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Caracterização de bactérias diazotróficas assimbióticas cultiváveis associadas à filosfera e serapilheira de espécies arbóreas da floresta Amazônica / Characterization of culturable asymbiotic diazotrophic bacteria associated with the phyllosphere and litter of tree species of the Amazon forestSilva, Bianca Machado 10 July 2018 (has links)
Grandes esforços têm sido empreendidos para preservar recursos naturais e desenvolver sistemas de produção agrícola mais sustentáveis, reduzindo o uso de fertilizantes. Uma das alternativas ao uso de fertilizantes nitrogenados na agricultura são os inoculantes com bactérias diazotróficas. Os micro-organismos diazotróficos mais estudados para produção de inoculantes são os simbiontes noduladores de leguminosas. Para outros grupos de plantas, os diazotróficos mais utilizados são assimbióticos. Estudos conduzidos na Mata Atlântica e na Amazônia tem mostrado que a fixação biológica de nitrogêncio (FBN) assimbiótica associada a filosfera pode contribuir com aportes de N significativos, e que esses biomas podem abrigar uma grande diversidade de bactérias diazotróficas, sendo ambientes apropriados para prospectar diazotróficos eficientes para o uso na agricultura. O objetivo deste trabalho foi isolar novos genótipos de bactérias diazotróficas assimbióticas da filosfera e serapilheira de espécies arbóreas da floresta Amazônica, e estimar suas taxas de FBN e de síntese de ácido indolacético in vitro, bem como identificar taxonomicamente os isolados considerados mais promissores para uso biotecnológico. Bactérias diazotróficas de vida-livre foram isoladas da filosfera e serapilheira de três espécies arbóreas (Rinorea pubiflora, Amphirrhox longifolia e Chamaecrista xinguensis), e cultivadas em meio isento de N. Um total de 86 isolados foram obtidos. A taxa de fixação de nitrogênio foi estimada para todos os isolados, através do ensaio de redução de acetileno (ARA), pelo complexo nitrogenase. Para todos os isolados, também foi determinada a taxa de produção de ácido indolacético (AIA), na presença de L-triptofano. Os dados obtidos foram submetidos à análise de variância e as médias comparadas pelo teste de Scott-Knott e pelo teste de Duncan (p<0,05), através do software estatístico R. Os isolados que apresentaram as maiores taxas de redução de acetileno e de síntese de AIA foram identificados através do sequenciamento parcial do gene rRNA 16S. Cerca de 84,8% dos isolados apresentaram atividade de nitrogenase in vitro, e o teste estatístico desmonstrou não haver diferenças significativas entre as taxas de redução de acetileno entre os isolados, exceto o isolado 10RF, o qual apresentou uma taxa de redução de acetileno maior do que a dos demais isolados (p<0,05). Todos os isolados produziram AIA in vitro, e houve diferenças significativas na síntese de AIA entre os isolados, e quanto origem dos mesmos. Isolados bacterianos de Amphirrox longifolia sintetizaram mais AIA in vitro, em comparação aos isolados das outras duas espécies arbóreas. Cerca de 22% dos isolados apresentaram taxas de fixação de nitrogêncio maiores que 0.025ng N μg-1 h-1, e 20% dos isolados produziram mais de 21,87 μg/mL-1 de AIA. 21 isolados, considerados promissores para uso agrícola (fixadores de N e produtores de AIA), foram identificados através do sequenciamento do gene rRNA 16S, e afiliados aos gêneros Pseudomonas, Bacillus, Burkholderia, Citrobacter, Rhizobium e Stenotrophomonas. Aproximadamente 71 % dos isolados considerados promissores para promoverem o crescimento de plantas foram isolados da filosfera, indicando ser este um ambiente propício à prospecção de bactérias diazotróficas promotoras de crescimento de plantas. / Great efforts have been made to preserve natural resources and develop more sustainable agricultural production systems, reducing the use of fertilizers. One of the alternatives to the use of nitrogen fertilizers in agriculture is the use of inoculants with diazotrophic bacteria. The most studied diazotrophic microorganisms for the production of inoculants are nodule-forming symbionts of legumes. For other groups of plants, the most used diazotrophs are asymbiotic. Several studies in the Atlantic and Amazon forests have shown that the biological nitrogen fixation (BNF) associated with the phyllosphere may contribute with significant N inputs, and that these biomes can harbor a great diversity of diazotrophic bacteria, making them important environments for the prospection of efficient diazotrophs for agricultural use. The objective of this work was to isolate new genotypes of asymbiotic diazotrophic bacteria from the phyllosphere and litter of tree species of the Amazon forest, and to estimate their rates of BNF and indoleacetic acid biosynthesis in vitro, as well as to identify taxonomically the most promising isolates for biotechnological use. Asymbiotic diazotrophic bacteria were isolated from the phyllosphere and litter of three tree species (Rinorea pubiflora, Amphirrhox longifolia and Chamaecrista xinguensis), and cultivated in N-free medium. A total of 86 isolates were obtained. The nitrogen fixation rate was estimated for all isolates measuring the nitrogenase activity by the acetylene reduction assay (ARA). The rates of indoleacetic acid (IAA) production in the presence of L-tryptophan was also determined for all isolates. The data obtained were submitted to analysis of variance and the means were compared by the Scott-Knott test and the Duncan test (p<0.05) using the statistical software R. The isolates showing the highest rates of acetylene reduction and IAA biosynthesis were identified through the partial sequencing of the 16S rRNA gene. Approximately 84.8% of the isolates were positive for nitrogenase activity in vitro, and the statistical analyses showed that there were no significant differences between the acetylene reduction rates among the isolates, except the isolate 10RF, which showed a higher acetylene reduction rate than the other isolates (p<0.05). All isolates produced IAA in vitro, and there were significant differences in the biosynthesis rates among the isolates, as well as regarding the origin of the isolate. Bacterial isolates from Amphirrox longifolia synthesized higher amounts of IAA in vitro as compared to the isolates from the other two tree species. Approximately 22% of the isolates showed nitrogen fixation rates greater than 0.025 ng N μg-1 h-1, and 20% of the isolates produced more than 21.87 μg mL-1 of IAA. 21 isolates, considered promising for agricultural use (N-fixers and IAA producers), were identified by sequencing the 16S rRNA gene, and affiliated to the genera Pseudomonas, Bacillus, Burkholderia, Citrobacter, Rhizobium and Stenotrophomonas. Approximately 71% of the isolates considered promising to promote plant growth were isolated from the phyllosphere, suggesting that this environment is propitious to the prospection of diazotrophic plant growth promoting bacteria.
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GENERATIVNÍ MNOŽENÍ TERESTRICKÝCH ORCHIDEJÍ METODOU IN VITRO / GENERATIVE PROPAGATION OF SELECTED TERRESTRIALS ORCHIDS OF METHOD IN VITROKYNCL, Jiří January 2012 (has links)
We studied asymbiotic and symbiotic propagation of terrestrial orchids. There wasn´t found statistical effect of organic nitrogen in the form of pepton for examined species of orchid in the asymbiotic propagation. There wasn?t confirmed the positive effect of microelements and addition of carbohydrates (sucrose, glukose and maltose) on the germination of Habenaria dentata. Effects of various iron salts weren´t striking to stimulate seed of Cypripedium calceolus. The effect of different isolates of mycorrhizal fungi in the symbiotic propagation wasn´t statistically proven on investigated species of orchids. The effect of examined substrates (Akadama, volcanic sand and substrate Lukscheiter Orchid) wasn´t statistically confirmed on growth of species Spiranthes odorata and Bletilla striata, when seedling of them were moved to ex vitro conditions.
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Caracterização de bactérias diazotróficas assimbióticas cultiváveis associadas à filosfera e serapilheira de espécies arbóreas da floresta Amazônica / Characterization of culturable asymbiotic diazotrophic bacteria associated with the phyllosphere and litter of tree species of the Amazon forestBianca Machado Silva 10 July 2018 (has links)
Grandes esforços têm sido empreendidos para preservar recursos naturais e desenvolver sistemas de produção agrícola mais sustentáveis, reduzindo o uso de fertilizantes. Uma das alternativas ao uso de fertilizantes nitrogenados na agricultura são os inoculantes com bactérias diazotróficas. Os micro-organismos diazotróficos mais estudados para produção de inoculantes são os simbiontes noduladores de leguminosas. Para outros grupos de plantas, os diazotróficos mais utilizados são assimbióticos. Estudos conduzidos na Mata Atlântica e na Amazônia tem mostrado que a fixação biológica de nitrogêncio (FBN) assimbiótica associada a filosfera pode contribuir com aportes de N significativos, e que esses biomas podem abrigar uma grande diversidade de bactérias diazotróficas, sendo ambientes apropriados para prospectar diazotróficos eficientes para o uso na agricultura. O objetivo deste trabalho foi isolar novos genótipos de bactérias diazotróficas assimbióticas da filosfera e serapilheira de espécies arbóreas da floresta Amazônica, e estimar suas taxas de FBN e de síntese de ácido indolacético in vitro, bem como identificar taxonomicamente os isolados considerados mais promissores para uso biotecnológico. Bactérias diazotróficas de vida-livre foram isoladas da filosfera e serapilheira de três espécies arbóreas (Rinorea pubiflora, Amphirrhox longifolia e Chamaecrista xinguensis), e cultivadas em meio isento de N. Um total de 86 isolados foram obtidos. A taxa de fixação de nitrogênio foi estimada para todos os isolados, através do ensaio de redução de acetileno (ARA), pelo complexo nitrogenase. Para todos os isolados, também foi determinada a taxa de produção de ácido indolacético (AIA), na presença de L-triptofano. Os dados obtidos foram submetidos à análise de variância e as médias comparadas pelo teste de Scott-Knott e pelo teste de Duncan (p<0,05), através do software estatístico R. Os isolados que apresentaram as maiores taxas de redução de acetileno e de síntese de AIA foram identificados através do sequenciamento parcial do gene rRNA 16S. Cerca de 84,8% dos isolados apresentaram atividade de nitrogenase in vitro, e o teste estatístico desmonstrou não haver diferenças significativas entre as taxas de redução de acetileno entre os isolados, exceto o isolado 10RF, o qual apresentou uma taxa de redução de acetileno maior do que a dos demais isolados (p<0,05). Todos os isolados produziram AIA in vitro, e houve diferenças significativas na síntese de AIA entre os isolados, e quanto origem dos mesmos. Isolados bacterianos de Amphirrox longifolia sintetizaram mais AIA in vitro, em comparação aos isolados das outras duas espécies arbóreas. Cerca de 22% dos isolados apresentaram taxas de fixação de nitrogêncio maiores que 0.025ng N μg-1 h-1, e 20% dos isolados produziram mais de 21,87 μg/mL-1 de AIA. 21 isolados, considerados promissores para uso agrícola (fixadores de N e produtores de AIA), foram identificados através do sequenciamento do gene rRNA 16S, e afiliados aos gêneros Pseudomonas, Bacillus, Burkholderia, Citrobacter, Rhizobium e Stenotrophomonas. Aproximadamente 71 % dos isolados considerados promissores para promoverem o crescimento de plantas foram isolados da filosfera, indicando ser este um ambiente propício à prospecção de bactérias diazotróficas promotoras de crescimento de plantas. / Great efforts have been made to preserve natural resources and develop more sustainable agricultural production systems, reducing the use of fertilizers. One of the alternatives to the use of nitrogen fertilizers in agriculture is the use of inoculants with diazotrophic bacteria. The most studied diazotrophic microorganisms for the production of inoculants are nodule-forming symbionts of legumes. For other groups of plants, the most used diazotrophs are asymbiotic. Several studies in the Atlantic and Amazon forests have shown that the biological nitrogen fixation (BNF) associated with the phyllosphere may contribute with significant N inputs, and that these biomes can harbor a great diversity of diazotrophic bacteria, making them important environments for the prospection of efficient diazotrophs for agricultural use. The objective of this work was to isolate new genotypes of asymbiotic diazotrophic bacteria from the phyllosphere and litter of tree species of the Amazon forest, and to estimate their rates of BNF and indoleacetic acid biosynthesis in vitro, as well as to identify taxonomically the most promising isolates for biotechnological use. Asymbiotic diazotrophic bacteria were isolated from the phyllosphere and litter of three tree species (Rinorea pubiflora, Amphirrhox longifolia and Chamaecrista xinguensis), and cultivated in N-free medium. A total of 86 isolates were obtained. The nitrogen fixation rate was estimated for all isolates measuring the nitrogenase activity by the acetylene reduction assay (ARA). The rates of indoleacetic acid (IAA) production in the presence of L-tryptophan was also determined for all isolates. The data obtained were submitted to analysis of variance and the means were compared by the Scott-Knott test and the Duncan test (p<0.05) using the statistical software R. The isolates showing the highest rates of acetylene reduction and IAA biosynthesis were identified through the partial sequencing of the 16S rRNA gene. Approximately 84.8% of the isolates were positive for nitrogenase activity in vitro, and the statistical analyses showed that there were no significant differences between the acetylene reduction rates among the isolates, except the isolate 10RF, which showed a higher acetylene reduction rate than the other isolates (p<0.05). All isolates produced IAA in vitro, and there were significant differences in the biosynthesis rates among the isolates, as well as regarding the origin of the isolate. Bacterial isolates from Amphirrox longifolia synthesized higher amounts of IAA in vitro as compared to the isolates from the other two tree species. Approximately 22% of the isolates showed nitrogen fixation rates greater than 0.025 ng N μg-1 h-1, and 20% of the isolates produced more than 21.87 μg mL-1 of IAA. 21 isolates, considered promising for agricultural use (N-fixers and IAA producers), were identified by sequencing the 16S rRNA gene, and affiliated to the genera Pseudomonas, Bacillus, Burkholderia, Citrobacter, Rhizobium and Stenotrophomonas. Approximately 71% of the isolates considered promising to promote plant growth were isolated from the phyllosphere, suggesting that this environment is propitious to the prospection of diazotrophic plant growth promoting bacteria.
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Ekofyziologický význam extrémní citlivosti orchidejí k nitrátům / Ecophysiological relevance of extreme sensitivity of orchids to nitratesFigura, Tomáš January 2016 (has links)
Many orchid species are seriously endangered at present. Reasons for their disappearing from natural habitats remain often unclear. Orchids depend on mycorrhizal symbiosis in nature, however only little is known about this symbiosis. Seeds of some species do not germinate in vitro, making their cultivation for scientific and rescue purposes impossible. We found that seed germination of one of such reluctant species, Pseudorchis albida, is strongly inhibited by nitrates even at extremely low concentrations. As this species prefers oligotrophic mountain meadows, nitrate-induced inhibition probably take place in natural conditions. Surprisingly, we found similar but slightly weaker inhibitory effect also in typical mesophillic species and even in slightly eutrophic ones. The sensitivity to nitrates correlates with trophy level of species canopy. This inhibitory effect of nitrates could be weakened by application of a range of growth regulators, including auxins, cytokinins and gibberellins, and also by mycorrhizal fungi. The action of nitratereductase is essential for this inhibitory effect of nitrates. Experiments with NO donors, scavengers, and NO quantification are pointing right at NO as compound which perhaps mediates nitrate inhibitory effect. Based on these results, the nitrate inhibitory...
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Nitrogen response efficiency, nitrogen retention efficiency, and asymbiotic biological nitrogen fixation of a temperate permanent grassland site under different sward compositions and management practicesKeuter, Andreas 08 January 2013 (has links)
No description available.
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Study the possible mechanisms of plant growth promotion by wheat diazotrophic bacteria grown in Uzbekistan soilJuraeva, Dilafruz 30 May 2011 (has links)
Das Pflanzenwachstum fördernde Bakterien (PGPB) kommen ubiquitär sowohl an der Wurzel als auch am Spross der Pflanzen vor und sie können über direkte oder indirekte Mechanismen einen bedeutenden Beitrag zur Stickstoffernährung der Pflanzen leisten. Die vorliegende Arbeit umfasst a) die Isolierung von PGPB, welche das Wachstum verschiedener Pflanzenarten fördern und durch Fusarien verursachte Pflanzenkrankheiten bekämpfen, b) die Analyse der Möglichkeiten Probleme der Pflanzenernährung durch den Einsatz von PGPB zu lösen, c) die Entwicklung neuer molekularbiologischer Methoden zur Messung der Diversität und Aktivität der PGPB. Im Rahmen dieser Arbeit wurden Methoden zur Beschreibung der Diversität von rhizosphären PGPB entwickelt und verbessert um Verbindungen zwischen applizierten PGPB und deren Aktivitäten zu prüfen. Die sensitive quantitative real-time-PCR Methode wurde zur Quantifizierung bzw. zum Nachweis der inokulierten PGPB und zum Nachweis des nitrogenase-reduktase-Gens (nifH), des Markergens für potentiell diazotrophe Bakterien. Bakterienartspezifische Primer wurden aus dem Sequenzvergleich der 16S-23S ISR ausgewählter Bakterienstämme selektiert und Protokolle zur Quantifizierung dieser Bakterienarten erarbeitet. Die nifH Gen Quantifizierung an Pflanzen eröffnet die Möglichkeit Schlüsselorganismen in der assoziativen biologischen Luftstickstoffbindung zu identifizieren und kurzfristige Reaktionen der Bakteriengesellschaften auf Umweltveränderungen und Regulationsmechanismen in situ zu analysieren. / Plant growth promoting bacteria (PGPB) are ubiquitous in both plant root and shoot, and are important contributors to the nitrogen-input of plants exerting their positive effects on plant growth directly or indirectly through different mechanisms. The present work focuses on a) the isolation of PGPB, which promotes the growth of different plant cultures and controls plant diseases caused by Fusarium species, b) the prospects of PGPB to solve plant nutritional problems, c) developing new molecular methods for the assessment of their diversity and activity. In the frame of this thesis, the methods for the description of the diversity of root colonizing PGPB have been developed and improved to provide links between introduced PGPB abundance and activities. The approach used was based on the sensitive real – time PCR detection/quantification of introduced PGBP and the nitrogenase reductase gene (nifH), which served as a marker gene for potential diazotrophs. The amplified 16S-23S ISR sequences of studied bacteria were subjected to strain – specific primer design and a highly specific bacteria quantification protocol were developed. The bacteria quantification protocol was based on real – time PCR using strain specific primers in order to evaluate the colonization ability of studied bacteria, which were inoculated to plant roots. The results presented in this thesis have shown that monitoring of nifH amount in plant root is a suitable and promising approach to link inoculated diazotrophic bacteria abundance and its potential activity. The study of nifH gene abundance in plant offers the opportunity to identify key players in asymbiotic nitrogen fixation, to study short-term community responses in changing environments, or to analyze the effect of regulation in situ.
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