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A study of the activity and characteristics of superoxide dismutase in the male reproductive parts of Petunia : a thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Plant Biotechnology in the School of Biological Sciences, University of Canterbury /Moon, Bok Hee. January 2006 (has links)
Thesis (M. Sc.)--University of Canterbury, 2006. / Typescript (photocopy). Includes bibliographical references (leaves 92-101). Also available via the World Wide Web.
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Identification of Phytochemical Markers for Quality Evaluation of Tree Peony Stamen Using Comprehensive HPLC-Based AnalysisXie, Lihang, Yan, Zhenguo, Li, Mengchen, Tian, Yao, Kilaru, Aruna, Niu, Lixin, Zhang, Yanlong 15 October 2020 (has links)
Stamen from Paeonia ostii 'Fengdan Bai' and Paeonia rockii is rich in phenolic compounds and popularly used as tea materials with various pharmaceutical functions. In order to investigate whether stamen from other tree peony cultivars could be used as a natural antioxidant, the quality of stamen from thirty-five cultivars collected from the same garden was evaluated based on their phenolic composition and content by high-performance liquid chromatography analysis and in vitro antioxidant properties coupled with comprehensive chemometrics analysis. The results revealed that phenolic contents and antioxidant capacities of tree peony stamen were unique and cultivar dependent. Stamen from 'Zi Erqiao' exhibited the highest total phenolic and flavonol content, and strongest antioxidant activities, while that of 'Fengdan Bai' and P. rockii were at below-average levels among test samples. Further, thirty-seven cultivars of tree peony were divided into three major groups with a significant difference in total metabolites content and antioxidant properties, which were mainly contributed by six phytochemical compounds. Among these, naringin and benzoylpaeoniflorin were found to be critical chemical markers for the identification of tree peony stamen with high quality by chemometric analysis. Moreover, correlation analysis suggested that stamen from the earlier flowering cultivars with the hidden pistil, double petal, shorter thrum, more carpel and volume were possibly of higher quality. Together, cultivars with stamen enriched in phenolics and antioxidants properties, and their relevant critical phenotypic and phytochemical traits were screened out. This study would benefit the rapid identification of tree peony stamen with high quality and provide a valuable reference for its development and utilization as functional foods and pharmaceutical resources.
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Etude de l’appareil reproducteur des palmiers (Arecaceae) : évolution du système sexuel et du nombre d’étamines / Reproductive structures in palms (Arecaceae) : evolution of sexual system and stamen numberAlapetite, Elodie 17 May 2013 (has links)
Les palmiers constituent une famille emblématique de monocotylédones, comprenant 183 genres et environ 2500 espèces distribuées sur tous les continents dans les zones tropicales et subtropicales. Leurs feuilles et leurs stipes, très caractéristiques, les rendent facilement reconnaissables dans la nature. En revanche leurs fleurs passent souvent inaperçues. Elles sont généralement petites (quelques centimètres), trimères, unisexuées, peu colorées (blanches ou vertes) et regroupées sur de grandes inflorescences. Cependant les palmiers présentent une diversité importante au niveau du système sexuel et du nombre d’étamines. Les trois systèmes sexuels principaux des angiospermes : hermaphrodisme, monoécie et dioécie, sont présents chez les palmiers. Le nombre d’étamines varie entre quelques unités (oligandrie) et des dizaines, voire centaines, d’unités (polyandrie) chez certains genres. Nous avons étudié l’évolution du système sexuel et du nombre d’étamines à l’échelle de la famille. Nous avons pour cela utilisé une phylogénie comprenant tous les genres de palmiers, bien résolue, datée et qui a été publiée récemment. Notre étude a montré que l’ancêtre commun à tous les palmiers était probablement monoïque et possédait des fleurs oligandres à 6 étamines. A partir de ces états ancestraux, plusieurs transitions ont eu lieu : vers l’hermaphrodisme et la monoécie d’une part, et vers la polyandrie d’autre part. Dans l’objectif d’initier une recherche sur une éventuelle explication fonctionnelle de l’augmentation du nombre d’étamines, nous avons comparé celui-ci à la production de pollen, en étudiant la quantité totale de pollen produite par les fleurs de 82 espèces. Notre étude a montré que, chez deux sous-familles, les fleurs ont tendance à produire plus de pollen quand le nombre d’étamines est plus élevé. Nous avons également réalisé la phylogénie moléculaire d’une sous-tribu (les Ptychospermatinae) dans laquelle la variation du nombre d’étamines est exceptionnelle. De futures études sur la génétique, le développement, l’écologie et la biologie de la pollinisation sont nécessaires. / Palms (Arecaceae) are an emblematic family of monocots of 183 genera and around 2500 species distributed on all continents, throughout tropical and subtropical areas. Their characteristic leaves and stems make palms immediately recognizable in the field. The inconspicuous palm flowers are usually considered as rather dull. They are usually small (a few centimetres), trimerous, often unisexual, colourless (white or greenish) and grouped into huge inflorescences. However palms exhibit a large diversity in sexual system and in stamen number, diversity that is still poorly understood. The three main sexual systems of angiosperm, hermaphroditism, dioecy and monoecy are present in palms. Stamen number ranges between a few units (oligandry) to several dozens and even several hundreds of units (polyandry) in some genera. We studied the evolution of sexual system and stamen number at the family level. We used as historical framework a well-supported and dated phylogeny, published recently. Our study showed that the putative ancestor of palms was monoecious and bore oligandrous flowers with 6 stamens. From these ancestral states, several transitions occurred: towards hermaphroditism and dioecy and towards polyandry respectively. In order to initiate a research on a possible functional significance of increase in stamen number, we investigated the relationship between stamen number and pollen production, by extracting the total pollen content from flowers of 82 species. Our study showed a tendency towards higher pollen production when the number of stamen increases in two subfamilies. We also produced molecular phylogeny of a subtribe (Ptychospermatinae) in which the range of variation in stamen number is exceptional. Further investigations into genetic, developmental, ecology and pollination biology are needed.
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Reprodukční biologie \kur{Achillea millefolium} agg. a \kur{Achillea ptarmica} v lučních a lemových společenstvech / Reproduction of \kur{Achillea millefolium} agg. and \kur{Achillea ptarmica} in meadows and vergesTOMŠOVÁ, Pavla January 2013 (has links)
Several changes in land use during the last 50 years of 20th century had a significant impact on the composition of traditional meadows. The abundance of many plant species typical for traditionally managed meadows has declined. But some of these species have found a refuge in habitats such as field margins and road verges. The aim of this study was to describe how the reproduction success of two related Achillea species A. millefolium agg. and A. ptarmica depends on (i) the particular habitat in which they grow (meadow/verge); (ii) the abundance of pollinators in the study site; and (iii) timing of flowering within the season. Moreover, the longevity of individual flowers of the two taxa has been studied in order assess the width of the time frame the reproduction takes place in. These objectives were achieved by means of measuring plant total seed production and germination as proxies of reproductive success both in meadow and verge populations at the beginning, peak and end of the flowering season of the two species in 2012. The plants were chosen at plots, where concurrently a pollinator survey has been conducted as the part of the broader project. The durations of the male and female phases of individual flowers have been studied in separate experiments.
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Morfologia, desenvolvimento e aspectos da flor em espécies de Urticaceae Juss / Morphology, development and aspects of the flower in Urticaceae Juss. speciesPedersoli, Giseli Donizete 08 December 2017 (has links)
A maioria dos representantes de Urticaceae, a família da urtiga, exibe flores díclinas, muito pequenas e discretas, que variam em número de peças florais, principalmente em relação ao perianto e androceu (perda ou união de órgãos). Gineceu pseudomonômero, ou seja, iniciação de dois ou raramente três carpelos no meristema floral, mas com apenas um carpelo contendo óvulo, é descrito para a família. Outra característica interessante com registro para a família é a presença de pistilódio nas flores estaminadas. O objetivo deste trabalho é estudar comparativamente a morfologia da flor em desenvolvimento de espécies de diferentes tribos de Urticaceae, a fim de compreender: (1) as vias que levam à grande redução floral exibida pelo grupo, (2) se o desenvolvimento pode explicar a formação do gineceu com ovário unilocular, uniovulado, provavelmente pseudomonômero, e (3) a estrutura do pistilódio nas flores estaminadas e sua função na anemofilia. Para tal, foram selecionadas 10 espécies pertencentes a cinco tribos da família Urticaceae, com exceção da tribo Forsskaoleeae. Ainda, para o estudo comparativo do pistilódio foram amostradas duas espécies de Cannabaceae (Celtis iguanaea e Trema micrantha) e uma de Moraceae (Morus nigra). Botões florais e flores foram coletados de pelo menos dois indivíduos de cada espécie e processados para exames de superfície, anatômico e de vascularização em micro-CT. Em todas as espécies estudadas, com exceção da flor pistilada de Phenax sonneratii, há a iniciação de órgãos de apenas um verticilo do perianto; a variação na meria do perianto (2-5) resulta de ausência de órgãos desde o início do desenvolvimento. A diclinia decorre de ausência de estames desde o início do desenvolvimento na flor pistilada, com exceção de Pilea cadierei (aborto de estames), e de aborto do pistilo nos estádios intermediários do desenvolvimento na flor estaminada, com exceção de Cecropia pachystachya e Coussapoa microcarpa. O gineceu pseudomonômero é atestado pela iniciação de um primórdio carpelar que se divide em dois em Cecropia pachystachya, Coussapoa microcarpa, Laportea aestuans, Myriocarpa stipitata, Pourouma cecropiifolia, Urera baccifera e Urtica dioica; em Boehmeria cylindrica, Phenax sonneratii e Pilea cadierei não ocorre essa divisão do primórdio carpelar. Os estudos de vascularização revelaram que em todas as espécies apenas um traço vascular entra no gineceu, ramifica-se em dois logo na porção basal, sendo que um entra no óvulo e o outro segue para o estilete e estigma; exceção a isso ocorre em Myriocarpa stipitata e Urtica dioica, em que entram dois traços vasculares, um se ramifica em dois, sendo que um entra no óvulo e o outro segue para o estilete e estigma, e o outro segue direto para o estilete e estigma. Essa segunda condição seria o esperado para gineceu pseudomonômero. Pistilódios estão presentes nas flores estaminadas de Boehmeria cylindrica, Myriocarpa stipitata, Laportea aestuans, Urera baccifera e Urtica dioica (Urticaceae), Celtis iguanaea e Trema micrantha (Cannabaceae), e Morus nigra (Moraceae), e rudimentos carpelares nas de Phenax sonneratii e Pilea cadierei (Urticaceae);. O pistilódio, juntamente com as sépalas e os estames, formam um aparato que atua no mecanismo de liberação explosiva de pólen a ser transportado pelo vento. Este aparato é considerado aqui como uma sinorganização floral, sem que haja união verdadeira de tecidos, que deve otimizar a anemofilia, de modo que o pólen alcance distâncias maiores, evitando autopolinização e garantindo maior variabilidade genética para essas espécies / Most species of Urticaceae, the nettle family, exhibit very small and inconspicuous diclinous flowers, which vary in number of organs, mainly in relation to the perianth and androecium (loss or union of organs). Pseudomonomerous gynoecium, that is, initiation of two or rarely three carpels in the floral meristem, but with only one carpel containing ovule, is described for the family. Another noteworthy characteristic reported for the family is the presence of a pistillodium in staminate flowers. The objective of this work was to study the morphology of the developing flower of different species of Urticaceae in order to better understand: (1) the vias that lead to a great floral reduction exhibited by the group, (2) if the development may explain the formation of a pseudomonomerous gynoecium, and (3) the pistillodium structure in staminate flowers and its function in the anemophily. For this, 10 species belonging to five tribes of the family were selected, except the Forsskaoleeae tribe. In addition, flowers of two Cannabaceae species (Celtis iguanaea and Trema micrantha) and one Moraceae species (Morus nigra) were sampled. Buds and flowers were collected and prepared for examination under scanning electron microscopy and light microscopy. Vascularization was also studied by means of a micro-CT. In all studied species, except for the pistillate flower of Phenax sonneratii, organs of only one whorl of the perianth initiate; the variation in the merosity of the perianth (2-5) results from absence of organs from the beginning of development. The dicliny results of the absence of stamens from the beginning of development in pistillate flower, except for Pilea cadierei (stamen abortion), and pistil abortion occurs in the intermediate stages of development in the staminate flower, with the exception of Cecropia pachystachya and Coussapoa microcarpa. The pseudomonomerous gynoecium is characterized by the initiation of a carpel primordium that divided into two in Cecropia pachystachya, Coussapoa microcarpa, Laportea aestuans, Myriocarpa stipitata, Pourouma cecropiifolia, Urera baccifera and Urtica dioica; in Boehmeria cylindrica, Phenax sonneratii and Pilea cadierei apparently does not occur a division of the carpel primordium. Vascularization studies showed that in all species a vascular bundle enters the gynoecium, branching in two soon in the basal portion, one goes to the ovule and the other goes to the style and stigma; exceptions are Myriocarpa stipitata and Urtica dioica, in which two vascular bundles enter the pistil: one branches in two, one enters the ovule and the other goes to the style and stigma, and the other goes straight to the style and stigma. This second condition would be expected for a pseudomonomerous gynoecium. Pistillodium are present in the staminate flowers of Boehmeria cylindrica, Myriocarpa stipitata, Laportea aestuans, Urera baccifera and Urtica dioica (Urticaceae), Celtis iguanaea and Trema micrantha (Cannabaceae); and Morus nigra (Moraceae). rudimentary carpels were observed in Phenax sonneratii and Pilea cadierei (Urticaceae); The pistillodium, together with the sepals and stamens, forms an apparatus that acts on the mechanism of explosive release of pollen to be carried by the wind. This apparatus is here considered as a floral synorganization, without a true union between tissues, that should optimize the anemophily, so that the pollen can reache greater distances, avoiding selfpollination and guaranteeing greater genetic variability for these species
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Morfologia, desenvolvimento e aspectos da flor em espécies de Urticaceae Juss / Morphology, development and aspects of the flower in Urticaceae Juss. speciesGiseli Donizete Pedersoli 08 December 2017 (has links)
A maioria dos representantes de Urticaceae, a família da urtiga, exibe flores díclinas, muito pequenas e discretas, que variam em número de peças florais, principalmente em relação ao perianto e androceu (perda ou união de órgãos). Gineceu pseudomonômero, ou seja, iniciação de dois ou raramente três carpelos no meristema floral, mas com apenas um carpelo contendo óvulo, é descrito para a família. Outra característica interessante com registro para a família é a presença de pistilódio nas flores estaminadas. O objetivo deste trabalho é estudar comparativamente a morfologia da flor em desenvolvimento de espécies de diferentes tribos de Urticaceae, a fim de compreender: (1) as vias que levam à grande redução floral exibida pelo grupo, (2) se o desenvolvimento pode explicar a formação do gineceu com ovário unilocular, uniovulado, provavelmente pseudomonômero, e (3) a estrutura do pistilódio nas flores estaminadas e sua função na anemofilia. Para tal, foram selecionadas 10 espécies pertencentes a cinco tribos da família Urticaceae, com exceção da tribo Forsskaoleeae. Ainda, para o estudo comparativo do pistilódio foram amostradas duas espécies de Cannabaceae (Celtis iguanaea e Trema micrantha) e uma de Moraceae (Morus nigra). Botões florais e flores foram coletados de pelo menos dois indivíduos de cada espécie e processados para exames de superfície, anatômico e de vascularização em micro-CT. Em todas as espécies estudadas, com exceção da flor pistilada de Phenax sonneratii, há a iniciação de órgãos de apenas um verticilo do perianto; a variação na meria do perianto (2-5) resulta de ausência de órgãos desde o início do desenvolvimento. A diclinia decorre de ausência de estames desde o início do desenvolvimento na flor pistilada, com exceção de Pilea cadierei (aborto de estames), e de aborto do pistilo nos estádios intermediários do desenvolvimento na flor estaminada, com exceção de Cecropia pachystachya e Coussapoa microcarpa. O gineceu pseudomonômero é atestado pela iniciação de um primórdio carpelar que se divide em dois em Cecropia pachystachya, Coussapoa microcarpa, Laportea aestuans, Myriocarpa stipitata, Pourouma cecropiifolia, Urera baccifera e Urtica dioica; em Boehmeria cylindrica, Phenax sonneratii e Pilea cadierei não ocorre essa divisão do primórdio carpelar. Os estudos de vascularização revelaram que em todas as espécies apenas um traço vascular entra no gineceu, ramifica-se em dois logo na porção basal, sendo que um entra no óvulo e o outro segue para o estilete e estigma; exceção a isso ocorre em Myriocarpa stipitata e Urtica dioica, em que entram dois traços vasculares, um se ramifica em dois, sendo que um entra no óvulo e o outro segue para o estilete e estigma, e o outro segue direto para o estilete e estigma. Essa segunda condição seria o esperado para gineceu pseudomonômero. Pistilódios estão presentes nas flores estaminadas de Boehmeria cylindrica, Myriocarpa stipitata, Laportea aestuans, Urera baccifera e Urtica dioica (Urticaceae), Celtis iguanaea e Trema micrantha (Cannabaceae), e Morus nigra (Moraceae), e rudimentos carpelares nas de Phenax sonneratii e Pilea cadierei (Urticaceae);. O pistilódio, juntamente com as sépalas e os estames, formam um aparato que atua no mecanismo de liberação explosiva de pólen a ser transportado pelo vento. Este aparato é considerado aqui como uma sinorganização floral, sem que haja união verdadeira de tecidos, que deve otimizar a anemofilia, de modo que o pólen alcance distâncias maiores, evitando autopolinização e garantindo maior variabilidade genética para essas espécies / Most species of Urticaceae, the nettle family, exhibit very small and inconspicuous diclinous flowers, which vary in number of organs, mainly in relation to the perianth and androecium (loss or union of organs). Pseudomonomerous gynoecium, that is, initiation of two or rarely three carpels in the floral meristem, but with only one carpel containing ovule, is described for the family. Another noteworthy characteristic reported for the family is the presence of a pistillodium in staminate flowers. The objective of this work was to study the morphology of the developing flower of different species of Urticaceae in order to better understand: (1) the vias that lead to a great floral reduction exhibited by the group, (2) if the development may explain the formation of a pseudomonomerous gynoecium, and (3) the pistillodium structure in staminate flowers and its function in the anemophily. For this, 10 species belonging to five tribes of the family were selected, except the Forsskaoleeae tribe. In addition, flowers of two Cannabaceae species (Celtis iguanaea and Trema micrantha) and one Moraceae species (Morus nigra) were sampled. Buds and flowers were collected and prepared for examination under scanning electron microscopy and light microscopy. Vascularization was also studied by means of a micro-CT. In all studied species, except for the pistillate flower of Phenax sonneratii, organs of only one whorl of the perianth initiate; the variation in the merosity of the perianth (2-5) results from absence of organs from the beginning of development. The dicliny results of the absence of stamens from the beginning of development in pistillate flower, except for Pilea cadierei (stamen abortion), and pistil abortion occurs in the intermediate stages of development in the staminate flower, with the exception of Cecropia pachystachya and Coussapoa microcarpa. The pseudomonomerous gynoecium is characterized by the initiation of a carpel primordium that divided into two in Cecropia pachystachya, Coussapoa microcarpa, Laportea aestuans, Myriocarpa stipitata, Pourouma cecropiifolia, Urera baccifera and Urtica dioica; in Boehmeria cylindrica, Phenax sonneratii and Pilea cadierei apparently does not occur a division of the carpel primordium. Vascularization studies showed that in all species a vascular bundle enters the gynoecium, branching in two soon in the basal portion, one goes to the ovule and the other goes to the style and stigma; exceptions are Myriocarpa stipitata and Urtica dioica, in which two vascular bundles enter the pistil: one branches in two, one enters the ovule and the other goes to the style and stigma, and the other goes straight to the style and stigma. This second condition would be expected for a pseudomonomerous gynoecium. Pistillodium are present in the staminate flowers of Boehmeria cylindrica, Myriocarpa stipitata, Laportea aestuans, Urera baccifera and Urtica dioica (Urticaceae), Celtis iguanaea and Trema micrantha (Cannabaceae); and Morus nigra (Moraceae). rudimentary carpels were observed in Phenax sonneratii and Pilea cadierei (Urticaceae); The pistillodium, together with the sepals and stamens, forms an apparatus that acts on the mechanism of explosive release of pollen to be carried by the wind. This apparatus is here considered as a floral synorganization, without a true union between tissues, that should optimize the anemophily, so that the pollen can reache greater distances, avoiding selfpollination and guaranteeing greater genetic variability for these species
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