This book is the self-contained final volume of a comprehensive seven-volume series covering the basic and applied science relating to nitrogen fixation. It addresses the most important nitrogen-fixing symbiosis of all - that between legumes and their root-nodule bacteria - and therefore deals with the properties and behaviour of both macro- and micro-symbiont. The coverage is comprehensive, beginning with the extent of the symbiosis and how it may have arisen in the geological past. It considers how legumes select the root-nodule bacteria they allow to form nodules on their roots and the intricate series of signals to be exchanged between legume and bacteria for infection to occur. The immense progress in understanding the genetic systems in the bacteria necessary for nodulation is now being replicated in a rapidly increasing understanding of the required systems in the legumes. The cell biology of the processes of both infection and nodule development is analysed and leads to a parallel assessment of the biochemical processes in carbon and nitrogen metabolism required for successful nitroogen fixation by the symbiotic bacteroid. Attention is given to the ways in which the nodule has solved the conundrum of providing enough O2 for energy generation to drive nitrogen fixation without either inactivating the O2-sensitive nitrogenase or creating damaging reactive oxygen species. This volume also covers the basic physiology of the variety of root-nodule bacteria infecting legumes, as well as looking at the renewed controversy about the chemical form(s) of nitrogen exported to the legume. Successful exploitation of the legume symbiosis in agriculture, horticulture, and forestry demands an understanding of the ecology of the root-nodule bacteria - particularly what makes for a successful inoculant strain for legume introduction to agricultural systems. Then, there is a requirement for inoculation technology to both successfully deliverviable bacteria to the root surface and facilitate nodulation. These practical aspects are thoroughly covered in this volume, with a final chapter assessing how the massive amount of recent information can be exploited in matching host and microsymbiont for the wide variety of environments in which they are needed in our production systems.
Klappentext
This book is the self-contained final volume of a comprehensive seven-volume series covering the basic and applied science relating to nitrogen fixation. It addresses the most important nitrogen-fixing symbiosis of all that between legumes and their root-nodule bacteria and therefore deals with the properties and behaviour of both macro- and micro-symbiont. The coverage is comprehensive, beginning with the extent of the symbiosis and how it may have arisen in the geological past. It considers how legumes select the root-nodule bacteria they allow to form nodules on their roots and the intricate series of signals to be exchanged between legume and bacteria for infection to occur. The immense progress in understanding the genetic systems in the bacteria necessary for nodulation is now being replicated in a rapidly increasing understanding of the required systems in the legumes. The cell biology of the processes of both infection and nodule development is analysed and leads to a parallel assessment of the biochemical processes in carbon and nitrogen metabolism required for successful nitroogen fixation by the symbiotic bacteroid. Attention is given to the ways in which the nodule has solved the conundrum of providing enough O2 for energy generation to drive nitrogen fixation without either inactivating the O2-sensitive nitrogenase or creating damaging reactive oxygen species. This volume also covers the basic physiology of the variety of root-nodule bacteria infecting legumes, as well as looking at the renewed controversy about the chemical form(s) of nitrogen exported to the legume. Successful exploitation of the legume symbiosis in agriculture, horticulture, and forestry demands an understanding of the ecology of the root-nodule bacteria particularly what makes for a successful inoculant strain for legume introduction to agricultural systems. Then, there is a requirement for inoculation technology to both successfully deliverviable bacteria to the root surface and facilitate nodulation. These practical aspects are thoroughly covered in this volume, with a final chapter assessing how the massive amount of recent information can be exploited in matching host and microsymbiont for the wide variety of environments in which they are needed in our production systems.
Zusammenfassung
Nodules produced on legume roots by root-nodule bacteria provide the major nitrogenous input into natural and agricultural systems worldwide. This book provides an in-depth and up-to-the minute analysis of what is known about this symbiosis, its origins, the process of nodule formation and development, and the biochemistry and genetics of nodular nitrogen fixation. It also reviews the physiology of the root-nodule bacteria themselves, their ecology in both natural and agricultural systems, and how we go about introducing new legumes and the bactria they require. How all the knowledge gained about this system can be applied in the future for better legume-rhizobia functioning in difficult environments is its logical culmination.
Inhalt
Preface to the Series, Preface, List of Contributors, Dedication
1. Evolution and Diversity of Legume Symbiosis: J. I. Sprent
1. Introduction
2. The Diversity of Legume Nodules
3. The First 700 Million Years
4. The Last 60 Million Years
5. The Present
6. Conclusions
References
2. Ecology of Root-nodule Bacteria of Legumes: P. H. Graham
1. Introduction
2. Taxonomy of Root-nodule Bacteria
3. Population Structure of Rhizobia in Soil and Rhizosphere
4. Above and Below Ground Diversity and Symbiotic Function
5. Strain Competitiveness, Rhizosphere Colonization, and Persistence
6. Edaphic Factors Affecting Rhizobia
7. Future Dimensions of Rhizobial Ecology
References
3. Maintaining Cooperation in the Legume-Rhizobia Symbiosis: Identifying Selection Pressures and Mechanisms: E. T. Kiers, S. A. West and R. F. Denison
1. Introduction
2. Explaining Cooperation: The Problem
3. Explaining Cooperation: The Hypothesis
4. Cheating and Mixed Nodules
5. Future Directions
6. Conclusions
Acknowledgements
References
4. Inoculation Technology for Legumes: D. F. Herridge
1. Introduction
2. The Need to Inoculate
3. Selection of Rhizobial Strains for Use in Inoculants
4. Inoculants in the Market Place
5. Pre-inoculated and Custom-inoculated Seed
6. Co-inoculation of Legumes with Rhizobia and Other Beneficial Microorganisms
7. Quality Control of Legume Inoculants
8. Constraints to Inoculant Use and Future Prospects
9. Concluding Statements
References
5. Fine-tuning of Symbiotic Genes in Rhizobia: Flavonoid Signal Transduction Cascade: H. Kobayashi and W. J. Broughton
1. Introduction
2. NODD and NOD-boxes: Central Elements in Transduction of Flanovoid Signals
3. Functions of Genes Controlled by NOD-boxes4. Fine-tuning Expression of Symbiotic Genes in Restricted Host-Range Rhizobia
5. Post-genomic Studies: Do Flavonoids Regulate Other Genes?
6. Conclusion and Perspectives: Roles of Flavonoid-inducible Regulons in Symbiosis, Signaling, and Adaptation
References
6. Cell Biology of Nodule Infection and Development: N. Maunoury, A. Kondorosi, E. Kondorosi and P. Mergaert
1. Introduction
2. Nod-factor Signalling
3. Cortical-cell Activati…