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Biological Nitrogen Fixation and Beneficial Plant-Microbe Interaction de Fernando González-Andrés,Euan James

Descripción - Reseña del editor This book covers the most recent advances in all the topics with which researchers and professionals need to be familiar in order to obtain a better understanding of, and to better exploit, beneficial plant-microbe interactions. The use of microorganisms for agriculture and environmental applications is gaining importance worldwide to improve crop performance, but also for other environmental applications, such as bioremediation in chemically polluted soils.  The search for an equilibrium between fundamental and applied aspects makes this book useful for professionals at various levels in the value chain of the “microbial biofertilizers”. Challenges of comercializing biofertilizers involve efficiency of the products and safety for human health and the environment, topics that have paid central attention in this book. Students, scientists and biofertilizers developers will find updated and comprehensive information about the different aspects to be considered to address a successful introduction of biofertilizers in sustainable agriculture and environmental actions. Contraportada This book covers the most recent advances in all the topics with which researchers and professionals need to be familiar in order to obtain a better understanding of, and to better exploit, beneficial plant-microbe interactions. The use of microorganisms for agriculture and environmental applications is gaining importance worldwide to improve crop performance, but also for other environmental applications, such as bioremediation in chemically polluted soils.  The search for an equilibrium between fundamental and applied aspects makes this book useful for professionals at various levels in the value chain of the “microbial biofertilizers”. Challenges of comercializing biofertilizers involve efficiency of the products and safety for human health and the environment, topics that have paid central attention in this book. Students, scientists and biofertilizers developers will find updated and comprehensive information about the different aspects to be considered to address a successful introduction of biofertilizers in sustainable agriculture and environmental actions.

Detalles del Libro

  • Name: Biological Nitrogen Fixation and Beneficial Plant-Microbe Interaction
  • Autor: Fernando González-Andrés,Euan James
  • Categoria: Libros,Libros universitarios y de estudios superiores,Ciencia y matemáticas
  • Tamaño del archivo: 15 MB
  • Tipos de archivo: PDF Document
  • Idioma: Español
  • Archivos de estado: AVAILABLE


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Biological Nitrogen Fixation and Beneficial Plant-Microbe ~ Biological Nitrogen Fixation and Beneficial Plant-Microbe Interaction. Editors: González-Andrés, Fernando, James, Euan (Eds.) Free Preview

Biological Nitrogen Fixation and Beneficial Plant-Microbe ~ Biological Nitrogen Fixation and Beneficial Plant-Microbe Interaction. Editors (view affiliations) . beneficial plant-microbe interactions. . Biocontrollers Nitrogen fixation Plant-Microbial interactions Symbiosis Biofertilisers .

Biological nitrogen fixation and beneficial plant-microbe ~ Get this from a library! Biological nitrogen fixation and beneficial plant-microbe interaction. [Fernando González-Andrés; Euan James;] -- This book covers the most recent advances in all the topics with which researchers and professionals need to be familiar in order to obtain a better understanding of, and to better exploit, .

Nitrogen fixation in microbial biotechnology ~ Nitrogen fertilizer damages plant–microbe . of rhizobia bacteria to nitrogen fertilizer over some years results in their nitrogen-fixing ability becoming less beneficial to leguminous . This article describes recent research on biological nitrogen fixation and new findings that non-leguminous crops can obtain significant .

Biological Nitrogen Fixation / SpringerLink ~ Abstract. Biological nitrogen fixation (BNF) is the process of the reduction of dinitrogen from the air to ammonia carried out by a large number of species of free-living and symbiotic microbes called diazotrophs.

Biological Nitrogen Fixation / Annual Review of Plant Biology ~ Biological Nitrogen Fixation R H Burris Annual Review of Plant Physiology Biological Nitrogen Fixation Robert H. Burris and Gary P. Roberts Annual Review of Nutrition Biological Nitrogen Fixation W F Hardy, and and R C Burns

Nitrogenase and biological nitrogen fixation / Biochemistry ~ Antioxidant pathways are up-regulated during biological nitrogen fixation to prevent ROS-induced nitrogenase inhibition in Gluconacetobacter diazotrophicus. Archives of Microbiology 2010, 192 (10) , 835-841. DOI: 10.1007/s00203-010-0609-1.

“Biological Nitrogen Fixation” Book Summary ~ 1.1 Biological Nitrogen Fixation Biological nitrogen fixation is one alternative to nitrogen fertilizer. It is carried out by prokaryotes using an en-zyme complex called nitrogenase and results in atmospheric N 2 being reduced into a form of nitrogen diazotro-phic organisms and plants are able to use (ammonia).

Nitrogen fixation - Wikipedia ~ Nitrogen fixation is a process by which molecular nitrogen in the air is converted into ammonia (NH 3) or related nitrogenous compounds in soil. Atmospheric nitrogen is molecular dinitrogen, a relatively nonreactive molecule that is metabolically useless to all but a few microorganisms.Biological nitrogen fixation converts N 2 into ammonia, which is metabolized by most organisms.

Nitrogen Fixing Plants & Microbes - Permaculture ~ Biological nitrogen fixation is an important component of organic gardening/farming, forest gardening and other agro-eco practices. Through a partnership with micro-organisms in their roots, some plants can turn atmospheric nitrogen into nitrogen fertilizers useful to themselves but also becoming available to their neighbors over time through root die back, leaf fall, and chop and drop pruning.

The Importance of Biological Nitrogen Fixation to New Crop ~ Biological characterization of root exudates and extracts from non-modulating and supernodulating soybean mutants. Molecular Plant-Microbe Interaction 2:283-290. Mellor, R.B. and D. Werner. 1989. Legume nodule biochemistry and function. Chapter 5. In: P.M. Gresshoff (ed.) The molecular biology of symbiotic nitrogen fixation.

Robust biological nitrogen fixation in a model grass ~ Nitrogen‐fixing rhizobacteria can promote plant growth; however, it is controversial whether biological nitrogen fixation (BNF) from associative interaction contributes to growth promotion. The roots of Setaria viridis , a model C 4 grass, were effectively colonized by bacterial inoculants resulting in a significant enhancement of growth.

Biological Nitrogen Fixation / Annual Review of Plant Biology ~ BIOLOGICAL NITROGEN FIXATION Artturi I. Virtanen Annual Review of Microbiology Biological Nitrogen Fixation Robert H. Burris and Gary P. Roberts Annual Review of Nutrition Biological Nitrogen Fixation K T Shanmugam, F O'Gara, K Andersen, and , and R C Valentine

Robust biological nitrogen fixation in a model grass ~ Nitrogen‐fixing rhizobacteria can promote plant growth; however, it is controversial whether biological nitrogen fixation (BNF ) from associative interaction contributes to growth promotion. The roots of Setaria viridis , a model C 4 grass, were effectively colonized by bacterial inoculants resulting in a significant enhancement of growth.

Importance of Nitrogen to plants: Key Concepts ~ Importance of Nitrogen to plants: Key Concepts Elements essential for life: C, H, O, N, S, P, and others in smaller quantities: K, Na, Mg, Mn, Fe, Mo, Cl, etc. N up to 2% of dried plant biomass Atmospheric N2 not available to organisms. Why? Lack of N availability a major limiting factor of plant growth

Biological nitrogen fixation: rates, patterns and ~ (a) Biological nitrogen fixation often is regulated by N supply, and often responds to N deficiency. These and other studies of geographical and ecological patterns in BNF support the generalization that BNF is often (but not invariably) active where reactive N supply is small relative to other resources.

Nitrogen fixation ~ Nitrogen fixation. A relatively small amount of ammonia is produced by lightning. Some ammonia also is produced industrially by the Haber-Bosch process, using an iron-based catalyst, very high pressures and fairly high temperature.

Effect of Nitrogen Sources on Microbial Biomass Nitrogen ~ Knowledge to increase the microbial biomass nitrogen (MBN) as a bulk of free-living microbes in paddy soil is limited. The potential benefit of these microorganisms was evaluated, in this study, under different nitrogen sources and two paddy soils. The results revealed that pots treated with organic matter recorded the maximum value of the total N uptake and MBN, followed by the Urea treated pots.

Plant-microbe interactions regulate carbon and nitrogen ~ Plant-microbe interactions regulate carbon and nitrogen . of mature natural forests have also suggested that understory vegetation and mixtures of tree species play a more beneficial role in maintaining long-term productivity by enhancing soil nutrient . are responsible for the effects of N-fixation on soil C accumulation .

Biological nitrogen fixation and biomass accumulation ~ Biological nitrogen fixation was estimated through 15 N isotope dilution to be 65% nitrogen derived from air (Ndfa). Phenotypic plasticity in biomass allocation and branch production observed as a result of endophyte inoculations may be useful in bioenergy crop breeding and engineering programs.

Nitrogen Metabolism - GRKRaj.Org ~ Nitrogen fixation can be carried out by certain organims, primarily bacteria. These organisms produce the enzyme nitrogenase , which catalyzes the conversion of atmospheric nitrogen to ammonium. Some nitrogen fixing microbes can carry out this process on their own, while others fix nitrogen in symbioses with plants ( symbiotic nitrogen fixation ): ;Nitrogen\fixation; Anabena, Rhizobia and .

Synthetic biology approaches to engineering the nitrogen ~ However, it is very likely that greater complexity in the symbiotic interaction improves the efficiency of nitrogen fixation and thus provides greater benefit to the plant. This evolutionary trajectory reveals benefits to the plant even in the most primitive symbiotic structures and this is useful when considering engineering this process in cereals ( Charpentier and Oldroyd, 2010 ).

(PDF) Nitrogen Fixing Biofertilizers; Mechanism and Growth ~ The biological process responsible for reduction of molecular nitrogen into ammonia is referred to as nitrogen fixation. A wide diversity of nitrogen-fixing bacterial species belonging to most .

(PDF) Endophytic Nitrogen-Fixing Bacteria as Biofertilizer ~ Here biological nitrogen fixation has immense potential and can be used as an alternate to chemical . can also be operative for initial plant-microbe interaction. Bilal et al . ( 1993) sug-

Metagenomics of the Microbial Nitrogen Cycle: Theory ~ Comprehensive information on theoretical, methodological and applied aspects of omics approaches to study the microbial N cycle. Microbial N cycle theory, investigative methods and new applications in water treatment, agricultural practices and climate change.