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Mineralização de fósforo do adubo verde e sua absorção por plantas de arroz / Mineralization of green manure phosphorus and its absorption by rice plantsTatiana Marsola 14 March 2008 (has links)
Em sistemas de plantio direto, o material vegetal incorporado libera fósforo solúvel no solo, porém, sua absorção por plantas subseqüentes ainda é pouco conhecida. Parte do fósforo nos tecidos vegetais está na forma de compostos insolúveis, que precisam ser mineralizados para serem absorvidos pelas plantas. Os objetivos deste trabalho foram estabelecer a melhor época de aplicação de 32P para marcação de plantas de adubo verde; determinar as formas de P nas plantas; determinar as principais formas de fósforo no solo após a incorporação de diferentes espécies de adubo verde; estimar a eficiência dos adubos verdes no fornecimento de P para plantas de arroz, e determinar a relação entre as formas de P nas plantas de adubo verde e sua mineralização no solo. Os experimentos foram conduzidos em duas etapas. Na Etapa 1 foram marcadas com 32P plantas de aveia-preta, milheto e nabo forrageiro na semeadura e aos 14, 28 e 42 dias. Estas plantas foram incubadas e utilizadas como adubo verde no cultivo de arroz. As plantas de arroz apresentaram eficiência de utilização de P semelhantes para adubos verdes marcados até 28 dias, podendo ser utilizada uma atividade 75% menor para marcação dessas espécies. Na etapa 2 foram cultivadas plantas de aveia-preta, crotalária e nabo forrageiro marcadas com 32P aos 14 dias. Foi verificado que a maioria do P nas plantas está na forma solúvel, correspondendo em média 67% do 32Pt. Essas plantas foram incubadas por 20, 40 e 60 dias e cultivadas plantas de arroz. A eficiência de utilização do P proveniente de adubo verde foi maior para incubação por 20 e 60 dias, diminuindo consideravelmente para incubação por 40 dias. Foram determinadas as frações de P no solo incubado com adubo verde nos diferentes períodos de incubação, utilizando o método de Hedley. A fração Pi-resina e P-NaHCO3, que correspondem ao P-lábil, apresentaram as maiores atividades específicas, demonstrando que a maior parte do P solúvel do adubo verde são encontrados nessas frações. A fração Po-NaOH apresentou as maiores concentrações de P, enquanto as menores foram encontradas na fração P-HCl / In no-tillage systems, plant materials incorporated into soil release soluble phosphorus, but its absorption by subsequent plants is not completely clarified. A fraction of phosphorus in vegetal tissues is in the form of insoluble species, which require mineralization to be absorbed by plants. The aims of this work were to establish the best period for 32P application for green manure labeling; to determine the forms of P in plants and in soil after incorporation of different green manures; to estimate the efficiency of green manures for supplying phosphorus to rice plants and to determine the relationship between the P species in green manure and their mineralization in soil. The experiments were carried out in two steps. In the first, plants of black oat, millet and turnip were labeled with 32P at sowing and after 14, 28 and 42 days. These plants were incubated and used as green manure for rice plants. The rice plants showed similar utilization efficiencies of P form green manure plants labeled up to 28 days, making possible the use of a 75% lower activity to label these plants. In step two, black oat, sunnyhemp and turnip plants labeled with 32P after 14 days from sowing were grown. It was verified that the more significant fraction of P in plants is in the soluble form, corresponding in average 67% of 32Pt. These plants were incubated for 20, 40 and 60 days before culturing rice plants. The utilization efficiency of P from green manure sources was higher when the material was incubated for 20 and 60 days, being considerably reduced for 40 days incubation. The P-fractions in the soil incubated with green manure in different periods were determined by the Hedley method. The Pi-resin and P-NaHCO3 fractions, which correspond to labile P, showed the highest specific activities, because the most significant part of the soluble P was found in these fractions. The Po-NaOH fraction showed the highest concentrations of P, while the lowest amounts were in the P-HCl fraction
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Réponse d’Arabidopsis thaliana au Turnip mosaic virus (TuMV) en conditions extérieures et en conditions contrôlées : phénotypage fin de traits de maladie et métaboliques et architecture génétique associée / Arabidopsis thaliana – Turnip mosaic virus (TuMV) interaction in common garden and controlled conditions experiments : disease and metabolic traits phenotyping and genetic architectureRubio, Bernadette 20 December 2017 (has links)
Les plantes sont des organismes immobiles qui doivent répondre et s’adapter à des contraintes abiotiques et biotiques. Parmi les stress biotiques, les maladies virales, établies ou émergentes, peuvent être responsables de pertes de rendement majeures aux conséquences économiques importantes. Face aux phytovirus la lutte génétique constitue le moyen de lutte le plus efficace, le plus respectueux de l’environnement et du consommateur. Comprendre l’interaction entre les plantes et les virus reste indispensable pour rechercher de nouvelles sources de résistances. Ce travail de thèse s’intéresse à l’étude du pathosystème naturel Arabidopis thaliana/Turnip mosaic virus (TuMV). Les essais ont été menés majoritairement en conditions extérieures permettant une analyse de l’interaction dans un environnement multistress. La réponse d’A. thaliana a été explorée par l’étude de traits liés à la maladie et par la variation en métabolites primaires et secondaires. Ce travail a permis i) de caractériser de façon fine la réponse d’A. thaliana au TuMV en conditionsmultistress en exploitant la diversité naturelle d’une population mondiale et française ii) de déterminer l’architecture génétique de cette interaction par des approches de génétique d’association et de QTL mapping. Plusieurs nouveaux loci potentiellement impliqués dans la réponse ont été identifiés iii) de montrer l’intérêt du phénotypage métabolique pour discriminer les accessions en fonction de leur sensibilité au TuMV. La multidisciplinarité des approches constitue la richesse de ce travail de thèse qui contribue à une meilleure caractérisation et compréhension de la réponse des plantes lors d’une infection virale. / Plants are immobile organisms which have to adapt to abiotic and biotic constraints. Among bioticstress, established or emerging viral diseases, may be responsible for major yield losses withsignificant consequences. Genetic control is the most effective, environmentally and consumerfriendlyway to control viral infections. Understanding plant/virus interactions remains essential tosearch for new sources of resistance. This work, focuses on the study of the natural pathosystemArabidopsis thaliana/Turnip mosaic virus (TuMV). Most of the trials were conducted in commongarden conditions allowing the analysis of the interaction in a multistress environment. A. thaliana’sresponse was explored through the study of disease-related traits and the variations in primary andsecondary metabolites. This work allows i) the fine characterization of A. thaliana’s response toTuMV in multistress conditions through the exploration of the natural diversity of a world and Frenchpopulation ii) to determine the genetic architecture of this interaction by genome wide associationsand QTL mapping. Several new loci potentially involved in the response have been identified iii) tohighlight the interest of metabolic phenotyping to discriminate accessions according to theirsusceptibility to TuMV. The multidisciplinary approaches contribute to a better characterization andunderstanding of plant-virus interaction.
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Regulierung von Rapsschädlingen im ökologischen Winterrapsanbau durch den Mischanbau mit Rübsen (Brassica rapa L. var. silvestris (Lam.) Briggs) sowie den Einsatz naturstofflicher PflanzenschutzmittelLudwig, Tobias 11 June 2013 (has links)
An drei Standorten wurde die schädlingsregulierende Wirkung einer Raps-Rübsen-Mischsaat (Verhältnis 9:1) gegenüber einer Raps-Reinsaat bewertet. Des Weiteren wurden naturstoffliche und nach § 6a PflSchG selbst hergestellte Pflanzenschutzmittel als auch eine Käfersammelmaschine zur Regulierung der Stängelrüssler (Ceutorhynchus spp.) und des Rapsglanzkäfers (Meligethes aeneus F.) in Labor- und Freilandversuchen angewandt. In der Mischsaat war die Schaderregerabundanz gegenüber der Reinsaat zumeist erhöht. Diese führte zu einem teils signifikant stärkeren Schaderregerbefall der Rapspflanzen in der Mischsaat. Die Mischsaat erbrachte zudem einen teils signifikant geringeren Kornertrag. Natur-Pyrethrum und Spinosad führten im Labor zu deutlich erhöhten Mortalitäten bei den Stängelrüsslern. Im Freiland war kein Effekt erkennbar. Bei der Regulierung der Rapsglanzkäfer wies Spinosad in Feld- und Laborversuchen Wirkungsgrade bis zu 100 % auf. Gespritztes Gesteinsmehl und SiO2 zeigten einen nur geringen Effekt. Für die gleichmäßige Benetzung der Pflanzen mit diesen Präparaten kommt der Formulierung der Pflanzenschutzbrühe und der wiederholten Applikation eine hohe Bedeutung zu. Ökonomisch sind mehrfache Applikationen jedoch abzulehnen. Gestäubtes Gesteinsmehl und die Käfersammelmaschine sind aus Praktikabilitätsgründen nicht geeignet zur Regulierung der Rapsglanzkäfer. Ebenso wenig geeignet sind Quassin, Azadirachtin oder ein Bacillus thuringiensis-Präparat (B.t.t.). Mit Ausnahme einer Spinosad Applikation erzielte keine Pflanzenschutzmaßnahme einen wirtschaftlichen Mehrertrag. Stickstoffmangel und Unkrautkonkurrenz scheinen im ökologischen Rapsanbau häufig stärker auf die Limitierung der Kornerträge zu wirken als ein leichter bis mittlerer Schädlingsbefall. Je besser die Nährstoffversorgung und je geringer die Unkrautkonkurrenz, desto eher kann durch Pflanzenschutz ein wirtschaftlicher Mehrertrag realisiert werden. Die nötigen Pflanzenschutzkonzepte fehlen jedoch weiterhin. / On three sites the pest-regulating effect of a rape-turnip rape mixed cropping system (ratio 9:1) in comparison to rape in pure stand was assessed. Further, natural and self-produced natural insecticide solutions (§ 6a Plant Protection Act) and a beetle collecting machine to regulate the stem weevils (Ceutorhynchus spp.) and the pollen beetles (Meligethes aeneus F.) were applied in laboratory and field experiments. Compared to the fields in pure stand the mixed crop showed a significantly greater abundance of pests. This resulted in a sometimes significantly greater pest infestation of the rape plants in the mixed crop. Furthermore, the mixed crop often had a significantly lower grain yield. The use of natural pyrethrum and Spinosad resulted in significantly higher mortality rates of the stem weevils in laboratory tests. Under field conditions no effect could be detected. In the regulation of the pollen beetles, Spinosad demonstrated under field and laboratory conditions efficiencies of up to 100 %. Sprayed mineral powder or SiO2 had only a slight effect. For a uniform wetting of the plants with these compounds the formulation of the phytosanitary broth and its repeated application are important factors. From an economic perspective, however, repeated applications are inefficient. For reasons of practicality rock-dusted flour and the beetle-collecting machine are not suitable for pollen beetle regulation. Quassin is just as inappropriate as Azadirachtin, or Bacillus thuringiensis (B.t.t.) for the regulation of the pollen beetle. With the exception of one Spinosad application, no protection measure provided an economic surplus. Nitrogen deficiency and weeds seem to more frequently limit grain yield than slight to moderate pest infestation levels. The better the nutrient supply and the lower the weed competition, the more likely by crop protection can be realized an economic surplus. Adequate crop protection strategies, however, have not yet been developed.
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Isolation, molecular characterisation and chromosomal location of repetitive DNA sequences in Brassica / Isolierung, molekulare Charakterisierung und chromosomale Lokalisierung von repetitiven DNA Sequenzen in BrassicaGalvao Bezerra dos Santos, Karla 18 November 2004 (has links)
No description available.
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Introgression of genes from rape to wild turnipJenkins, Toni E. January 2005 (has links)
Introgression of genes from crops into ruderal populations is a multi-step process requiring sympatry, synchronous flowering, chromosomal compatibility, successful pollination and development of the zygote, germination, establishment and reproduction of hybrid progeny. The goal of this thesis was to generate data on as many steps in this process as possible and integrate them into a predictive statistical model to estimate the likelihood of successful introgression under a range of scenarios. Rape (Brassica napus) and wild turnip (B. rapa var. oleifera) were used as a model system. A homozygous dominant mutation in the rape genome conferring herbicide resistance provided a convenient marker for the study of introgression. Potential differences between wild turnip populations from a wide range of geographic locations in New Zealand were examined. Hand pollination established the genetic compatibility of rape and wild turnip and a high potential for gene introgression from rape to wild turnip. Interspecific hybrids were easily generated using wild turnip as the maternal plant, with some minor differences between wild turnip populations. The frequency of successful hybridisation between the two species was higher on the lower raceme. However, the upper raceme produced more dormant interspecific hybrid seed. Field trials, designed to imitate rare rape crop escapes into the ruderal environment, examined the ability of rare rape plants to pollinate wild turnip plants over four summers. At a ratio of 1 rape plant for every 400 wild turnip plants, the incidence of interspecific hybridisation was consistently low (<0.1 to 2.1 % of total seed on wild turnip plants). There was a significant year effect with the first season producing significantly more seed and a greater frequency of interspecific hybrid progeny than the other years. The frequency of interspecific hybrid progeny increases when the ratio of rape: wild turnip plant numbers increases. The relative importance of anemophily and entomophily in the production of interspecific hybrids was examined. Wild turnip plants produced twice as many seeds with bee pollination relative to wind pollination. However, the frequency of interspecific hybrids under wind pollination was nearly twice that for bee pollination. Light reflectance patterns under UV light revealed a marked difference between wild turnip and rape flowers compared to near identical appearance under visible light. The data indicates that bees are able to distinguish between rape and wild turnip flowers and exhibit floral constancy when foraging among populations with these two species. Hybrid survival in the seed bank, germination and seedling establishment in the field are important components of fitness. Seed banks established in the soil after the field trials described above germinated in subsequent spring seasons. The predominantly brassica weed populations were screened for herbicide resistance and the numbers of interspecific hybrids germinating compared to the original frequency in the field trial results. Frequency of interspecific hybrids was reduced in the populations compared to the original seed deposit. Seed with a known frequency of interspecific hybrid seed was sown in a separate trial, and the frequency of interspecific hybrids compared at 0, 4, 6, and 8 weeks after sowing. Poor germination resulted limited competition between seedlings, however the frequency of interspecific hybrids declined over time indicating low plant fitness. There were no significant population effects on any parameters tested. Interspecific hybrids grown in a glasshouse were backcrossed to the parental species and selfed within the plant and within populations. Pollen from the interspecific hybrids was found to have markedly reduced fertility. Interspecific hybrid plants had low female fertility, with the majority (88%) of the pollinated flowers aborting the siliques. Of the remaining siliques, most (98%) had only one to three seeds per silique. Inheritance of the herbicide resistance gene was regular in backcrosses but highly skewed following self pollination with an excess of herbicide-sensitive progeny. Production of a stochastic predictive model integrated the information acquired over the practical work phase of this thesis and utilised the capabilities of @risk, a new application of a risk analysis tool. The three outputs examined were the number of flowering plants resulting from backcrosses to rape and wild turnip and self pollination of the interspecific hybrid progeny. Five scenarios were modelled and all demonstrated the high likelihood of introgression failure in this system. In all scenarios, >75% of simulations resulted in no interspecific hybrid progeny surviving to flowering in the third generation. In all scenarios, and for all three outputs, the seed set on the interspecific hybrids of the second generation was the major factor that limited the number interspecific hybrid progeny surviving to flowering in the third generation.
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