Photosynthesis V2
Development, Carbon Metabolism, and Plant Productivity
- 1st Edition - January 28, 1983
- Imprint: Academic Press
- Editor: Govindjee
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 4 1 4 1 5 5 - 1
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 1 4 4 7 0 - 4
Photosynthesis, Volume II: Development, Carbon Metabolism, and Plant Productivity provides a basic understanding of photosynthesis. This book also explains how to manipulate… Read more
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Request a sales quotePhotosynthesis, Volume II: Development, Carbon Metabolism, and Plant Productivity provides a basic understanding of photosynthesis. This book also explains how to manipulate photosynthesis and improve the overall rate of photosynthesis of a single plant. It focuses on the use of NADPH and ATP in bicarbonate fixation. Comprise of 16 chapters, this book covers topics beginning with the concept of photosynthesis. It further discusses manipulating the genetics and molecular biology of the system. In addition, it explains the biogenesis of photosynthetic apparatus, photorespiration, and environmental regulation among others. As the chapters progress, the topics discussed also increase in terms of technical and scientific concepts, as seen in Chapters 10 and 11. These focus on the translocation of photosynthates and leaf and canopy behavior. The application of the knowledge about photosynthesis to plant productivity is also discussed. A chapter is dedicated to it, including various opinions in the said subject matter. Chapters 14 and 15 contain special topics on canopy photosynthesis and yield in soybean, as well as the effect of bicarbonate on photosynthetic electron transport. This book will be a reference source for researchers. It will also be an introductory book for graduate students specializing in plant biology, biophysics, and physiology; agronomy; and botany.
List of Contributors
Preface
Hans Gaffron (1902-1979): A Tribute, by Martin Kamen
Hans Gaffron. 1902-1979. by Norman I. Bishop
1 Introduction t o Photosynthesis: Carbon Assimilation and Plant Productivity
I. Introduction
II. General Discussion
III. Conclusions
References
2 Introduction to Genetics and Molecular Biology of Photosynthetic Bacteria, Cyanobacteria,
and Chloroplasts
3 Genetics and Molecular Biology of Photosynthetic Bacteria and Cyanobacteria
I. Introduction
II. Genetic Organization of Photosynthetic Prokaryotes
III. Mutations Affecting Photosynthesis in the Rhodospirillaceae
IV. Genetic Exchange Systems and Genetic Mapping
V. Prospects for Applied Research
VI. Concluding Remarks
References
4 Molecular Biology of Chloroplasts
I. Introduction
II. The Chloroplast Genome
III. Chloroplast Ribonucleic Acid
IV. Evolution of the Chloroplast Genome
V. Conclusions
References
5 Biogenesis of the Photosynthetic Apparatus in Prokaryotes and Eukaryotes
I. Introduction
II. Formation of the Photosynthetic Apparatus in Facultative Phototrophic Bacteria
III. Formation of the Eukaryotic Photosynthetic Membranes
References
6 Carbon Dioxide Fixation Pathways in Plants and Bacteria
I. Introduction
II. The Reductive Pentose Phosphate Cycle
III. The Four-Carbon (C4) Intermediate Pathways
IV. Crassulacean Acid Metabolism
V. Possibilities for Plant Yield Improvement
VI. Carbon Dioxide Fixation in Photosynthetic Bacteria: Reductive Pentose Phosphate Cycle and Associated Reactions
VII. Ferredoxin-Linked Carbon Dioxide Assimilation in Photosynthetic Bacteria
VIII. Path of Carbon Dioxide Assimilation in Photosynthetic Green Bacteria
IX. Concluding Remarks
References
7 Photorespiration
I. Introduction
II. Photorespiration in C3 Plants
III. Photorespiration in C4 Plants
IV. Photorespiration in C3-C4 Intermediate Plants
V. Photorespiration in Other Plants and Bacteria
References
8 Crassulacean Acid Metabolism (CAM)
I. Introduction
II. Basic Phenomena of CAM
III. The Metabolic Sequence of CAM
IV. Gas Exchange Linked with CAM
V. Ecology of CAM
VI. Productivity of CAM Plants
References
9 Environmental Regulation of Photosynthesis
I. Introduction
II. Analysis of Environmental Responses
III. Control of Photosynthesis by Light Intensity
VI. Control of Photosynthesis by Temperature
V. Water Stress and Photosynthesis
VI. Drought Resistance
VII. Responses to Limiting Nutrients and Salinity
VIII. Responses to Environmental Pollutants
IX. Conclusions
References
10 Translocation of Photosynthate
I. Photosynthesis, Translocation, and Crop Yield: Introductory Considerations
II. Relation between Translocation and Photosynthesis
III. Potential Means of Controlling Export
IV. Processes Affecting Export of Products of Photosynthesis
V. Conclusions
References
11 Predicting Photosynthesis
I. Introduction
II. Predicting Leaf Behavior
III. Predicting Canopy Behavior
IV. Biophysical Principles and General Philosophy
V. Conclusions
References
12 Prospects of Applying Knowledge of Photosynthesis toward Improving Crop Production
I. Introduction
II. Crop Capacity to Intercept Light
III. Breeding for Photosynthesis Rate
IV. Chemical Manipulation of Photosynthesis and Photorespiration
V. Conclusions
References
13 Global Photosynthesis in Relation to Our Food and Energy Needs
I. The Argument
II. Photosynthetic Productivity of the Biosphere
III. Fossilized Photosynthesis for Fuel
IV. The Global Carbon Cycle
V. Interactions between Photosynthesis, Food, and Fuels
VI. Conclusions: Photosynthetic Resources and Man's Future
References
Special Topics
14 Canopy Photosynthesis and Yield in Soybean
I. Introduction
II. Changes in Photosynthesis during the Day
III. Effect of Plant Population
IV. Effect of Shading
V. Photosynthetic Conversion Efficiency
VI. Discussion
References
15 The Functional Role of Biocarbonate in Photosynthetic Light Reaction II
I. Introduction
II. Binding of CO2 to the Photosystem II Complex
III. Dynamic Aspects of CO2 Binding
IV. The Active Forms of CO2
V. Location of the COf Binding Site
VI. Dual Effects of C02 Depletion
VII. Possible Roles for CO2 in Photosystem II Chemistry
VIII. Sites of Action of CO2
IX. A Working Hypothesis: Hydrated CO2 as the Immediate Source of Photosynthetic O2
X. Labeling the 02-Evolving Precursor
XI Conclusions
References
16 Bicarbonate or Carbon Dioxide as a Requirement for Efficient Electron Transport on the Acceptor Side of Photosystem II
I. Introduction
II. A Site of HCO3- Action on the Acceptor Side but Not on the Donor Side of Photosystem II
III. Postulated Effects of HCO3 on the Donor Side of Photosystem II
IV. Conclusions
References
Index
- Edition: 1
- Published: January 28, 1983
- No. of pages (eBook): 608
- Imprint: Academic Press
- Language: English
- Paperback ISBN: 9780124141551
- eBook ISBN: 9780323144704
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