0

Methane Emissions from Major Rice Ecosystems in Asia

Developments in Plant and Soil Sciences 91

Erschienen am 31.03.2001
160,49 €
(inkl. MwSt.)

Lieferbar innerhalb 1 - 2 Wochen

In den Warenkorb
Bibliografische Daten
ISBN/EAN: 9780792367598
Sprache: Englisch
Umfang: xiii, 398 S.
Einband: gebundenes Buch

Beschreibung

InhaltsangabeI: Results of the Interregional Program on Methane Emissions from Rice Fields.- 1. Characterization of methane emissions from rice fields in Asia. I. Comparison among field sites in five countries.- 2. Characterization of methane emissions from rice fields in Asia. II. Differences among irrigated, rainfed, and deepwater rice.- 3. Characterization of methane emissions from rice fields in Asia. III. Mitigation options and future research needs.- 4. Methane emission from irrigated and intensively managed rice fields in Central Luzon (Philippines).- 5. A four-year record of methane emissions from irrigated rice fields in the Beijing region of China.- 6. Methane emissions and mitigation options in irrigated rice fields in southeast China.- 7. Methane emissions from irrigated rice fields in northern India (New Delhi).- 8. Crop management affecting methane emissions from irrigated and rainfed rice in Central Java (Indonesia).- 9. Methane emission from rice fields at Cuttack. India.- 10. Mechanisms of crop management impact on methane emissions from rice fields in Los Baños, Philippines.- 11. Methane emission from deepwater rice fields in Thailand.- 12. Simultaneous records of methane and nitrous oxide emissions in rice-based cropping systems under rainfed conditions.- 13. Using a crop/soil simulation model and GIS techniques to assess methane emissions from rice fields in Asia. 1. Model development.- 14. Using a crop/soil simulation model and GIS techniques to assess methane emissions from rice fields in Asia. II. Model validation and sensitivity analysis.- 15. Using a crop/soil simulation model and GIS techniques to assess methane emissions from rice fields in Asia. III. Databases.- 16. Using a crop/soil simulation model and GIS techniques to assess methane emissions from rice fields in Asia. IV. Upscaling to national levels.- II: Selected Modeling Approaches,Field and Laboratory Experiments.- 17. Modeling rice plant-mediated methane emission.- 18. Modeling methane emissions from rice fields: variability, uncertainty, and sensitivity analysis of processes involved.- 19. A process-based model for methane emissions from irrigated rice fields: experimental basis and assumptions.- 20. Modeling trace gas emissions from agricultural ecosystems.- 21. Simulation of methane production in anaerobic rice soils by a simple two-pool model.- 22. Combining upscaling and downscaling of methane emissions from rice fields: methodologies and preliminary results.- 23. Estimation of regional methane emission from rice fields using simple atmospheric diffusion model s.- 24. The effects of cultural practices on methane emission from rice fields.- 25. Varietal differences in methane emission from Korean rice cultivars.- 26. Influence of Azolla on CH4 emission from rice fields.- 27. Effect of land management in winter crop season on CH4 emission during the following flooded and rice-growing period.- 28. Effects of organic and N fertilizers on methane production potential in a Chinese rice soil and its microbiological aspect.- 29. Effects of elevated CO2 and temperature on methane production and emission from submerged soil microcosm.- 30. Differences among rice cultivars in root exudation, methane oxidation, and populations of mcthanogenic and methanotrophic bacteria in relation to methane emission.- 31. Methane transport capacity of rice plants. I. Influence of methane concentration and growth stage analyzed with an automated measuring system.- 32. Methane transport capacity of rice plants. II. Variations among different rice cultivars and relationship with morphological characteristics.- 33. Methane production, oxidation, and emission from Indian rice soils.- 34. Influence of six nitrification inhibitors on methane production in a flooded alluvial soil.- Author index.

Weitere Artikel vom Autor "Reiner Wassmann/Rhoda S Lantin/Heinz-Ulrich Neue"

Alle Artikel anzeigen