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Azospirillum is a plant growth promoting rhizobacterium used for inoculation of cereal and forage crops. The book covers its physiology, ecology, biochemistry, and molecular biology. The most advanced molecular techniques to understand the regulatory mechanisms of nitrogen fixation and ammonia assimilation, as well as the basis of phytohormone production, are included. In particular, the identification of novel types of promoters, specific regulatory circuits, and new regulatory proteins is described. New insights in the plant growth promoting role of the bacteria through the analysis of their interactions with the plant are presented. Also discussed are field applications, allowing the evaluation of the physiological and agronomic involvement of Azospirillum inoculations.
Azospirillum-Plant Associations presents the most significant information from the vast body of scientific work that has accumulated as a result of nearly two decades of intensive research. It emphasizes advances that have occurred over the last six years, covering such topics as plant growth promotion, recognition and elicitation of plant responses by bacteria and the inoculant industry, the metabolism of production of plant growth promoting substances (phytohormones), and aerotaxis and poly-ß-hydroxybutyrate metabolism. This interdisciplinary volume is an excellent reference for agricultural microbiologists and biotechnologists, plant physiologists, geneticists, microbiologists, and agronomists.
Nitrogen is arguably the most important nutrient required by plants. However, the availability of nitrogen is limited in many soils and although the earth's atmosphere consists of 78.1% nitrogen gas (N2) plants are unable to use this form of nitrogen. To compensate , modern agriculture has been highly reliant on industrial nitrogen fertilizers to achieve maximum crop productivity. However, a great deal of fossil fuel is required for the production and delivery of nitrogen fertilizer. Moreover carbon dioxide (CO2) which is released during fossil fuel combustion contributes to the greenhouse effect and run off of nitrate leads to eutrophication of the waterways. Biological nitrogen fixation is...