Jansson, J.K. & Trevors, J.T. ed.
Modern Soil Microbiology 2nd ed
CRC Press 2006.12
672 pp (H)
ISBN 0-8247-2749-5
10,600円
Contents
A-9131-10600 Part 1 Introductory chapters: soil as an environment for microbial life; the rhizosphere as a habitat for soil microorganisms; culturable and nonculturable bacteria in soil; the fungi in soil; ecology and biology of soil protozoa, nematodes and microarthropods; interactions between microbe-feeding invertebrates and soil microorganisms; microbial processes within the soil. Part 2 Modern methodology and approaches: direct approaches for studying soil microbes; indirect approaches for studying soil microorganisms based on cell extraction and culturing; microbial biomarkers; application of denaturing gradient gel electrophoresis and temperature gradient gel electrophoresis for studying soil microbial communities; microbial diversity in soil - the need for a combined approach using molecular and cultivation techniques; adaptation of bacteria to soil conditions - applications of molecular physiology in soil microbiology; microbial ecology, inoculant distribution and gene flux within populations of bacteria colonizing the surface of plants - case study of a GMM field release in the United Kingdom. Part 3 Soil microbial processes and soil perturbance. (Part contents)/ * ntegrates the principles of soil microbiology with insights into the physiology and activity of soil microbiota obtained by using up-to-date modern molecular analyses. The book reveals the potentiality of sustainable agriculture by delineating the relationship between microbial communities, community structures and function. *
Bothe, H. et al. ed.
Biology of Nitrogen Cycles
Elsevier Science Ltd. 2006.12
452 pp. (H)
ISBN 0-444-52857-1
16,400円
Contents
A-16345-O 1. Foreward / 2. Introduction to the biochmesitry and Molecular Biology of Denitrification / 3. The Prokaryotic Nitrate Reductases / 4. Nitrite Reductases in Denitrification / 5. Nitric Oxide Reductase : Structural Variations and Catalytic Mechanism / 7. Denitrification in Rhizobia-Legume Symbiosis / 8. The Dissimilatory Reduction of Nitrate to Ammonia by Anaerobic Bacteria / 9. Physiology, Biochemistry adn Molecular Biology of Nitrogen Fixation / 10. Regulatory Cascades to Express Nitrogenases / 11. The Rhizobium-Legume Nitrogen-Fixing Symbiosis / 12. Plant Symbioses with Frankia and Cyanobacteria / 13. Associative Nitrogen Fixation / 14. Measuring N2 Fixation in the Field / 15. Biochemistry and Molecular Biology of Nitrification / 16. The Ecology of Nitrifying Bacteria / 17. Anammox / 18. Nitrate Assimilation in Bacteria / 19. Nitrate Assimilation in Plants / 20. Characterization of Proteolytic Microbes and their / Activities in Soils / 21. Molecular Tools to Assess the Diversity and Density of Denitrifying Bacteria in their Habitats / 22. Denitrification and Agriculture / 23. Denitrification and N-Cycling in Forest Ecosystems / 24. Denitrification in Wetlands / 25. Organisms of the Temperature, Salinity, pH and Water Stress / 26. N2O Emission and Global Changes, Modelling Approaches / 27. Interactions among Organisms that Result in Enhanced / Activities of N-Cycle Reaction / * All organisms require nitrogen to live and grow. The movement of nitrogen between the atmosphere, biosphere, and geosphere in different forms is described by the nitrogen cycle. This book is an activity of the COST 856 Action on Denitrification. It covers all aspects of the N-cycle: chemistry, biology (enzymology, molecular biology), physics, applied aspects (greenhouse effect, N-pollution problems, practices in farming, in waste-water treatment, and more). In this book, leading editors offer the latest research available on dentrification (reduction of nitrates or nitrites commonly by bacteria- as in soil). *
Paul, E. ed.
Soil Microbiology, Ecology and Biochemistry 3rd ed.
Academic Press 2007.
532 pp.(H)
ISBN 0-12-546807-5
10,600円
Contents
1 Soil Microbiology, Ecology and Biochemistry in Perspective/ 2 The Soil Habitat/ 3 Physiological and Biochemical Methods for Studying Soil Biota and Their Function/ 4 Molecular Methods for Studying Soil Ecology/ 5 The Prokaryotes/ 6 Fungi and Eukaryotic Algae/ 7 Fauna: The Engine for Microbial Activity and Transport/ 8 The Ecology of Soil Organisms/ 9 The Physiology and Biochemistry of Soil Organisms/ 10 The Ecology of Plant-Microbial Mutualisms/ 11 Spatial Distribution of Soil Organisms/ 12 Carbon Cycling and Formation of Soil Organic Matter/ 13 Nitrogen Transformations/ 14 Biological N Inputs/ 15 Soil Biogeochemical Cycling of Inorganic Nutrients and Metals/ 16 The Dynamics of Soil Organic Matter and Nutrient Cycling/ 17 Management of Organisms and Their Processes in Soils/ 18 Soil Microbiology, Ecology, and Biochemistry for the 21st Century/
* Now in its third edition, this classic textbook includes basic concepts and applications in agriculture, forestry, environmental science, and a new section entirely devoted to ecology. *
Goyal, S.S. et al ed.
Enhancing the Efficiency of Nitrogen Utilization in Plants
Food Products Press 2006.7
489 pp. (P)
ISBN 1-56022-141-0
8,400円
Contents
1. Plant Nitrogen Transport and Its Regulation in Changing Soil Environments/ 2. Root System Characteristics and Control of Nitrogen Uptake/ 3. Nitrate Uptake and Reduction in Plants/ 4. Nitrogen Use at the Leaf and Canopy Level: A Framework to Improve Crop N Use Efficiency/ 5. Regulation of C/N Interaction in Model Plant Species/ 6. Application of Molecular Markers in Breeding for Nitrogen Use Efficiency/ 7. From Agronomy and Ecophysiology to Molecular Genetics for Improving Nitrogen Use Efficiency in Crops/ 8. Integrated Nitrogen Fertilization for Intensive and Sustainable Agriculture/ 9. Rhizobial Inoculants for Legume Crops/ 10. Nitrogen Nutrition and Use in Horticultural Crops/ 11. Nitrogen and Irrigation Management Practices to Improve Nitrogen Uptake Efficiency and Minimize Leaching Losses/ 12. Numerical Modeling to Study the Fate of Nitrogen in Cropping Systems and Best Management Case Studies/ Index/ Reference Notes Included/ *
Singh, H.
Mycoremediation
Fungal Bioremediation
John Wiley & Sons 2006.12
592 pp. (H)
ISBN 0-471-75501-x
15,600円
Contents
1.Introduction/ 2.Fungal Treatment of Industrial Wastewaters/ 3.Fungal Treatment of Distillery and Brewery Wastes/ 4.Fungal Metabolism of Petroleum Hydrocarbons/ 5.Fungal Degradation of Polychlorinated Biphenyls and Dioxins/ 6.Fungal Degradation of Pesticides/ 7.Fungal Metabolism of Phenols, Chlorophenols and Pentachlorophenol/ 8.Fungal Metabolism of Polycyclic Aromatic Hydrocarbpns/ 9.Fungal Lignin Degradation and Decolorization of Pulp and Paper Mill Effluents/ 10.Fungal Decolorization and Degradation of Dyes/ 11.Fungal Biosorptionof Heavy Metals/ 12.Mycorrhizal Fungi in Rhizosphere Remediation/ Index/ *
Wiley, N.
Phytoremediation
Methods and Reviews
植物による環境浄化
Humana Press 2007.2
504 pp. (H)
ISBN 1-58829-541-9
17,600円
Contents
1. Genetic Engineering of Plants for Phytoremediation of Polychlorinated Biphenyls/ 2. Increasing Plant Tolerance to Metals in the Environment/ 3. Using Quantitative Trait Loci Analysis to Select Plants for Altered Radionuclide/ 4. Detoxification of Soil Phenolic Pollutants by Plant Secretory Enzyme/ 5. Using Real-Time Polymerase Chain Reaction to Quantify Gene Expression in Plants Exposed to Radioactivity/ 6. Plant Phylogeny and the Remediation of Persistent Organic Pollutants/ 7. Producing Mycorrhizal Inoculum for Phytoremediation/ 8. Implementing Phytoremediation of Petroleum Hydrocarbons/ 9. Uptake, Assimilation, and Novel Metabolism of Nitrogen Dioxide in Plants/ 10. Testing the Manipulation of Soil Availability of Metals/ 11. Testing Amendments for Increasing Soil Availability of Radionuclides/ 12. Using Electrodics to Aid Mobilization of Lead in Soil/ 13. Stable Isotope Methods for Estimating the Labile Metal Content of Soils/ 14. In Vitro Hairy Root Cultures as a Tool for Phytoremediation Research/ 15. Sectored Planters for Phytoremediation Studies/ 16. Phytoremediation With Living Aquatic Plants: Development and Modeling of Experimental Observations/ 17. Near-Infrared Reflectance Spectroscopy: Methodology and Potential for Predicting Trace Elements in Plants/ 18. Using Hydroponic Bioreactors to Assess Phytoremediation Potential of Perchlorate/ 19. Using Plant Phylogeny to Predict Detoxification of Triazine Herbicides/ 20. Exploiting Plant Metabolism for the Phytoremediation of Organic Xenobiotics/ 21. Searching for Genes Involved in Metal Tolerance, Uptake, and Transport/ 22. Manipulating Soil Metal Availability Using EDTA and Low-Molecular-Weight Organic Acids/ 23. Soils Contaminated With Radionuclides: Some Insights for Phytoextraction of Inorganic Contaminants/ 24. Assessing Plants for Phytoremediation of Arsenic-Contaminated Soils/ 25. Phytoremediation in China: Inorganics/ 26. Phytoremediation in China: Organics/ 27. Phytoremediation of Arsenic-Contaminated Soil in China/ 28. Phytoremediation in Portugal: Present and Future/ 29. Phytoremediation in Russia/ 30. Phytoremediation in India/ 31. Phytoremediation in New Zealand and Australia/
* Phytoremediation: Methods and Reviews presents the most innovative recent methodological developments in phytoremediation research, and outlines a variety of the contexts in which phytoremediation has begun to be applied. A significant portion of this volume is devoted to groundbreaking methods for the production of plants that are able to degrade, take up, or tolerate the effects of pollutants. *
Canadell, J. et al. ed.
Terrestrial Ecosystems in a Changing World
Springer-Verlag 2007.1
336 pp. (H)
ISBN 3-540-32729-0
16,800円
Contents
1 Global Ecology,Networks,and Research Synthesis/ 2 CO 2 Fertilization:When,Where,How Much?../ 3 Ecosystem Responses to Warming/ 4 Insights from Stable Isotopes on the Role of Terrestrial Ecosystems in the Global Carbon Cycle/ 5 Effects of Urban Land-Use Change on Biogeochemical Cycles/ 6 Saturation of the Terrestrial Carbon Sink/ 7 Functional Diversity at the Crossroads between Ecosystem Functioning and Environmental Filters/ 8 Linking Plant Invasions to Global Environmental Change/ 9 Plant Biodiversity and Responses to Elevated Carbon Dioxide/ 10 Predicting the Ecosystem Consequences of Biodiversity Loss: the Biomerge Framework/ 11 Plant Species Migration as a Key Uncertainty in Predicting Future Impacts of Climate Change on Ecosystems: Progress and Challenges/ 12 Understanding Global Fire Dynamics by Classifying and Comparing Spatial Models/ 13 Plant Functional Types: Are We Getting Any Closer to the Holy Grail?/ 14 Spatial Nonlinearities:Cascading Effects in the Earth System/ 15 Dynamic Global Vegetation Modeling: Quantifying Terrestrial Ecosystem Responses to Large-Scale Environmental Change/ 16 Wheat Production Systems and Global Climate Change/ 17 Pests Under Global Change ミ Meeting Your Future Landlords/ 18 Greenhouse Gas Mitigation Potential in Agricultural Soils/ .19 Carbon and Water Tradeoffs in Conversions to Forests and Shrublands / 20 Natural and Human Dimensions of Land Degradation in Drylands: Causes and Consequences/ 21 Southeast Asian Fire Regimes and Land Development Policy/ 22 Global Change Impacts on Agroecosystems of Eastern China/ 23 Terrestrial Ecosystems in Monsoon Asia: Scaling up from Shoot Module to Watershed/ 24 Responses of High Latitude Ecosystems to Global Change: Potential Consequences for the Climate System/ 25 The Future Research Challenge:the Global Land Project/ Index/ *
95-53 登録日 07.03.29
