes et élaborées chez l'abeille. / Associative learning spans different levels of complexity, from simple tasks involving simple causal relationships between events, to ambiguous tasks, in which animals have to solve complex discriminations based on non-linear associative links. We focused on two protocols presenting a temporal or configural ambiguity at the level of stimulus contingencies in honey bees (\textit{Apis mellifera}). We performed selective blockades of GABAergic signalisation from recurrent feedback neurons in the mushroom bodies (MBs), higher-order insect brain structures associated with memory storage and retrieval, and found that this blockade within the MB calyces impaired both ambiguous learning tasks, although if did not affect simple conditioning counterparts. We suggest that the A3v cluster of the GABA feedback neurons innervating the MBs calyces are thus dispensable for simple learning, but are required for counteracting stimulus ambiguity in complex discriminations in honey bees.

Cognition

Insecte

Abeille

Neurobiologie

GABA

Neurones récurrents

Apprentissage

Cognition

Insect

Honey bee

Neurobiology

GABA

Feedback neurons

Learning

NOSEMA CERANAE IN WESTERN HONEY BEES (APIS MELLIFERA): BIOLOGY AND MANAGEMENT

Williams, Geoffrey Rhys

27 March 2013

Western honey bees (Apis mellifera; hereafter honey bees) provide vital pollination services to global agriculture and biodiversity. However in recent years they have experienced severe population declines in many regions of the northern hemisphere. Although causes of these honey bee declines are not well understood, multiple pressures such as changes in land-use and climate, management issues, and introduced parasites are believed to be responsible. First described in honey bees in 2006 during a period of high colony mortalities, the microsporidian gut parasite Nosema ceranae became of great concern. In this dissertation I investigated the distribution, management, virulence, and inter-specific interactions of this introduced species. First, I described and clarified the multiple pressures believed to influence honey bee health, including N. ceranae, especially in relation to the mysterious phenomenon Colony Collapse Disorder. I then surveyed colonies in Maritime Canada for N. ceranae and the historic honey bee microsporidian Nosema apis. Although both species were present at a regional scale, intensive sampling in Nova Scotia revealed that N. ceranae was highly prevalent compared to the historic congener. Next, I investigated two potential management options for the parasite. Chemotherapy using the fungicide fumagillin reduced N. ceranae spore intensity but had no effect on colony survival, and indoor over-wintering did not reduce spore intensity but was associated with increased colony survivorship in spring. Using a comparative approach, I observed that N. ceranae infection significantly reduced honey bee longevity in the laboratory but did not influence overall colony health or strength in the field. Last, a laboratory study demonstrated reduced spore production during N. ceranae and N. apis co-infection, possibly due to inter-specific competition that has resulted in the displacement of the historic Nosema species by N. ceranae in many global regions. This dissertation provides crucial information on biology and management of N. ceranae that can be used towards the development of an integrated pest management strategy, and for future studies investigating factors that may influence the parasite’s distribution, virulence, and inter-specific interactions.

Evaluation of the Fungi Beauveria bassiana, Metarhizium anisopliae, and Clonostachys rosea as Bio-control Agents against the Honey Bee Parasitic Mite, Varroa destructor

Sinia, Alice

08 1900

Laboratory bioassay was used to determine the pathogenicity of nine isolates of fungi of the genera Metarhizium, Beauveria and Clonostachys to the parasitic mite, Varroa destructor. All nine isolates were pathogenic to V. destructor with Metarhizuim anisopliae UAMH 9198, Clonostachys rosea UAMH 9161 and Beauveria bassiana GHA being the most pathogenic within their respective species. Metarhizium anisopliae UAMH 9198 was more lethal to V. destructor than B. bassiana GHA and C. rosea UAMH 9161 with LC50 values of 1.6 x 10(5), 9.6 x 10(6) and 5.4 x 10(6) conidia/mL, respectively. Metarhizium anisopliae and B. bassiana significantly affected brood and adult honey bee survivorship and their immune responses. They were lethal to the bees with LC50s of 3.70 x 10(6) and 2.62 x 10()5 conidia/mL, respectively. The effect of temperature and thymol on conidia germination, production and colony growth of the fungal isolates was determined. Temperature significantly affected conidia germination, production and colony growth (P < 0.05) but thymol did not. Efficacy of the two most promising isolates (M. anisopliae UAMH 9198 and B. bassiana GHA) as potential bio-control agents against V. destructor in hives was evaluated. Fungal inocula were applied as dry formulation, with corn flour as carrier, using dispenser tray and dusting applications. Treatments were either applied alone or in combination with thymol to determine any synergistic effects. All treatments significantly increased mite mortality (P < 0.05), however, the mite control efficacy varied between fungal treatments and application methods. Combined treatments of fungi and thymol caused significantly higher mite mortality than single fungal treatments, which showed control levels of ≤61%. Significant differences in mite mortality were found between the two delivery methods with the differences depending on the fungal isolate. The results suggest that M. anisopliae UAMH 9198 would be a more effective bio-control agent for the management of V. destructor in honey bee colonies than the other isolates tested when dispensed continuously in hives using delivery methods such as a dispenser tray. However, future research is needed to improve delivery methods and investigate the effect of carriers used in the formulation on the efficacy of such entomopathogenic fungi. / Ontario Ministry of Agriculture and Food (OMAF), University of Guelph

Varroa mite

Honey bee

Biocontrol

Entomopathogenic fungi

Varroa control

Hymenoptaecin

Beauveria bassiana

Metarhizium anisopliae

Clonostachys rosea

Varroa destructor

Ovarian Regulation of Honey Bee (Apis mellifera) Foraging Division of Labor

January 2011

abstract: There is increasing evidence that ovarian status influcences behavioral phenotype in workers of the honey bee Apis mellifera. Honey bee workers demonstrate a complex division of labor. Young workers perform in-hive tasks (e.g. brood care), while older bees perform outside tasks (e.g. foraging for food). This age correlated division of labor is known as temporal polyethism. Foragers demonstrate further division of labor with some bees biasing collection towards protein (pollen) and others towards carbohydrates (nectar). The Reproductive Ground-plan Hypothesis proposes that the ovary plays a regulatory role in foraging division of labor. European honey bee workers that have been selectively bred to store larger amounts of pollen (High strain) also have a higher number of ovarioles per ovary than workers from strains bred to store less pollen (Low strain). High strain bees also initiate foraging earlier than Low strain bees. The relationship between ovariole number and foraging behavior is also observed in wild-type Apis mellifera and Apis cerana: pollen-biased foragers have more ovarioles than nectar-biased foragers. In my first study, I investigated the pre-foraging behavioral patterns of the High and Low strain bees. I found that High strain bees progress through the temporal polyethism at a faster rate than Low strain bees. To ensure that the observed relationship between the ovary and foraging bias is not due to associated separate genes for ovary size and foraging behavior, I investigated foraging behavior of African-European backcross bees. The backcross breeding program was designed to break potential gene associations. The results from this study demonstrated the relationship between the ovary and foraging behavior, supporting the proposed causal linkage between reproductive development and behavioral phenotype. The final study was designed to elucidate a regulatory mechanism that links ovariole number with sucrose sensitivity, and loading decisions. I measured ovariole number, sucrose sensitivity and sucrose solution load size using a rate-controlled sucrose delivery system. I found an interaction effect between ovariole number and sucrose sensitivity for sucrose solution load size. This suggests that the ovary impacts carbohydrate collection through modulation of sucrose sensitivity. Because nectar and pollen collection are not independent, this would also impact protein collection. / Dissertation/Thesis / Ph.D. Biology 2011

Biology

Biology, Animal Physiology

Behavioral Sciences

Apis mellifera

Behavioral Physiology

Division of Labor

foraging behavior

Honey bee workers

ovarian control

Molekulární epidemiologie druhů Crithidia mellificae a Lotmaria passim v populaci včelstev

VOČADLOVÁ, Kateřina

January 2018

The increased honey bee colony losses in the last decade gain a considerable attention of scientists and public. The causes of these losses include a wide range of biotic and abiotic factors, but pathogens and parasites are probably the main ones. Monoxenous trypanosomatids in honey bee gut Lotmaria passim and Crithidia mellificae were neglected for a long time but according to recent studies they seem to participate in those colony declines. Trypanosomatids are widespread parasites, including also the causes of some human illnesses, such as sleeping sickness, Chagas disease and leishmaniasis. The mechanism of the effect on honey bee health is not well understood so far. The aim of this thesis was to verify the occurrence of the trypanosomatids in honey bee samples from two regions in Czech Republic. The methods, based on detection of specific DNA loci, confirm the high prevalence of L. passim, which was founded in majority (71 %) of the samples. On the contrary, no samples were positive to C. mellificae.

Aspectos reprodutivos de rainhas africanizadas (Apis mellifera L.): influência do peso ao nascer no desempenho das colônias / Reproductive aspects of Africanized queens (Apis mellifera L.): influence of virgin queen weight at eclosion on colony performance

Daiana Almeida de Souza

30 October 2009

A rainha é a progenitora de todos os integrantes da colônia de abelhas (Apis mellifera L.) através da qual são passadas as características hereditárias para seus descendentes, sendo de extrema importância nos programas de melhoramento genético apícola. A qualidade de uma rainha é determinada principalmente por fatores intimamente relacionados à sua estrutura reprodutiva, o que é refletido tanto no peso destas, como na atividade de postura e na sua longevidade. Por esse motivo, o objetivo deste trabalho foi avaliar a influência do peso ao nascer de rainhas de abelhas africanizadas sobre o os aspectos relacionados ao comportamento reprodutivo em rainhas fecundadas naturalmente e inseminadas instrumentalmente, bem como acompanhar o desenvolvimento e produtividade das colônias descendentes destas rainhas. Os experimentos foram realizados no Apiário Experimental do Departamento de Genética da Faculdade de Medicina de Ribeirão Preto USP, onde foram estabelecidas doze colônias de abelhas africanizadas divididas em quatro grupos: seis colônias com rainhas fecundadas naturalmente e seis inseminadas instrumentalmente, subdivididas em três colônias com rainhas leves (< 180 mg) e três com rainhas pesadas (> 200 mg), onde o peso foi registrado imediatamente após as rainhas emergirem. As rainhas leves e pesadas, fecundadas naturalmente, foram acompanhadas simultaneamente em colméias de observação, visando analisar o comportamento de acasalamento dos dois grupos, enquanto que as rainhas inseminadas instrumentalmente, de ambos os pesos, foram fecundadas com 6 l de sêmen. Após as fecundações, todas as rainhas foram estabelecidas em caixas tipo núcleo, montadas a partir biomassa semelhante. Vinte dias após a introdução das rainhas nos núcleos estas colônias foram avaliadas quinzenalmente, por meio de mapeamento dos quadros a fim de estimar a porcentagem de ovos, cria aberta, cria fechada e pólen estocado, assim como foram realizados teste de viabilidade de cria. O acompanhamento do tempo de expansão populacional foi estimado através do período necessário para transferência das colônias das caixas tipo núcleo (com três quadros e alimentador) para caixas tipo ninho (com nove quadros e alimentador). Na análise dos dados relacionados ao comportamento de acasalamento observouse que as rainhas leves realizaram maior quantidade de vôos nupciais que as rainhas pesadas, sendo que 56% das nove rainhas leves realizaram mais de um vôo nupcial, enquanto que apenas 33% das nove rainhas pesadas realizaram mais de um vôo nupcial, embora esta diferença não tenha sido estatisticamente significante. Constatamos ainda diferença de um dia na idade de realização de vôos de acasalamento, sendo que as rainhas leves saíram um dia antes, com idade média de 6,11 ± 1,53 dias, enquanto que para as rainhas pesadas essa média foi de 7, 09 ± 4,59 dias. Esta diferença também foi observada na idade em que as rainhas iniciaram a ovoposição, que foi de 7,77 ± 1,86 dias para rainhas leves e 9,88 ± 3,02 dias para rainhas pesadas. Com relação à duração dos vôos nupciais e horário em que foram realizados, ambos ii os grupos tiveram resultados muito semelhantes. As comparações das médias dos dados gerados pelos mapeamentos realizados em colônias com rainhas fecundadas naturalmente e inseminada instrumentalmente, mostraram diferenças estatisticamente significantes relacionada área de postura de ovos (P = 0,117) e área de cria fechada (P = 0,003), onde as colônias descendentes de rainhas pesadas apresentaram desempenho superior em relação as colônias com rainhas leves. Este melhor desempenho é representado ainda pela maior taxa de viabilidade de cria das colônias com rainhas pesadas, dado estatisticamente significante. Atrelado a este fato, as colônias com rainhas pesadas mostraram-se ainda mais rápidas na expansão populacional, que colônias com rainhas leves, onde foi verificada uma diferença média de 24 dias a menos, pelas colônias descendentes de rainhas pesadas, para a transferência para caixas maiores tipo ninho. Quando comparamos as rainhas fecundadas naturalmente e inseminadas instrumentalmente, foi observada diferença média de um dia na idade em que iniciaram a ovoposição, sendo que as rainhas fecundadas naturalmente iniciaram com 9,31 ± 2,49 dias e as rainhas inseminadas instrumentalmente com 10,43 ± 0,51 dias. Observou-se também diferença estatisticamente significante apenas para a variável área de postura (P = 0,004), onde as colônias com rainhas fecundadas naturalmente apresentaram médias superiores, muito embora esta diferença não tenha afetado o desenvolvimento geral das colônias com rainhas inseminadas instrumentalmente, o que foi representado pelo tempo de expansão populacional, igual entre as colônias com rainhas de ambos os tipos de fecundação. Conclui-se que a utilização da técnica de inseminação instrumental de abelhas é uma metodologia viável para a aplicação em programas de melhoramento apícola, uma vez que não encontramos diferenças no desenvolvimento entre colônias descendentes de rainhas inseminadas instrumentalmente e descendentes de rainhas fecundadas naturalmente. Tomando-se por base os principais resultados obtidos no presente trabalho concluímos que a utilização da característica fenotípica peso da rainha acima de 200mg como uma característica importante a ser adotada em programas de seleção e melhoramento de abelhas / The queen is the progenitor of all the honey bee colony members. The quality of a queen is determined mainly by factors closely related to her reproductive structure, including weight, egg-laying activity and longevity. We evaluated the influence of adult eclosion weight on the reproductive behavior of naturally mated and instrumentally inseminated Africanized queens, and we monitored the development and productivity of colonies headed by these queens. Twelve colonies of Africanized honey bees were divided into two groups: six colonies with naturally mated queens and six with instrumentally inseminated queens; there were three light queens (<180 mg) and three heavy queens (> 200 mg) in each mating type group; queen weight was recorded immediately after the virgin queens emerged. The virgin queens in the naturally mated queens group were introduced into observation hives, to compare the mating behavior of the light and heavy queens. The other six queens were artificially inseminated with 6 l semen. After the inseminations, all of the artificially inseminated queens were introduced into four standard Langstroth frame nuclei, which were established with similar numbers of bees and brood area. Beginning 20 days after the introduction of these queens, the colonies were evaluated twice per month, by mapping combs to estimate the areas containing eggs, open and closed brood and stored pollen; the viability of the brood was also investigated. We observed the time it took to outgrow the nucleus boxes (three combs plus an internal frame-size feeder); the colonies were then transferred to 10 frame hives (with nine combs and a feeder). We observed that the light queens made more nuptial flights than heavy queens; five of the nine light queens made more than one nuptial flight, whereas only three of the nine heavy queens took more than a nuptial flight, though this difference was not significant. We also observed a one day difference in the age of queen when she made her mating flights; the light queens went on their first mating flights at a mean age of 6.11 ± 1.53 days, while for the heavy queens the mean was 7.09 ± 4.59 days. A similar tendency was observed in the age at which the queens started oviposition, which was 7.77 ± 1.86 days for light queens and 9.88 ± 3.02 days for heavy queens. The two types of queens had similar duration and time of day of nuptial flights. Heavy queens (both artificially and naturally inseminated) produced significantly more eggs (P = 0.117) and more sealed brood (P = 0.003) than did light queens. Brood viability was significantly greater in the colonies headed by heavy queens. Colony expansion was also faster in colonies with heavy queens. It took an average of 24 days less for the heavy-queen colonies to expand to a point that they needed to be transferred from the four-frame nucleus hives to the 10-frame standard hives. Oviposition by the naturally mated queens began earlier (9.31 ± 2.49 days) than by instrumentally inseminated queens (10.43 ± 0.51 days). Naturally mated queens laid significantly more eggs (P = 0.004), although this difference did not affect the rate of colony population expansion. We concluded that the use of instrumental iv insemination of honey bees is a viable methodology for use in bee breeding programs, since we found no differences in development between colonies with artificially versus naturally inseminated queens. We also concluded that queen weight above 200 mg is a useful characteristic to select for in Africanized honey bees.

Abelhas africanizadas

Fecundação natural

Inseminação instrumenta

Peso de rainhas

Africanized honey bee

instrumental insemination

natural mating

selection and breeding of bees

weight of quewens

Effets des stresseurs environnementaux sur la reproduction de l’abeille domestique (Apis mellifera L.) : action par une exposition des mâles / Effects of environmental stressors on male fertility in relation to the fecundity of honeybee queen (Apis mellifera.L)

Kairo, Guillaume

16 December 2016

Effets de stresseurs environnementaux sur la fertilite des males chez l'abeille domestique apis mellifera l. en relation avec la fécondite de la reine. Dans un contexte de déclin des colonies d’abeilles mellifères, un appauvrissement de la qualité des reines, se traduisant par une production anormale de couvain et des renouvellements prématurés de reines, a été rapporté par les apiculteurs du monde entier. Partant de ce constat, l’hypothèse avait été émise qu’une atteinte de la fertilité des mâles (faux-bourdons), exposés aux stresseurs environnementaux, pouvait être responsable des défaillances observées chez les reines au sein des ruchers. Dans le but de vérifier cette hypothèse, des approches novatrices pour élever des faux-bourdons, en conditions contrôlées de laboratoire et en conditions semi-contrôlées, ont été développées. Les approches mises en oeuvre ont permis de démontrer que l’insecticide systémique Fipronil, la microsporidie pathogène Nosema ceranae et leur association avaient la capacité de générer des perturbations physiologiques de différents types chez les faux-bourdons incluant des altérations de la qualité des semences. De plus, les effets obtenus après les expositions à ces stresseurs ont montré que la fonction de reproduction de ces individus était particulièrement sensible à l’ensemble des stresseurs étudiés. L’insémination instrumentale de jeunes reines, avec des semences de mâles exposés au Fipronil, a mis en lumière une baisse de leur potentiel reproducteur résultant d’une diminution non seulement du nombre mais aussi de la viabilité des spermatozoïdes stockés dans la spermathèque. Considérant que le contenu de la spermathèque conditionne leur capacité à pondre et leur longévité, ces reines sont donc plus disposées à présenter des signes de défaillance pouvant se répercuter sur le fonctionnement général de leur colonie. Ainsi, les troubles de la reproduction induits par une baisse de la fertilité des mâles, exposés à une multitude de stresseurs environnementaux, pourraient en partie expliquer le déclin des colonies d’abeilles. De ce fait, une évaluation des effets reprotoxiques des substances auxquelles les mâles sont potentiellement exposés, pourrait être envisagée dans un cadre règlementaire à venir. Ainsi, les méthodes et les approches innovantes développées dans le cadre de ce travail pourraient représenter des bases pertinentes pour élaborer de nouveaux tests toxicologiques qui pourraient être utilisés dans la procédure d’enregistrement des pesticides. / In a context of honey bee decline, an impoverishment of queen quality, resulting in abnormal brood production and early queen renewal, has been observed worldwide. Hence, the assumption was made that fertility impairment of drones exposed to environmental stressors could explain the queen failure observed in apiaries. In order to test this assumption, original approaches to rear drones were developed in laboratory and semi-field conditions. These approaches enabled to show that the systemic insecticide Fipronil, the pathogen microsporidia Nosema ceranae and their combination disrupt drone physiology in different ways, including an impairment of the semen quality. In addition, results have highlighted the high sensitivity of the reproductive function of drone to all of these stress factors. The instrumental insemination of young queens with semen of drones exposed to Fipronil has shown a decrease in the reproductive potential of queens that resulted from a lower number and viability of spermatozoa stored in their spermatheca. Consequently, considering that the spermathecal content determines the egg-laying ability and the lifespan of queens, the risk of queen failure and colony dysfunction is higher. Thus, reproductive disorders, linked to a fertility decline of drones continuously exposed to numerous environmental stressors, could explain, at least in part, the phenomenon of honey bee decline. Thereby, an assessment of the reproductive toxicity of pollutants, including pesticides, to which drones are potentially exposed, should be considered in a future regulatory framework. In this way, the innovative methods and approaches developed in the frame of this work could represent pertinent bases to elaborate new toxicological tests that could be used in the registration procedure of pesticides.

Abeille domestique

Faux-bourdon

Reine

Élevage

Pesticides

Parasites

Synergie

Fertilité

Honey bee

Drone

Queen

Rearing

Pesticides

Parasites

Synergy

Fertility

595.799

Aspectos reprodutivos de rainhas africanizadas (Apis mellifera L.): influência do peso ao nascer no desempenho das colônias / Reproductive aspects of Africanized queens (Apis mellifera L.): influence of virgin queen weight at eclosion on colony performance

Souza, Daiana Almeida de

30 October 2009

A rainha é a progenitora de todos os integrantes da colônia de abelhas (Apis mellifera L.) através da qual são passadas as características hereditárias para seus descendentes, sendo de extrema importância nos programas de melhoramento genético apícola. A qualidade de uma rainha é determinada principalmente por fatores intimamente relacionados à sua estrutura reprodutiva, o que é refletido tanto no peso destas, como na atividade de postura e na sua longevidade. Por esse motivo, o objetivo deste trabalho foi avaliar a influência do peso ao nascer de rainhas de abelhas africanizadas sobre o os aspectos relacionados ao comportamento reprodutivo em rainhas fecundadas naturalmente e inseminadas instrumentalmente, bem como acompanhar o desenvolvimento e produtividade das colônias descendentes destas rainhas. Os experimentos foram realizados no Apiário Experimental do Departamento de Genética da Faculdade de Medicina de Ribeirão Preto USP, onde foram estabelecidas doze colônias de abelhas africanizadas divididas em quatro grupos: seis colônias com rainhas fecundadas naturalmente e seis inseminadas instrumentalmente, subdivididas em três colônias com rainhas leves (< 180 mg) e três com rainhas pesadas (> 200 mg), onde o peso foi registrado imediatamente após as rainhas emergirem. As rainhas leves e pesadas, fecundadas naturalmente, foram acompanhadas simultaneamente em colméias de observação, visando analisar o comportamento de acasalamento dos dois grupos, enquanto que as rainhas inseminadas instrumentalmente, de ambos os pesos, foram fecundadas com 6 l de sêmen. Após as fecundações, todas as rainhas foram estabelecidas em caixas tipo núcleo, montadas a partir biomassa semelhante. Vinte dias após a introdução das rainhas nos núcleos estas colônias foram avaliadas quinzenalmente, por meio de mapeamento dos quadros a fim de estimar a porcentagem de ovos, cria aberta, cria fechada e pólen estocado, assim como foram realizados teste de viabilidade de cria. O acompanhamento do tempo de expansão populacional foi estimado através do período necessário para transferência das colônias das caixas tipo núcleo (com três quadros e alimentador) para caixas tipo ninho (com nove quadros e alimentador). Na análise dos dados relacionados ao comportamento de acasalamento observouse que as rainhas leves realizaram maior quantidade de vôos nupciais que as rainhas pesadas, sendo que 56% das nove rainhas leves realizaram mais de um vôo nupcial, enquanto que apenas 33% das nove rainhas pesadas realizaram mais de um vôo nupcial, embora esta diferença não tenha sido estatisticamente significante. Constatamos ainda diferença de um dia na idade de realização de vôos de acasalamento, sendo que as rainhas leves saíram um dia antes, com idade média de 6,11 ± 1,53 dias, enquanto que para as rainhas pesadas essa média foi de 7, 09 ± 4,59 dias. Esta diferença também foi observada na idade em que as rainhas iniciaram a ovoposição, que foi de 7,77 ± 1,86 dias para rainhas leves e 9,88 ± 3,02 dias para rainhas pesadas. Com relação à duração dos vôos nupciais e horário em que foram realizados, ambos ii os grupos tiveram resultados muito semelhantes. As comparações das médias dos dados gerados pelos mapeamentos realizados em colônias com rainhas fecundadas naturalmente e inseminada instrumentalmente, mostraram diferenças estatisticamente significantes relacionada área de postura de ovos (P = 0,117) e área de cria fechada (P = 0,003), onde as colônias descendentes de rainhas pesadas apresentaram desempenho superior em relação as colônias com rainhas leves. Este melhor desempenho é representado ainda pela maior taxa de viabilidade de cria das colônias com rainhas pesadas, dado estatisticamente significante. Atrelado a este fato, as colônias com rainhas pesadas mostraram-se ainda mais rápidas na expansão populacional, que colônias com rainhas leves, onde foi verificada uma diferença média de 24 dias a menos, pelas colônias descendentes de rainhas pesadas, para a transferência para caixas maiores tipo ninho. Quando comparamos as rainhas fecundadas naturalmente e inseminadas instrumentalmente, foi observada diferença média de um dia na idade em que iniciaram a ovoposição, sendo que as rainhas fecundadas naturalmente iniciaram com 9,31 ± 2,49 dias e as rainhas inseminadas instrumentalmente com 10,43 ± 0,51 dias. Observou-se também diferença estatisticamente significante apenas para a variável área de postura (P = 0,004), onde as colônias com rainhas fecundadas naturalmente apresentaram médias superiores, muito embora esta diferença não tenha afetado o desenvolvimento geral das colônias com rainhas inseminadas instrumentalmente, o que foi representado pelo tempo de expansão populacional, igual entre as colônias com rainhas de ambos os tipos de fecundação. Conclui-se que a utilização da técnica de inseminação instrumental de abelhas é uma metodologia viável para a aplicação em programas de melhoramento apícola, uma vez que não encontramos diferenças no desenvolvimento entre colônias descendentes de rainhas inseminadas instrumentalmente e descendentes de rainhas fecundadas naturalmente. Tomando-se por base os principais resultados obtidos no presente trabalho concluímos que a utilização da característica fenotípica peso da rainha acima de 200mg como uma característica importante a ser adotada em programas de seleção e melhoramento de abelhas / The queen is the progenitor of all the honey bee colony members. The quality of a queen is determined mainly by factors closely related to her reproductive structure, including weight, egg-laying activity and longevity. We evaluated the influence of adult eclosion weight on the reproductive behavior of naturally mated and instrumentally inseminated Africanized queens, and we monitored the development and productivity of colonies headed by these queens. Twelve colonies of Africanized honey bees were divided into two groups: six colonies with naturally mated queens and six with instrumentally inseminated queens; there were three light queens (<180 mg) and three heavy queens (> 200 mg) in each mating type group; queen weight was recorded immediately after the virgin queens emerged. The virgin queens in the naturally mated queens group were introduced into observation hives, to compare the mating behavior of the light and heavy queens. The other six queens were artificially inseminated with 6 l semen. After the inseminations, all of the artificially inseminated queens were introduced into four standard Langstroth frame nuclei, which were established with similar numbers of bees and brood area. Beginning 20 days after the introduction of these queens, the colonies were evaluated twice per month, by mapping combs to estimate the areas containing eggs, open and closed brood and stored pollen; the viability of the brood was also investigated. We observed the time it took to outgrow the nucleus boxes (three combs plus an internal frame-size feeder); the colonies were then transferred to 10 frame hives (with nine combs and a feeder). We observed that the light queens made more nuptial flights than heavy queens; five of the nine light queens made more than one nuptial flight, whereas only three of the nine heavy queens took more than a nuptial flight, though this difference was not significant. We also observed a one day difference in the age of queen when she made her mating flights; the light queens went on their first mating flights at a mean age of 6.11 ± 1.53 days, while for the heavy queens the mean was 7.09 ± 4.59 days. A similar tendency was observed in the age at which the queens started oviposition, which was 7.77 ± 1.86 days for light queens and 9.88 ± 3.02 days for heavy queens. The two types of queens had similar duration and time of day of nuptial flights. Heavy queens (both artificially and naturally inseminated) produced significantly more eggs (P = 0.117) and more sealed brood (P = 0.003) than did light queens. Brood viability was significantly greater in the colonies headed by heavy queens. Colony expansion was also faster in colonies with heavy queens. It took an average of 24 days less for the heavy-queen colonies to expand to a point that they needed to be transferred from the four-frame nucleus hives to the 10-frame standard hives. Oviposition by the naturally mated queens began earlier (9.31 ± 2.49 days) than by instrumentally inseminated queens (10.43 ± 0.51 days). Naturally mated queens laid significantly more eggs (P = 0.004), although this difference did not affect the rate of colony population expansion. We concluded that the use of instrumental iv insemination of honey bees is a viable methodology for use in bee breeding programs, since we found no differences in development between colonies with artificially versus naturally inseminated queens. We also concluded that queen weight above 200 mg is a useful characteristic to select for in Africanized honey bees.

Abelhas africanizadas

Africanized honey bee

Fecundação natural

Inseminação instrumenta

instrumental insemination

natural mating

Peso de rainhas

selection and breeding of bees

weight of quewens

Molekularne osnove odgovora medonosne pčele (Apis mellifera, L.) nastres izazvan jonima teških metala / Molecular basis of honey bee (Apis mellifera, L.) response to heavy metal stress

Nikolić Tatjana

07 July 2017

<p>Istraživanja&nbsp; u&nbsp; ovoj&nbsp; doktorskoj&nbsp; disertaciji&nbsp; su&nbsp; bila&nbsp; usmerena&nbsp; ka&nbsp; razumevanju<br />molekularnih&nbsp; mehanizama&nbsp; koji&nbsp; se&nbsp; aktiviraju&nbsp; kod medonosne pčele (<em>Apis mellifera, L</em>.)&nbsp; kao&nbsp; odgovor&nbsp; na&nbsp; stres&nbsp; izazvan&nbsp; jonima&nbsp; te&scaron;kih&nbsp; metala,&nbsp; &scaron;to&nbsp; zbog važnosti medonosne pčele kao opra&scaron;ivača&nbsp; ima&nbsp; poseban&nbsp; značaj&nbsp; i&nbsp; očekuje&nbsp; se da će doprineti očuvanju ove vrste. Istraživanja su bila podeljena u tri faze. U prvoj fazi za analize&nbsp; su&nbsp; kori&scaron;ćene populacije pčela sa lokaliteta sa različitim&nbsp; antropolo&scaron;kim uticajem&nbsp; i izmerena je koncentracija metala u pčelama, pergi i medu, kao i relativna genska ekspresija i aktivnost antioksidativnih enzima. U drugoj fazi&nbsp; pčele&nbsp; su&nbsp; u kontrolisanim laboratorijskim uslovima bile&nbsp; izložene subletalnim dozama jona te&scaron;kih&nbsp;metala&nbsp; (bakra,&nbsp; kadmijuma i olova), nakon čega&nbsp; su&nbsp; izmereni parametri koji ukazuju na redoks status i nivo oksidativnog stresa. Rezultati prve dve faze su pokazali&nbsp; da se ekspresija gena i aktivnost antioksidativnih enzima (superoksid dismutaze, katalaze i glutation&nbsp;<em> S</em>-transferaze)&nbsp; razlikuje u zavisnosti od stepena urbanizacije i industrijalizacije, dok je izlaganje bakru i kadmijumu u kontrolisanim uslovima u trajanju od 48 h dovelo samo do promene&nbsp; u ekspresiji gena&nbsp; i u većini slučajeva ekspresija je bila dozno zavisna od koncentracije metala.&nbsp; Olovo je uzrokovalo promene u koncentraciji glutationa i sulfhidrilnih grupa proteina, &scaron;to govori o tome da helacija olova može da bude prvi mehanizam odbrane od toksičnih efekata ovog metala.&nbsp; U trećoj fazi bioinformatičkom analizom je&nbsp; pronađen metalotionein medonosne pčele i ispitana je njegova funkcija u za&scaron;titi od toksičnih efekata jona te&scaron;kih metala.&nbsp; Utvrđeno je da pčele poseduju jedan&nbsp;gen za metalotionein, koji kodira mali protein sa regionima bogatim cisteinom za koje mogu da se vežu joni metala. Indukcija genske ekspresije metalotioneina medonosne pčele nakon izlaganja metalima i povećana tolerancija bakterija koje ekspresuju rekombinantni metalotionein na metale je potvrdila da metalotionein medonosne pčele ima ulogu u homeostazi bioelemenata i detoksikaciji potencijalno toksičnih metala.&nbsp; Dobijeni rezultati predstavljaju osnovu za buduća istraživanja uticaja&nbsp; jona te&scaron;kih metala na medonosnu pčelu i predstavljaju važan korak u sveobuhvatnoj proceni uticaja stresogenih faktora iz životne sredine na pčele.</p> / <p>Research in this doctoral thesis&nbsp; focuses&nbsp; on&nbsp; understanding the molecular mechanisms activated in the honey bee (Apis mellifera L.) as a response to stress caused by exposure to heavy metal ions. Because of the importance of honeybees as pollinators, this has special significance and is expected to contribute to the&nbsp; conservation of this species. Studies have been divided into three phases. In the first phase, bee populations from&nbsp; three localities under&nbsp; different anthropological influence were used and the concentrations of metals in the bees, honey and bee bread&nbsp; (perga), as well as relative gene expression and activity of antioxidant enzymes were measured. In the second phase, bees&nbsp; were exposed to sublethal doses of heavy metal ions (copper, cadmium and lead) under controlled laboratory conditions, after which parameters that indicate redox status and oxidative stress were determined. The results of the first two phases showed that&nbsp; gene expression and activity of antioxidant enzymes (superoxide dismutase, catalase, and glutathione&nbsp; S-transferase) varies depending on the degree of urbanization and industrialization, while exposure to copper and cadmium in controlled conditions for 48 h&nbsp; resulted only in a change in gene expression in the majority of cases, and the expression was dose-dependent on the concentration of the metal. Lead has caused changes in the concentration of glutathione and sulfhydryl groups of proteins, which indicates&nbsp; that chelation may be the first defense mechanism against&nbsp; the&nbsp; toxic effects of this metal. In the third stage, honeybee metallothionein was identified by bioinformatic analysis and its function in&nbsp; protection against the toxic effects of heavy metal ions was examined. It has been found that&nbsp; honeybees have one metallothionein gene, which encodes a small protein with cysteine-rich regions that may bind metal ions. The induction of metallothionein gene expression after exposure of honeybees to metals and increased tolerance of bacteria that express recombinant metallothionein confirmed that this protein plays a role in the homeostasis of bioelements and detoxification of potentially toxic metals. These results form the basis for future research on the impact of&nbsp; heavy metal pollution on the honey bee and represent an important step in the comprehensive assessment of the impact of stress factors from the environment on honey bees.</p>

Complementary Floral Resources for Honey Bees in a Midwestern Agroecosystem

McMinn-Sauder, Harper Bronwen Gilpin

January 2022

No description available.

Entomology