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Learning Ability and Factors Influencing Nest Establishment of the Solitary Bees Osmia lignaria and Megachile rotundata (Hymenoptera: Megachilidae)Vorel, Cory A. 01 May 2010 (has links)
Over the last several decades, the use of solitary bees as an alternative to honey bees (Apis mellifera L.) for pollination of commercial crops has increased, in part as a response to ongoing problems faced by commercial honey bee populations. Two solitary bee species have exhibited great commercial potential: the blue orchard bee, Osmia lignaria Say, and the alfalfa leafcutting bee, Megachile rotundata Fabricius (Hymenoptera: Megachilidae). However, growth of O. lignaria and M. rotundata populations is limited in commercial systems, mainly due to low establishment of females at provided nesting sites, possibly due to mortality, dispersal, or other causes. Rough handling of pre-emergent bees may possibly contribute to post-emergence dispersal in O. lignaria. The current work addressed this hypothesis by using shaking as a proxy for rough handling. However, shaken bees did not establish fewer nests than unshaken bees. Therefore, commercial fruit growers using O. lignaria as pollinators should be able to remove cocoons from their nests as part of their management plan, without fear of increasing bee dispersal. When searching for a nest site, M. rotundata females are known to be attracted to previously used nest materials. The current work verified the attraction of M. rotundata females to old conspecific nests. It also sought to determine which nest components were most attractive to females. It was found that all components were equally attractive. It may be useful to establish these species' learning abilities in a laboratory setting. The current work attempted to design a conditioning protocol for solitary bees. Initially, a method utilizing the proboscis extension reflex was sought. However, O. lignaria and M. rotundata did not reflexively extend their proboscises upon antennal stimulation with sucrose solution. Therefore, another method of conditioning was implemented. Bees were conditioned to respond to floral odors in a feeding bioassay. Results are compared for both species, as well as for males and females. The research completed for this dissertation may provide helpful information for commercial managers of solitary bees seeking to decrease both bee dispersal and the incidence of disease and parasites.
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Flight phenology of oligolectic solitary bees are affected by flowering phenologyPalm, Anna January 2021 (has links)
Understanding the relationships between solitary bees’ flight phenology and flowering phenology is important in the context of global warming. Using Swedish citizen science data, observations of oligolectic solitary bees and flowering phenology were used together with temperature data. All five bees studied had flight period that overlapped with the flowering period their corresponding host plant. None of the species were affected by the temperature, although there was a correlation between earliest observations of flowering phenology and flight phenology. The later the flowering observation was made, the later the flight observation was made. No correlation was found between the length of flight period and length of the flowering period. Increasing temperature is not the only factor that effects flight phenology and flowering phenology.
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To Bee or Not to Be : Critical Floral Resources of Wild-BeesLarsson, Magnus January 2006 (has links)
<p>In recent decades, the development of strategies to prevent or slow the loss of biodiversity has become an important task for ecologists. In most terrestrial ecosystems wild-bees play a key role as pollinators of herbs, shrubs and trees. The scope of this thesis was to study 1) pollinator effectiveness of specialist bees vs. generalist flower-visitors, 2) critical floral resources for wild-bees, and 3) methods to estimate the size of wild-bee populations. The wild-bee species <i>Andrena hattorfiana </i>and <i>A. marginata </i>were used as model species. These two species are specialized on pollen from the plant family Dipsacaceae.</p><p>The bee <i>A. hattorfiana </i>was found to be a frequent visitor but a poor pollinator of its preferred food-plant <i>Knautia arvensis</i>. The female bees exert such a strong preference for pollen-producing inflorescences that they likely have deleterious effects on the plant, harvesting valuable pollen that could have been transferred to conspecific stigmas by other flower-visitors. To explore the relationship between wild-bees and their food-plants, the concept of pollen budget was developed. We quantified pollen production in the food-plant population and pollen consumption of wild-bee nests. A survey of the visitation by all flower-visitor taxa indicated that the degree of utilization (the fraction of the total pollen amount that is harvested and utilized by <i>A. hattorfiana</i>) varied from 12% to 80% among <i>K. arvensis</i> populations (N=26). The bee <i>Andrena marginata</i> utilized 44% of the pollen production in a population of <i>Succisa pratensis</i>. The pollen budget suggests that with an average flower-visitor diversity and abundance, 330 individuals of the food-plant <i>K. arvensis </i>are required to sustain a population of 20 <i>A. hattorfiana </i>♀ (the approximate median natural population size). Based on a study of <i>A. hattorfiana</i>, considerable simplifications were proposed for the commonly used mark-recapture design for measuring wild-bee population size. For this species, population size estimated based on mark-recapture data was strongly correlated with the number of observations per survey-walk. The results suggest that large-scale surveys of solitary bee species can be simplified by performing survey-walks.</p><p>The pollen budget and the method proposed for estimating the size of bee populations have the potential to become valuable tools for monitoring and management of wild-bee populations.</p>
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To Bee or Not to Be : Critical Floral Resources of Wild-BeesLarsson, Magnus January 2006 (has links)
In recent decades, the development of strategies to prevent or slow the loss of biodiversity has become an important task for ecologists. In most terrestrial ecosystems wild-bees play a key role as pollinators of herbs, shrubs and trees. The scope of this thesis was to study 1) pollinator effectiveness of specialist bees vs. generalist flower-visitors, 2) critical floral resources for wild-bees, and 3) methods to estimate the size of wild-bee populations. The wild-bee species Andrena hattorfiana and A. marginata were used as model species. These two species are specialized on pollen from the plant family Dipsacaceae. The bee A. hattorfiana was found to be a frequent visitor but a poor pollinator of its preferred food-plant Knautia arvensis. The female bees exert such a strong preference for pollen-producing inflorescences that they likely have deleterious effects on the plant, harvesting valuable pollen that could have been transferred to conspecific stigmas by other flower-visitors. To explore the relationship between wild-bees and their food-plants, the concept of pollen budget was developed. We quantified pollen production in the food-plant population and pollen consumption of wild-bee nests. A survey of the visitation by all flower-visitor taxa indicated that the degree of utilization (the fraction of the total pollen amount that is harvested and utilized by A. hattorfiana) varied from 12% to 80% among K. arvensis populations (N=26). The bee Andrena marginata utilized 44% of the pollen production in a population of Succisa pratensis. The pollen budget suggests that with an average flower-visitor diversity and abundance, 330 individuals of the food-plant K. arvensis are required to sustain a population of 20 A. hattorfiana ♀ (the approximate median natural population size). Based on a study of A. hattorfiana, considerable simplifications were proposed for the commonly used mark-recapture design for measuring wild-bee population size. For this species, population size estimated based on mark-recapture data was strongly correlated with the number of observations per survey-walk. The results suggest that large-scale surveys of solitary bee species can be simplified by performing survey-walks. The pollen budget and the method proposed for estimating the size of bee populations have the potential to become valuable tools for monitoring and management of wild-bee populations.
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Complementary sex determination in a solitary bee : Mapping candidate sex determination loci and associated genesMagnusson, Sara January 2022 (has links)
The molecular mechanism of complementary sex determination in the haplodiploid organisms is poorly understood and has only been described in the honeybee Apis mellifera. In the haplodiploid system, males develop from unfertilized eggs and females from fertilized eggs. However, in some rare cases, diploid males develop from fertilized eggs. They can be distinguished from diploid and haploid males at the molecular level since they are heterozygous like females but are homozygous, like haploid males, at the sex determination locus. In this project, Osmia bicornis was chosen as the model organism, and the aim is to identify the complementary sex determination locus which should be homozygous in all diploid males. Bee nests were collected from the bees' natural habitat, and potential diploid males were identified. Data analysis of whole-genome sequencing on 17 potential diploid males was performed, which identified 80 candidate sex determination loci with 259 genes. Homologs of the Csd gene in A. mellifera were identified but not found in any candidate complementary sex determination loci.
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Interação entre plantas produtoras de óleo floral e abelhas coletoras de óleo floral (Apidae, Hymenoptera) / Interaction between oil plants and oil collecting bees (Apidae, Hymenoptera).Silva, Carlos Eduardo Pinto da 27 November 2013 (has links)
A interação entre plantas e seus visitantes florais forma uma rede de interação complexa. Essa rede de interação possui propriedades emergentes que caracterizam a estrutura da rede. A composição, a riqueza e o papel das espécies nas redes de interação podem variar espaço-temporalmente e levar a alteração na estrutura das redes. A estrutura também pode variar de acordo com o grau de dependência entre os pares de espécies. É esperado que interações com elevado grau de dependência mútua variem menos no tempo e no espaço. A interação entre as plantas produtoras de óleo floral e as abelhas coletoras de óleo é de alta dependência mútua, já que as abelhas necessitam do óleo para alimentar as larvas e construir ninhos e são polinizadores mais importantes dessas plantas. O alimento larval destas abelhas é composto por pólen, óleo e néctar. A quantidade de alimento disponível para as larvas pode influenciar o tamanho dos adultos quando emergirem. As espécies de abelhas coletoras de óleo são solitárias, ou seja, não existe contato entre as gerações. Assim uma abelha recém-emergida deve ser capaz de encontrar as fontes de óleo, seguindo algum sinal de atração, que poderia ser através de odores voláteis. No presente trabalho analisamos se a estrutura da rede de interação formada pelas plantas produtoras de óleo floral e seus visitantes coletores de óleo varia espacialmente e temporalmente. Para a análise temporal coletamos dados da interação por dois anos em Itirapina, São Paulo. No estudo de variação espacial comparamos as redes de interação em cinco áreas de cerrado no interior de São Paulo. Em ambos os estudos usamos métricas de redes complexas. Além disso, estudamos a relação entre tamanho de célula de cria e quantidade de alimento disponível para as larvas e tamanho das abelhas adultas ao emergirem, para uma espécie de abelha coletora de óleo: Tetrapedia diversipes. Para isso medimos abelhas e suas células de cria e relacionamos estas medidas. Também manipulamos a quantidade de alimento disponível para as larvas e medimos os adultos emergidos. Por fim, procuramos odores voláteis em Byrsonima intermedia. Coletamos odores voláteis com a técnica de dynamic headspace. Analisamos as coletas com GCMS. A estrutura da rede de interação entre as plantas produtoras de óleo floral e as abelhas coletoras de óleo variou espaço-temporalmente. A análise temporal mostrou que o grau de especialização da rede foi fortemente alterado entre os anos de estudo e que a abundância foi um fator importante para explicar a ocorrência das interações. As espécies que tiveram suas abundâncias alteradas entre os anos também tiveram alteração no número de interações. Na análise espacial observamos que as interações e as espécies compartilhadas entre os locais de estudo foram aquelas com maior grau de interação (generalista). Além das interações e espécies generalistas se manterem nas cinco localidades, as espécies generalistas sustentam as espécies localmente raras. Byrsonima intermedia foi considerada uma espécie super-generalista nas cinco redes analisadas e 77% das interações compartilhadas envolveram esta espécie. A morfometria dos indivíduos de Tetrapedia diversipes estudados foi positivamente correlacionada com o volume da célula de cria e a quantidade de alimento. Quando relacionamos o volume das células de cria com as medidas corpóreas das abelhas verificamos que as abelhas maiores emergiram em células maiores. No entanto essa relação foi fraca. Após o experimento de manipulação de alimento verificamos que as abelhas emergidas de células sem manipulação foram maiores que as abelhas que tiveram o alimento retirado, e que entre as abelhas manipuladas aquelas que receberam mais alimento foram maiores. Nós não encontramos odores voláteis em flores de Byrsonima intermedia. / The plant pollinator interaction forms a complex network. These networks have emergent properties that characterize the structure of network. The number, identity and species role of the network may vary spatio-temporally and lead to changes in the structure of the networks. Moreover, the structure may vary according to the dependence degree of the interacting pairs. It is expected that interactions with a high mutual dependence degree are more stable. The interaction between oil producing plants and oil collecting bees is highly mutual dependence, since bees need oil to feed the larvae and are pollinators of these plants. The larval diet consists of pollen and oil/nectar. The amount of food available to the larvae may influence the adults size. The oil collecting bees are solitary, i.e., there is no contact between generations. Thus, a naive emerged bee should be able to find the oil plants, using some attractive cues that could be volatile odor. In this work we want to answer if the network structure of the interaction between oil producing plants and oil collecting bees varies spatially and temporally. For the temporal analysis we carried out field work for two years at Itirapina, São Paulo. In the study of spatial variation we compare interaction networks in five areas of cerrado. In both studies we use metrics of complex networks. Furthermore, we studied the relation between size of adult bees (Tetrapedia diversipes) and brood cell sizes and the amount of food available for the larvae. We measured the bees and their brood cells and relate it. Also we manipulated the amount of food available for the larvae and we took measures of the adults. Finally, we search for volatile odors in Byrsonima intermedia. We collect volatile odors with the technique of dynamic headspace. We analyzed the samples with GCMS. The network structure of interaction between oil producing plants and oil collecting bees varied spatio-temporally. The temporal analysis showed that the specialization degree of the network changed between the years and that the abundance has a key role to explain the occurrence of interactions. Species that had changed their abundances between years were also changed in the number of interactions. Spatial analysis found out that the interactions and species ubiquitous among the study sites were those that had the greatest interaction degree (generalist specie). Moreover, generalist species maintain the locally rare species. Byrsonima intermedia was regarded a super-generalist specie in the five networks analyzed and 77% of ubiquitous interactions involved this species. The morphometry of Tetrapedia diversipes individuals was positively correlated with the volume of the brood cells and the amount of food. When relating the volume of brood cells with measures of bees we found that larger bees emerged in larger cells. However this relationship was weak. The experiment of handling food showed that bees emerged from control cells were larger than bees that had the food removed, and between the manipulated bees those who received more food became bigger. We did not detect volatile odors in flowers Byrsonima intermedia.
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Diverzita včel (Hymenoptera: Apiformes) na řepkovém poli / Diversity of bees (Hymenoptera: Apiformes) in oilseed rape fieldVYSKOČILOVÁ, Pavlína January 2016 (has links)
Measuring the diversity of bees was provided in two rapeseed fields (Dešenice, Miletice) in western Bohemia, where various species of bees were caught at eight different locations during two periods (March - April, May June). The bees were collected by using Moerickeho cups (yellow traps) with a concentrated solution of water and detergent.
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Interação entre plantas produtoras de óleo floral e abelhas coletoras de óleo floral (Apidae, Hymenoptera) / Interaction between oil plants and oil collecting bees (Apidae, Hymenoptera).Carlos Eduardo Pinto da Silva 27 November 2013 (has links)
A interação entre plantas e seus visitantes florais forma uma rede de interação complexa. Essa rede de interação possui propriedades emergentes que caracterizam a estrutura da rede. A composição, a riqueza e o papel das espécies nas redes de interação podem variar espaço-temporalmente e levar a alteração na estrutura das redes. A estrutura também pode variar de acordo com o grau de dependência entre os pares de espécies. É esperado que interações com elevado grau de dependência mútua variem menos no tempo e no espaço. A interação entre as plantas produtoras de óleo floral e as abelhas coletoras de óleo é de alta dependência mútua, já que as abelhas necessitam do óleo para alimentar as larvas e construir ninhos e são polinizadores mais importantes dessas plantas. O alimento larval destas abelhas é composto por pólen, óleo e néctar. A quantidade de alimento disponível para as larvas pode influenciar o tamanho dos adultos quando emergirem. As espécies de abelhas coletoras de óleo são solitárias, ou seja, não existe contato entre as gerações. Assim uma abelha recém-emergida deve ser capaz de encontrar as fontes de óleo, seguindo algum sinal de atração, que poderia ser através de odores voláteis. No presente trabalho analisamos se a estrutura da rede de interação formada pelas plantas produtoras de óleo floral e seus visitantes coletores de óleo varia espacialmente e temporalmente. Para a análise temporal coletamos dados da interação por dois anos em Itirapina, São Paulo. No estudo de variação espacial comparamos as redes de interação em cinco áreas de cerrado no interior de São Paulo. Em ambos os estudos usamos métricas de redes complexas. Além disso, estudamos a relação entre tamanho de célula de cria e quantidade de alimento disponível para as larvas e tamanho das abelhas adultas ao emergirem, para uma espécie de abelha coletora de óleo: Tetrapedia diversipes. Para isso medimos abelhas e suas células de cria e relacionamos estas medidas. Também manipulamos a quantidade de alimento disponível para as larvas e medimos os adultos emergidos. Por fim, procuramos odores voláteis em Byrsonima intermedia. Coletamos odores voláteis com a técnica de dynamic headspace. Analisamos as coletas com GCMS. A estrutura da rede de interação entre as plantas produtoras de óleo floral e as abelhas coletoras de óleo variou espaço-temporalmente. A análise temporal mostrou que o grau de especialização da rede foi fortemente alterado entre os anos de estudo e que a abundância foi um fator importante para explicar a ocorrência das interações. As espécies que tiveram suas abundâncias alteradas entre os anos também tiveram alteração no número de interações. Na análise espacial observamos que as interações e as espécies compartilhadas entre os locais de estudo foram aquelas com maior grau de interação (generalista). Além das interações e espécies generalistas se manterem nas cinco localidades, as espécies generalistas sustentam as espécies localmente raras. Byrsonima intermedia foi considerada uma espécie super-generalista nas cinco redes analisadas e 77% das interações compartilhadas envolveram esta espécie. A morfometria dos indivíduos de Tetrapedia diversipes estudados foi positivamente correlacionada com o volume da célula de cria e a quantidade de alimento. Quando relacionamos o volume das células de cria com as medidas corpóreas das abelhas verificamos que as abelhas maiores emergiram em células maiores. No entanto essa relação foi fraca. Após o experimento de manipulação de alimento verificamos que as abelhas emergidas de células sem manipulação foram maiores que as abelhas que tiveram o alimento retirado, e que entre as abelhas manipuladas aquelas que receberam mais alimento foram maiores. Nós não encontramos odores voláteis em flores de Byrsonima intermedia. / The plant pollinator interaction forms a complex network. These networks have emergent properties that characterize the structure of network. The number, identity and species role of the network may vary spatio-temporally and lead to changes in the structure of the networks. Moreover, the structure may vary according to the dependence degree of the interacting pairs. It is expected that interactions with a high mutual dependence degree are more stable. The interaction between oil producing plants and oil collecting bees is highly mutual dependence, since bees need oil to feed the larvae and are pollinators of these plants. The larval diet consists of pollen and oil/nectar. The amount of food available to the larvae may influence the adults size. The oil collecting bees are solitary, i.e., there is no contact between generations. Thus, a naive emerged bee should be able to find the oil plants, using some attractive cues that could be volatile odor. In this work we want to answer if the network structure of the interaction between oil producing plants and oil collecting bees varies spatially and temporally. For the temporal analysis we carried out field work for two years at Itirapina, São Paulo. In the study of spatial variation we compare interaction networks in five areas of cerrado. In both studies we use metrics of complex networks. Furthermore, we studied the relation between size of adult bees (Tetrapedia diversipes) and brood cell sizes and the amount of food available for the larvae. We measured the bees and their brood cells and relate it. Also we manipulated the amount of food available for the larvae and we took measures of the adults. Finally, we search for volatile odors in Byrsonima intermedia. We collect volatile odors with the technique of dynamic headspace. We analyzed the samples with GCMS. The network structure of interaction between oil producing plants and oil collecting bees varied spatio-temporally. The temporal analysis showed that the specialization degree of the network changed between the years and that the abundance has a key role to explain the occurrence of interactions. Species that had changed their abundances between years were also changed in the number of interactions. Spatial analysis found out that the interactions and species ubiquitous among the study sites were those that had the greatest interaction degree (generalist specie). Moreover, generalist species maintain the locally rare species. Byrsonima intermedia was regarded a super-generalist specie in the five networks analyzed and 77% of ubiquitous interactions involved this species. The morphometry of Tetrapedia diversipes individuals was positively correlated with the volume of the brood cells and the amount of food. When relating the volume of brood cells with measures of bees we found that larger bees emerged in larger cells. However this relationship was weak. The experiment of handling food showed that bees emerged from control cells were larger than bees that had the food removed, and between the manipulated bees those who received more food became bigger. We did not detect volatile odors in flowers Byrsonima intermedia.
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