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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Monitoring a regulace parazitického roztoče Varroa destructor v chovech včely medonosné (Apis mellifera

KLEČKOVÁ, Romana January 2018 (has links)
The aim of this thesis was to monitor the Varroa destructor parasitic mite in correlation with the microclimatic conditions of the Carniolan honey bee (Apis mellifera carnica). The rate of infestation of selected bee colonies at different locations was assessed in three-day intervals. At the same time, the microclimate in the hives was observed. The monitoring took place from April to mid-October. Also, the effect of the microclimate on the mite fall count was evaluated. During the whole evaluation, the highest average daily fall count was 2.08 mites per day at honeybee colonies at location 1 and 2; 1.97 at location 3. There was no statistically significant difference (P > 0.05) between those locations. The comparison of fall count between the moths of observation revealed, that highest fall count was during September (3.03 mites per day) and the lowest fall count was in April (0.41 mites per day; P 0.001). The rates of dependence (assessed by correlation analysis) between the fall count and microclimatic conditions in individual colonies varied. The strongest correlation between hive temperature and fall count (r = -0.45, P 0.05) was found at location 2. A low correlation was found at location 1 (r = -0.17, P 0.05). On the other hand, location 3 showed an insignificant and inconclusive correlation between hive temperature and fall count (r = 0.003, P > 0.05). The aggregate data (without distinction of location or month) showed significant (P 0.05) correlation between fall count and hive temperature (r = -0.14). The correlation between relative air humidity in hive and the fall count was statistically insignificant and low (r = -0.02, P > 0.05). The results revealed that the degree of correlation between the hive microclimate and the development (fall count respectively) of the Varroa destructor population is different for each colony. The monitoring of the dead Varroa destructor females is an appropriate complementary tool to diagnose a colony's infestation. The statistical analysis confirmed that with the decreasing summer and end-of-summer temperatures the Varroa destructor population grows and it is necessary to take measures to suppress its growth due to the development of the honey bee long-term winter generation.
22

Monitoring intenzity varroázy a varroatolerance včely medonosné (\kur{Apis mellifera}) na Příbramsku / Varroamonitoring and varroatolerance of Honey bee (\kur{Apis mellifera}) in environs of the city Příbram

BOUČKOVÁ, Šárka January 2011 (has links)
This thesis is focused on the research of the varroatosis disease. In the theoretical part of the thesis I describe the parasitic mite Varroa destructor and its way of infestation. The goal was to document any knowledge gathered on the subject so far and the possibilities of bee vaccination. The practical part of this work included Varroa destructor occurrence monitoring within single hives. The monitoring was carried out in three localities. Localities was called Nedrahovice, Rybník and Kvašťov. The goal was to identify singular hive tolerance to the mite in the various localities based on the strength of the parasitic mite attack. While the hives of the Rybník locality were found to be the most tolerant, the hives of the Nedrahovice locality were found to be the least tolerant of all.
23

Évaluation du fluvalinate, du coumapos, du thymol et des acides oxalique et formique dans la lutte contre la varroase de l'abeille au Québec

Saintonge, David January 2005 (has links)
Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.
24

New options for Integrated Pest Management of Varroa destructor (Acari: Varroidae) in colonies of Apis mellifera (Hymenoptera: Apidae) under Canadian Prairie conditions

Vandervalk, Lynae P Unknown Date
No description available.
25

Relations entre le parasite Varroa destructor et son hôte l'abeille domestique : étude des facteurs impactant le déroulement du cycle de développement du parasite / Interactions between the ectoparasite Varroa destructor and its host the European honey bee Apis mellifera : study of the factors impavting the parasite developmental cycle

Piou, Vincent 20 September 2016 (has links)
Varroa destructor, principal ectoparasite de l'abeille, est l'un des responsables majeurs des phénomènes de perte de colonies observés partout dans le monde. Depuis son changement d'hôte et l'infestation de colonies d'Apis mellifera dans les années 1970, des traitements essentiellement chimiques ont été proposés pour limiter l'infestation. Pourtant ces dernières années, ces traitements ont fait l'objet d'études critiques à la fois à cause de la résistance émergente du parasite aux différents acaricides et du fait de la sensibilité des abeilles à l'accumulation de produits chimiques dans les différentes matrices de la ruche. De nouveaux traitements alternatifs contre la varroose sont donc nécessaires et très attendus afin d'enrayer rapidement les effets délétères du parasitisme acarien. Cependant, la recherche de ces nouvelles cibles thérapeutiques est limitée par l'absence d'un système d'élevage synchronisé de l'hôte et de son parasite en laboratoire. L'objectif technique de ce travail de thèse était donc de pallier à ce manque en développant une méthode pour coupler l'élevage de larves d'abeilles in vitro avec le transfert à la fois de la phase phorétique et de la phase de reproduction du parasite (respectivement sur les adultes et sur les pupes) dans des conditions de laboratoire. Le système mis au point lors de ces travaux de thèse a permis une étude plus approfondie de l'impact de facteurs variables chez l'hôte sur plusieurs points clés du cycle parasitaire. Les effets de la nutrition larvaire chez l'abeille, la longueur de la phase phorétique, le type d'abeilles adultes sur lequel Varroa reste au cours de cette phase ou encore l'âge des stades larvaires ont ainsi été étudiés. L'analyse des impacts potentiels de ces facteurs a porté principalement sur certains paramètres de la reproduction, du comportement et de la virulence de V. destructor. Les résultats obtenus ont montré que la nutrition larvaire, ou plus précisément la supplémentation de la nourriture larvaire avec des pollens monofloraux et polyfloraux, a un faible impact sur la reproduction du parasite, mais présente une tendance à influencer le poids de l'abeille ainsi qu'à potentiellement augmenter la tolérance de l'abeille à certains des symptômes de la varroose, tels que la perte de poids. La reproduction du parasite n'a pas non plus été affectée par les variations induites dans la phase phorétique. Ni la fertilité du parasite, ni l'expression des deux gènes de la vitellogénine n'ont fluctué lorsque la durée ou l'âge des adultes parasités pendant la phase phorétique variaient. En revanche, la durée du séjour sur les abeilles adultes avant la reproduction est corrélée positivement à la charge virale chez le parasite, ce qui explique pourquoi les varroas ayant vécu une longue phase phorétique induisent plus fréquemment des malformations. Enfin, l'âge des stades juvéniles des abeilles sont tous attrayants pour Varroa destructor, bien que certaines préférences aient été mises en évidence dans notre étude. Si l'attraction pour le 5ème stade larvaire et les abeilles nouvellement écloses est déjà connu, l'attractivité des nymphes aux yeux blancs est un phénomène nouveau qui pourrait être d'importance majeure pour la compréhension du cycle parasitaire. Des analyses approfondies pour isoler les signaux responsables de cette attraction restent nécessaires. En conclusion, les travaux de cette thèse offrent une méthode d'élevage innovante et ouvrent ainsi, pour l'ensemble de la communauté apicole, de nouvelles avenues de recherche passionnantes afin de développer nos connaissances à la fois sur l'abeille, sur le parasite et sur les virus qu'il transporte. Ce travail pourrait permettre d'identifier de nouvelles cibles thérapeutiques pour la conception de traitements alternatifs ciblant spécifiquement le parasite sans nuire à l'abeille. / Varroa destructor is the principal acarian parasite of the honey bee, involved in the phenomenon of colony loss which has been reported worldwide. Since its host shift from Apis cerana to Apis mellifera in the 1970's, chemical treatments have been set up to limit infestation. For many years however, these treatments have been the subject of critical studies both because of the resistance of the parasite to acaricides and of the sensitivity of bees to chemical accumulation in hive matrices. New alternative ways of varroatosis treatment are therefore urgently needed to limit the deleterious effects of the acarian parasitism. However, the search for these alternative therapeutic targets is limited by the lack of a laboratory system to transfer and synchronize the cycles of V. destructor and the honey bee under controlled conditions. The methodological objective of this Phd work was to overcome this issue by developing a method to couple the rearing of honey bee larvae in vitro to the transfer of both the parasite phoretic and reproductive phases (respectively on adults and on pupae) in laboratory conditions. Our system allowed further investigation regarding the impact of variable parameters in the host on several key points of the parasite cycle. The effects of several factors -such as the bee larval nutrition, the length of the phoretic phase, the type of adult bees on which Varroa stays during this phase or the age of pupal development- were studied. The potential impact in the parasite cycle focused mainly on reproductive, behavioural and virulence related parameters. The results obtained from our experiments showed that larval nutrition, tested via the supplementation of the larval food with pollen, had no impact on the reproduction of the parasite but a tendency to influence the weight of the bee, potentially increasing the bee tolerance to some of the symptoms of varroatosis, such as the weight loss. The reproduction of Varroa was not impacted by variations induced in the phoretic phase either. Neither the fertility of the parasite nor the expression of its two vitellogenin genes were impacted by the duration or the age of adults parasitized during the phoretic phase. On the other hand, the length of the stay on adult bees before reproduction positively correlates with the viral loads in the parasite, which explains why varroas experiencing a long phoretic phase induce malformation more frequently in parasitized pupae. Finally, the age of juvenile stages of the honey bees are all attractive to Varroa destructor, although some preferences have been highlighted in our study. If the attraction for 5th instar larvae and newly emerged bees have already been described, the attractions towards the white eyed pupae is a new phenomenon that could be of major importance in the understanding of the parasite cycle. Further analysis to isolate and shed light on the attraction signals involved in the process is needed. Altogether, this thesis has supplied, for the whole scientific beekeeping community, new exciting research avenues and methodologies to develop our knowledge about the bee, the parasite and the viruses it carries. It might allow us, in the future, to design alternative treatment specifically targeting the parasite without injuring the honey bee.
26

Výskyt virových onemocnění včel v souvislosti s úrovní zamoření roztočem Varroa destructor v oblasti Prachaticka / Prevalence of honeybee viruses in connection with coinfection by mite Varroa destructor in region Prachaticko

BLÁHOVÁ, Jana January 2017 (has links)
The aim of the thesis was to evaluate the influence of mite Varroa destructor on the health of honeybees and the occurrence of viral diseases of bees. The presence of Nosema was also explored. The occurrence of deformed wing virus and acute bee paralysis virus was detected by RT-PCR method. Coprological examination proved the incidence of spore Nosema spp.
27

Comportamento higiênico e identificação de patógenos em colmeias de apis mellifera l. Africanizadas no Sertão Paraibano / Hygienic behavior and identification of pathogens in hives of apis mellifera l. Africanized in the Sertão Paraibano

OLINTO, Francisco Ariclenes. 15 May 2018 (has links)
Submitted by Élida Maeli Fernandes Quirino (maely_sax@hotmail.com) on 2018-05-15T13:05:55Z No. of bitstreams: 1 FRNACISCO ARICLENES OLINTO - DISSERTAÇÃO PPGSA PROFISSIONAL 2014..pdf: 1640106 bytes, checksum: b19b02a5c2c2ea22def9e997924518db (MD5) / Made available in DSpace on 2018-05-15T13:05:55Z (GMT). No. of bitstreams: 1 FRNACISCO ARICLENES OLINTO - DISSERTAÇÃO PPGSA PROFISSIONAL 2014..pdf: 1640106 bytes, checksum: b19b02a5c2c2ea22def9e997924518db (MD5) Previous issue date: 2014-12-16 / A apicultura é uma das poucas atividades agropecuárias que atende aos três requisitos da sustentabilidade: o econômico, o social e o ecológico. Sendo assim, fornece renda para o apicultor, ocupa mão de obra familiar ou contratada e contribui para a preservação da flora nativa. A abelha é importante para a economia mundial como polinizadora, aumentando a produção de frutos e sementes, e como fornecedora de mel, cera, geleia real, própolis, pólen e veneno (apitoxina). Esses produtos são muito procurados para a matéria-prima das indústrias farmacêutica, alimentícia e cosmética e para consumo em forma natural. A sanidade pode afetar o desenvolvimento da apicultura, pois a Apis mellifera como qualquer outro organismo vivo, é susceptível a doenças causadas por bactérias, vírus, fungos e outros parasitas e as desordens metabólicas, nutricionais e hormonais, além de intoxicações diversas. Assim, em virtude da necessidade de estudos a respeito da sanidade apícola, objetiva-se estudar o comportamento higiênico e a identificação da varroatose e nosemose em colônias de abelhas Apis mellifera em apiários localizados no Sertão do Estado da Paraíba. A pesquisa foi realizada no período de março, abril e maio de 2014, em cinco apiários localizados nos municípios de Condado, Pombal, Jericó, São Bentinho e São Domingos, ambos situados na Mesorregião do Sertão do Estado da Paraíba, com um total de 25 colmeias avaliadas. O teste de comportamento higiênico foi realizado com base no método de perfuração das células de crias. Para análise da infestação por ácaro Varroa destructor, as abelhas adultas foram coletadas e acondicionadas em frascos de vidro contendo álcool a 70%, após 24 horas foi realizada a contagem dos ácaros. Para a identificação de Nosema spp. foi utilizado o método de nível de infecção da colônia, sendo selecionadas dez abelhas adultas para retirada do aparelho intestinal e posterior leitura em microscópio óptico. O percentual de comportamento higiênico foi semelhante em ambos os apiários, principalmente em Condado (93,96%), Pombal (94,30%), Jericó (87,63%) e São Domingos (95,20%), ocorrendo apenas uma ligeira diferença no apiário de São Bentinho com uma média de 76,31%. No apiário de Condado foram encontrados 59 ácaros Varroa destructor, nas colmeias do apiário de Pombal obteve-se apenas seis ácaros, em Jericó foram encontrados 19 ácaros, no apiário de São Bentinho, foi observado o maior número de ácaros entre os apiários, 62 varroas no total e no apiário de São Domingos foram observados 48 ácaros. A frequência de Nosema spp. em colmeias manejadas na região do estudo foi de 36% de um total de 25 enxames avaliados. O apiário localizado no município de Pombal obteve os melhores resultados, apresentando índice elevado de comportamento higiênico e valores baixos para varroatose e nosemose. A africanização das abelhas e as altas temperaturas do Sertão Paraibano tendem a possibilitar melhor resistência das colmeias a enfermidades. / Beekeeping is one of the few agricultural activities that meets the three requirements of sustainability: economic, social and ecological. Therefore, provides income for the beekeeper, occupies family labor or hired and contributes to the preservation of native flora. The bee is important for the world economy as a pollinator, increasing the production of fruits and seeds, and as a supplier of honey, beeswax, royal jelly, propolis, pollen and venom (bee venom). These products are in high demand for raw materials in the pharmaceutical, food and cosmetics industries and for consumption in natural form industries. Sanity may affect the development of beekeeping because Apis mellifera like any other living organism is susceptible to diseases caused by bacteria, viruses, fungi and other parasites and metabolic, nutritional and hormonal disorders, and several poisoning. Thus, because of the need for studies concerning the apiculture health, this study focuses on hygienic behavior and the identification of varroatose and nosemosis in Apis mellifera honeybee colonies in apiaries located in the backlands of the state of Paraíba. The survey was conducted from March, April and May 2014, in five apiaries located in the cities of Condado, Pombal, Jericó, São Bentinho and São Domingos, both located in the Greater Region of the Backlands of the State of Paraíba, with a total of 25 evaluated hives. The hygienic behavior test was conducted based on the method of drilling the brood. For analysis of the mite Varroa destructor infestation, the adult bees were collected and placed in glass vials containing 70% alcohol, after 24 hours was performed to count the mites. For the identification of Nosema spp. we used the colony of infection level method, selecting ten adult bees to remove the intestinal and later reading device in an optical microscope. The hygienic behavior percentage was similar in both apiaries, especially in Condado (93.96%), Pombal (94.30%), Jericó (87.63%) and São Domingos (95.20%); there was one slight difference in the apiary of São Bentinho with an average of 76.31%. In Condado apiary found 59 mites Varroa destructor in the apiary hives of Pombal was obtained only six mites Jericó found 19 mites in the apiary of São Bentinho, it was observed the largest number of mites between apiaries, 62 varroas in total and in the apiary of São Domingos were observed 48 mites. The frequency of Nosema spp. In the hives managed in the region of the study was 36% of a total of 25 clusters evaluated. Apiary located in the city of Pombal obtained the best results, with high level of hygienic behavior and low values for varroatose and nosemosis. The Africanization of bees and the high temperatures of the Paraiba’s hinterlands tend to provide improved resistance to diseases of the hives.
28

Parazitická bakterie Arsenophonus u včely medonosné a jejího parazita Varroa destructor / Parasitic bacteria Arsenophonus in honeybee and its parasite Varroa destructor

Hejdánková, Sylvie January 2016 (has links)
Arsenophonus is vertically and horizontally transmitted parasitic bacteria and strengthens its transfer through phenomenon called son killing. Arsenophonus has been detected in the arthropod hosts, insects, ticks and the garden spider Araneus diadematus. The aim of this study is detection parasitic bacteria Arsenophonus in honeybees and its parasite Varroa destructor. We find out that bacteria Arsenophonus is present in both hosts and it is identified as Arsenophonus nasoniae. Detection of bacteria Arsenophonus is discovered for the first time in Varroa destructor mites. We proved that the frequency of bacteria Arsenophonus in mites Varroa destructor is significantly higher than in honeybees. This study shows that the mite Varroa destructor could act as a vector for transmission parasitic bacteria Arsenophonus among honeybees. Results of this study could lead to the future application of Arsenophonus as a biological control for the mite Varroa destructor.
29

The impact of the natural honeycomb management on Apis mellifera colonies

Freda, Fabrizio 31 October 2023 (has links)
The mite ectoparasite Varroa destructor, poses a serious threat for the survival of the Apis mellifera colonies. The intensive use of acaricidal products is one of the most common methods for defending bees from Varroa that can cause the contamination of the wax foundation used in beekeeping. The natural honeycomb management could provide a solution for this problem, because it involves the use of frames without wax foundation which allows the bees to build a complete comb ex novo. On the other hand, colonies which are free to build cells of their choice, usually build a number of drone cells higher than colonies managed with the wax foundation. This could potentially lead to several negative consequences because the V. destructor reproductive success is greater on drone broods than on worker broods. The aim of the present study was to examine the colony development, to evaluate the honey production and to monitor the growth of V. destructor infestations and associated virus infections in Apis mellifera colonies managed by using natural honeycombs compared with the conventional management. Several colony parameters were measured in spring and summer. The strength of the colony was used to estimate the worker and drone populations. In order to measure the V. destructor infestations were used several methods, such as the natural mite fall, the powdered sugar roll, the soapy water and the brood cell uncapping. Molecular analysis was performed in order to measure the viral load of five Apis mellifera viruses. The honey produced was measured by collecting the honey stored in the supers, which are boxes placed on a beehive for bees to store. The results showed that the higher presence of drone brood in the colonies managed using the natural honeycomb did not negatively affect the colony development nor the mite V. destructor population compared to control colonies. The molecular analysis showed that the DWV was the most common virus found in bee samples, and its viral load was more influenced from the mite infestation rate than from the treatment. The analysis carried out in this study showed that the natural honeycomb management can represent a valid alternative to the wax foundation. This kind of colony management thus appears to contradict our primary hypothesis which was that letting the bees build their own honeycomb would have led to a significant increase in the V. destructor infestation. Productivity data did not provide reliable results about the difference between the natural honeycomb and the conventional colony management due to climatic adversities. Further studies will be performed to better investigate this aspect. Data about the natural mite fall and the estimation of the mite population in the phoretic/reproductive phases provided a useful starting point for further studies on the correct timing to carry out acaricide treatments both in conventional and natural honeycomb managed colonies.
30

Prevalence of viruses in honey bee (Apis mellifera) pupae triggers in Varroa Sensitive Hygiene behavior in adult honey bees

Lindqvist, Kajsa January 2024 (has links)
Honey bees are one of the most important parts of our ecosystems, especially for pollination. One of the biggest threats to honey bee colonies is the parasite Varroa Destructor. It does not only feed on and weaken the bees, but is also a vector for up to 18 different viruses. In Europe, untreated colonies with parasites carrying viruses have led to a decrease of honey bees. Because of this, honey bees have developed a system called “Varroa Sensitive Hygiene”. This genetic behavior allows honey bees to recognize infested pupae and remove them, preventing further spread in the colonies. The aim of this study was to quantify viruses in pupae that had not been removed from the colonies using RT-qPCR, to get a better understanding of this behavior. There were two groups of pupae in this project, one where the honey bees had full access to remove infected pupae and the other had a screen prevented the honey bees from removing pupae. The results showed unexpected infections in pupae, according to injected viruses and controls. Looking at infections after injections, it did not show a significant difference between the two groups of pupae. Overall, there were a lot of non-targeted control groups and viruses that were detected in the assays. This could be a result of bad plasmids injections, wrong injections, and mutations in the viruses. In conclusion, the method should be tried again with some alterations, to find the reason behind the deviant results.

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