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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.
11

Gramíneas forrageiras como potenciais hospedeiros alternativos para o fitoplasma do enfezamento vermelho do milho / Grasses as potential alternative hosts for the maize bushy stunt phytoplasma

Haas, Isolda Cristina Ruschel 30 January 2006 (has links)
O enfezamento vermelho, causado por um fitoplasma, foi registrado no Brasil no início da década de setenta, sendo relatado como de pequena importância para a cultura do milho. A partir de meados dos anos oitenta, com a introdução dos plantios de safrinha e dos cultivos irrigados, a doença passou a ser considerada de relevância econômica. Atualmente, o enfezamento se constitui em uma das mais importantes doenças do milho, sendo, inclusive, fator limitante para produção em função da região, do híbrido escolhido e da época de plantio.Um ponto crítico no manejo da doença se refere ao escasso conhecimento sobre a sobrevivência do patógeno e do inseto vetor (Dalbulus maidis) durante a ausência da cultura do milho no campo. Este tipo de informação pode ser útil principalmente na redução do inóculo inicial do patógeno, visando um controle mais eficiente da doença. Assim sendo, o presente trabalho teve por objetivo avaliar algumas gramíneas, usadas na formação de pastagens, e espécies daninhas, que ocorrem na cultura do milho, como potenciais hospedeiros alternativos do fitoplasma e do seu vetor . Treze espécies de capins e ervas daninhas foram experimentalmente inoculadas com o fitoplasma do enfezamento vermelho do milho, através de cigarrinhas infectivas. Avaliações foram feitas com base na observação de sintomas, na detecção molecular do fitoplasma nos tecidos das plantas inoculadas e na contagem de insetos sobreviventes nestas plantas inoculadas. A detecção foi feita por duplo PCR e a identificação do fitoplasma foi realizada pela análise de RFLP, com as enzimas de restrição AluI, RsaI, KpnI e MboI. Das treze espécies testadas, o fitoplasma foi encontrado nos capins colonião (Panicum maximum), marmelada (Brachiaria plantaginea) e braquiária (Brachiaria decumbens), através da amplificação do 16S rDNA, visualizado em gel de agarose na forma de bandas. Os insetos sobreviveram nos três capins até o final do período de experimentação, revelando que os capins foram capazes de abrigar a cigarrinha. Estes resultados demonstraram a possibilidade destas espécies atuarem como potenciais hospedeiros alternativos para o patógeno e o seu vetor, em condições naturais. Estas informações poderão contribuir para novas investigações, na busca de melhor conhecimento sobre a epidemiologia da doença, principalmente quanto à sobrevivência do fitoplasma e da cigarrinha vetora. / Maize bushy stunt, caused by a phytoplasma, was reported in Brazil in the beginning of the seventies, and it was considered as not important for corn. Since the middle of the eighties decade, when the later planting practice and irrigation were adopted, the disease became relevant. Currently, maize bushy stunt represents one of the most important diseases and has caused significant losses. In some conditions the disease can limit the production, especially in relation to the region, used hybrids and crop season. A critical point to disease control is the lack of about survival of pathogen and vector, during the absence of corn crop on the field. This kind of information can be useful to promote the reduction of the initial inoculum, aiming a more efficient disease control. Thus, the objective of the present study was to evaluate some grasses and weeds species as potential alternative hosts of the maize bushy stunt phytoplasma and its vector Dalbulus maidis. Thirteen botanical species were experimentally inoculated with the phytoplasma by using infective leafhoppers. Evaluations were based upon symptom observation, molecular detection of the phytoplasma in tissue of inoculated plants and the of number of insects present in the plants. Detection was conducted by nested PCR and phytoplasma identification by RFLP analyses, using AluI, RsaI, KpnI and MboI as restriction enzymes. Phytoplasma was detected in three species, Panicum maximum, Brachiaria plantaginea and Brachiaria decumbens based on amplification of 16S rDNA, visualized as specific band in agarose gel. Insects remain on alive on the plants belonging to those three species up to the end of the assays. Thus, the present study showed the possibility of those species as potential alternative hosts to the pathogen and its vector, under natural conditions. The results can contribute for new investigations, in order to understanding the epidemiology of the disease, especially in relation to phytoplasma and vector survival.
12

Impact of raspberry bushy dwarf virus, raspberry leaf mottle virus, and raspberry latent virus on plant growth and fruit crumbliness in red raspberry (Rubus idaeus L.) 'Meeker'

Quito-Avila, Diego F. 21 November 2011 (has links)
The United States is the third-largest producer of raspberries in the world. Washington State leads the nation in red raspberry (Rubus idaeus L.) production. 'Meeker', the most grown red raspberry cultivar in the Pacific Northwest (Washington, Oregon and British Columbia, Canada) is highly susceptible to Raspberry crumbly fruit, a virusinduced disease that produces drupelet abortion and reduces fruit quality and yield. The disease has long been attributed to Raspberry bushy dwarf virus (RBDV), a pollen-and-seed transmitted virus found in most commercial raspberry fields around the world. In recent years, an increased severity of crumbly fruit was observed in areas where two additional viruses were common. One of these viruses, Raspberry leaf mottle virus (RLMV), was characterized recently and shown to be a novel closterovirus transmitted by the large raspberry aphid Amphorophora agathonica Hottes. The second virus, Raspberry latent virus (RpLV) was a tentative member of the family Reoviridae whose characterization remained to be completed. To investigate the role of these two new viruses in the crumbly fruit disorder, 'Meeker' raspberry infected with single or mixtures of the three viruses, in all possible combinations, were generated by graft inoculation. Eight treatments, including a virus free control, were planted in the field at the Northwestern Research and Extension Center in Mt. Vernon, WA. Plant growth and fruit crumbliness were evaluated during establishment and the second year. Simultaneously, the characterization of RpLV, at the genetic and biological level, was completed. RpLV is a novel member of the plant Reoviridae composed of 26,128 nucleotides divided into 10 genomic dsRNA segments. Analysis of the RNA dependent RNA polymerase (RdRP) indicated that RpLV was related most closely to members of the genus Oryzavirus. However, the genomic terminal regions, conserved at the genus level in reoviruses, did not show homology to those of oryzaviruses, suggesting that RpLV may be a member of a new genus. It was found later, that RpLV was transmitted by A. agathonica. As all other plant reoviruses are transmitted by leaf- and planthoppers, these findings strongly support the creation of a new genus in the plant Reoviridae for the classification of RpLV. Real-time quantification of viral titers in single or mixed infections revealed that the titer of RBDV was enhanced ~400-fold when the virus was found in coinfections with RLMV. Interestingly, plants co-infected with these two viruses showed significant reduction in plant growth during the establishment and second year. Crumbly fruit was more severe in plants infected with the three viruses compared to the virus-free control. Taken together, this work presents valuable information about the interactions between three important raspberry viruses and their effect on plant growth and fruit crumbliness in 'Meeker', the most important red raspberry cultivar in the Pacific Northwest. / Graduation date: 2012
13

Characterization of peroxisomal multivesicular body morphology and the role of host-cell and viral components in their biogenesis in plant and yeast cells

Gibson, Kimberley 21 December 2009 (has links)
Peroxisome biogenesis is complex, involving a diverse array of intracellular pathways and mechanisms that mediate their biogenesis and cellular functions. Relevant to our understanding of peroxisome biogenesis is the utilization of peroxisomal membranes for viral genome replication as observed in plant cells infected by several members of the Tombusviridae family of positive-strand RNA viruses. Tomato Bushy Stunt Virus (TBSV), for instance, usurps an array of host factors that facilitate the transformation of peroxisomes into peroxisomal multivesicular bodies (pMVB) the sites of viral RNA replication. In this study, pMVB topology and biogenesis was investigated using transmission electron and epifluorescence microscopy of tobacco and wildtype or mutant budding yeast that were transformed with TBSV replicase proteins and a defective interfering viral RNA. Overall, the results suggest that host-virus interactions specifically associated with Endosomal Sorting Complex Required for Transport (ESCRT) and lipid metabolism are involved in TBSV replication and pMVB biogenesis.
14

Gramíneas forrageiras como potenciais hospedeiros alternativos para o fitoplasma do enfezamento vermelho do milho / Grasses as potential alternative hosts for the maize bushy stunt phytoplasma

Isolda Cristina Ruschel Haas 30 January 2006 (has links)
O enfezamento vermelho, causado por um fitoplasma, foi registrado no Brasil no início da década de setenta, sendo relatado como de pequena importância para a cultura do milho. A partir de meados dos anos oitenta, com a introdução dos plantios de safrinha e dos cultivos irrigados, a doença passou a ser considerada de relevância econômica. Atualmente, o enfezamento se constitui em uma das mais importantes doenças do milho, sendo, inclusive, fator limitante para produção em função da região, do híbrido escolhido e da época de plantio.Um ponto crítico no manejo da doença se refere ao escasso conhecimento sobre a sobrevivência do patógeno e do inseto vetor (Dalbulus maidis) durante a ausência da cultura do milho no campo. Este tipo de informação pode ser útil principalmente na redução do inóculo inicial do patógeno, visando um controle mais eficiente da doença. Assim sendo, o presente trabalho teve por objetivo avaliar algumas gramíneas, usadas na formação de pastagens, e espécies daninhas, que ocorrem na cultura do milho, como potenciais hospedeiros alternativos do fitoplasma e do seu vetor . Treze espécies de capins e ervas daninhas foram experimentalmente inoculadas com o fitoplasma do enfezamento vermelho do milho, através de cigarrinhas infectivas. Avaliações foram feitas com base na observação de sintomas, na detecção molecular do fitoplasma nos tecidos das plantas inoculadas e na contagem de insetos sobreviventes nestas plantas inoculadas. A detecção foi feita por duplo PCR e a identificação do fitoplasma foi realizada pela análise de RFLP, com as enzimas de restrição AluI, RsaI, KpnI e MboI. Das treze espécies testadas, o fitoplasma foi encontrado nos capins colonião (Panicum maximum), marmelada (Brachiaria plantaginea) e braquiária (Brachiaria decumbens), através da amplificação do 16S rDNA, visualizado em gel de agarose na forma de bandas. Os insetos sobreviveram nos três capins até o final do período de experimentação, revelando que os capins foram capazes de abrigar a cigarrinha. Estes resultados demonstraram a possibilidade destas espécies atuarem como potenciais hospedeiros alternativos para o patógeno e o seu vetor, em condições naturais. Estas informações poderão contribuir para novas investigações, na busca de melhor conhecimento sobre a epidemiologia da doença, principalmente quanto à sobrevivência do fitoplasma e da cigarrinha vetora. / Maize bushy stunt, caused by a phytoplasma, was reported in Brazil in the beginning of the seventies, and it was considered as not important for corn. Since the middle of the eighties decade, when the later planting practice and irrigation were adopted, the disease became relevant. Currently, maize bushy stunt represents one of the most important diseases and has caused significant losses. In some conditions the disease can limit the production, especially in relation to the region, used hybrids and crop season. A critical point to disease control is the lack of about survival of pathogen and vector, during the absence of corn crop on the field. This kind of information can be useful to promote the reduction of the initial inoculum, aiming a more efficient disease control. Thus, the objective of the present study was to evaluate some grasses and weeds species as potential alternative hosts of the maize bushy stunt phytoplasma and its vector Dalbulus maidis. Thirteen botanical species were experimentally inoculated with the phytoplasma by using infective leafhoppers. Evaluations were based upon symptom observation, molecular detection of the phytoplasma in tissue of inoculated plants and the of number of insects present in the plants. Detection was conducted by nested PCR and phytoplasma identification by RFLP analyses, using AluI, RsaI, KpnI and MboI as restriction enzymes. Phytoplasma was detected in three species, Panicum maximum, Brachiaria plantaginea and Brachiaria decumbens based on amplification of 16S rDNA, visualized as specific band in agarose gel. Insects remain on alive on the plants belonging to those three species up to the end of the assays. Thus, the present study showed the possibility of those species as potential alternative hosts to the pathogen and its vector, under natural conditions. The results can contribute for new investigations, in order to understanding the epidemiology of the disease, especially in relation to phytoplasma and vector survival.
15

François Bordes (1919-1981) et la construction de la Préhistoire dans la seconde moitié du XXe siècle / François Bordes (1919-1981) and the construction of Prehistory in the second half of the 20th century.

Loiseau, Jean-Patrick 05 December 2014 (has links)
F. Bordes marque de son empreinte la construction de la préhistoire dans la seconde moitié du XXe siècle. Une analyse thématique de son oeuvre en trois parties permet de mettre en lumière ses principaux aspects.Une première partie, intitulée « Une approche normative », est consacrée à la démarche de F. Bordes qui est caractérisée par un renouvellement méthodologique. Une seconde partie, au titre de « Les industries lithiques comme fil d’Ariane », est consacrée aux interprétations de F. Bordes concernant l’évolution des cultures préhistoriques et à ses recherches pour reconstituer la vie quotidienne matérielle au Paléolithique. Une troisième partie, « La construction d’une école de pensée », aborde la place particulière de F. Bordes au sein de la communauté des préhistoriens. Enfin, F. Bordes est également Francis Carsac, un auteur de science-fiction, dont l’étude des récits permet de donner un éclairage complémentaire sur ses préoccupations. En conclusion de cette thèse, un regard est porté ce qu’il reste de sa contribution scientifique. / F. Bordes brand of its print the construction of Prehistory in second half of the 20 th century. An analysis set of themes of its work in three parts makes it possible to clarify its principal aspects. A first part, entitled “a normative approach” is devoted to the approach of F. Bordes which is characterized by a methodological renewal. A second part, entitled ”lithic industries like wire of Ariane”, is devoted to interpretations of F. Border concerning the evolution of the prehistoric cultures and with its research to reconstitute the material daily life during the Paleolithic. A third part, “the construction of a school of thought”, analyses the particular place of F. Border within the community of the prehistorians. F. Bordes is also Francis Carsac, a science fiction writer, whose stories study makes it possible to provide supplementary illumination on its concerns. In conclusion of this thesis, a look is carried what it remains of his scientific contribution.
16

Canopy Architecture and Plant Density Effect in Short-Season Chickpea (Cicer arietinum L.)

Vanderpuye, Archibald W. 22 September 2010
Chickpea (Cicer arietinum L.) production on the semi-arid Canadian Prairies is challenging due to a short growing season and low and variable moisture. The current recommended chickpea population density of 44 plants m-2 is based on preliminary studies and a narrow range of 20 to 50 plants m-2. The aims of this study were to i) determine optimum population density of varying chickpea canopy types, i.e., leaf type and growth habit, by investigating seed yield responses at 30 to 85 plants m-2 and ii) identify desirable parental traits for breeding programs by assessing growth and yield parameter responses to varying leaf types and growth habits at a range of population densities. Field experiments were conducted from 2002 to 2005. Canopy measurements and calculated variables included light interception, biomass, growth rate, seed yield, harvest index, ascochyta blight severity and radiation- and water use efficiencies. The plant density which produced the highest seed yield when averaged over years for each location for each treatment revealed that a plant density of at least 55 plants m-2 produced a 23% to 49% seed yield increase above that of the currently recommended plant density. This indicates that a higher seed yield average over the long term in spite of periodic low seed yield episodes will be more profitable to producers. Increasing plant density increased lowest pod height significantly in all except one location-year but did not explicitly increase ascochyta blight severity or decrease individual seed size. This suggests that increasing the recommended chickpea plant density on the Canadian Prairies will increase seed yield but would neither negatively impact individual seed size nor ascochyta blight severity, especially, when combined with good agronomic practices. Fern-leaved cultivars had significantly higher maximum intercepted light (62 to 91%), seed yield (136 to 369 g m-2), harvest index (0.33 to 0.53), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and lower ascochyta blight severity (3 to 27%) than the unifoliate cultivars in all location-years. The fern-leaved cultivars also tended to show significantly higher cumulative intercepted radiation (221 to 419 MJ m-2) and biomass (306 to 824 g m-2) but leaf type showed no consistent effect on radiation use efficiency. Cultivars with bushy growth habit generally performed better regarding maximum intercepted light (62 to 90%), cumulative intercepted radiation (233 to 421 MJ m-2), biomass (314 to 854 MJ m-2), seed yield (120 to 370 g m-2), harvest index (0.37 to 0.50), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and ascochyta blight severity (7 to 36%) than the erect cultivars. The overall performance of the spreading cultivar was generally intermediate between the bushy and erect cultivars except for ascochyta blight severity where the spreading cultivar exhibited significantly lower disease severity (3 to 36%). Radiation use efficiency was generally not influenced by growth habit. Increasing plant population density generally increased intercepted light, biomass and cumulative intercepted radiation on each sampling day after seeding resulting in a general increase in seed yield. Harvest index, however, remained constant and ascochyta blight severity was generally stable but radiation use efficiency decreased with increasing population density. Chickpea cultivars with fern leaves and bushy growth habit at higher than currently recommended population densities would best utilize the limited resources of the short-season Canadian prairie environment to maximize and stabilize seed yield.
17

Canopy Architecture and Plant Density Effect in Short-Season Chickpea (Cicer arietinum L.)

Vanderpuye, Archibald W. 22 September 2010 (has links)
Chickpea (Cicer arietinum L.) production on the semi-arid Canadian Prairies is challenging due to a short growing season and low and variable moisture. The current recommended chickpea population density of 44 plants m-2 is based on preliminary studies and a narrow range of 20 to 50 plants m-2. The aims of this study were to i) determine optimum population density of varying chickpea canopy types, i.e., leaf type and growth habit, by investigating seed yield responses at 30 to 85 plants m-2 and ii) identify desirable parental traits for breeding programs by assessing growth and yield parameter responses to varying leaf types and growth habits at a range of population densities. Field experiments were conducted from 2002 to 2005. Canopy measurements and calculated variables included light interception, biomass, growth rate, seed yield, harvest index, ascochyta blight severity and radiation- and water use efficiencies. The plant density which produced the highest seed yield when averaged over years for each location for each treatment revealed that a plant density of at least 55 plants m-2 produced a 23% to 49% seed yield increase above that of the currently recommended plant density. This indicates that a higher seed yield average over the long term in spite of periodic low seed yield episodes will be more profitable to producers. Increasing plant density increased lowest pod height significantly in all except one location-year but did not explicitly increase ascochyta blight severity or decrease individual seed size. This suggests that increasing the recommended chickpea plant density on the Canadian Prairies will increase seed yield but would neither negatively impact individual seed size nor ascochyta blight severity, especially, when combined with good agronomic practices. Fern-leaved cultivars had significantly higher maximum intercepted light (62 to 91%), seed yield (136 to 369 g m-2), harvest index (0.33 to 0.53), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and lower ascochyta blight severity (3 to 27%) than the unifoliate cultivars in all location-years. The fern-leaved cultivars also tended to show significantly higher cumulative intercepted radiation (221 to 419 MJ m-2) and biomass (306 to 824 g m-2) but leaf type showed no consistent effect on radiation use efficiency. Cultivars with bushy growth habit generally performed better regarding maximum intercepted light (62 to 90%), cumulative intercepted radiation (233 to 421 MJ m-2), biomass (314 to 854 MJ m-2), seed yield (120 to 370 g m-2), harvest index (0.37 to 0.50), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and ascochyta blight severity (7 to 36%) than the erect cultivars. The overall performance of the spreading cultivar was generally intermediate between the bushy and erect cultivars except for ascochyta blight severity where the spreading cultivar exhibited significantly lower disease severity (3 to 36%). Radiation use efficiency was generally not influenced by growth habit. Increasing plant population density generally increased intercepted light, biomass and cumulative intercepted radiation on each sampling day after seeding resulting in a general increase in seed yield. Harvest index, however, remained constant and ascochyta blight severity was generally stable but radiation use efficiency decreased with increasing population density. Chickpea cultivars with fern leaves and bushy growth habit at higher than currently recommended population densities would best utilize the limited resources of the short-season Canadian prairie environment to maximize and stabilize seed yield.

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