Soil Erosion and Carbon Dynamics.
The most complete, nonpartisan source of information on this hot agronomic topic available today, this book brings together a diverse group of papers and data to resolve the debate between sedimentologists and soil scientists and agronomists over whether the effects of soil erosion on carbon and atm...
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| Other Authors: | , , , |
| Format: | eBook |
| Language: | English |
| Published: |
Milton :
Taylor & Francis Group,
2005.
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| Edition: | 1st ed. |
| Subjects: | |
| Online Access: | Click to View |
Table of Contents:
- Cover
- Half Title
- Series Page
- Title Page
- Copyright Page
- Preface
- About the Editors
- Contributors
- Table of Contents
- Section 1: Basic Concepts
- Chapter 1: Global Change and Carbon Cycle: The Position of Soils and Agriculture
- Chapter 2: Soil Carbon Sequestration
- Chapter 3: Influence of Soil Erosion on Carbon Dynamics in the World
- Chapter 4: Modeling Soil Erosion Induced Carbon Fluxes between Soil and Atmosphere on Agricultural Land Using SPEROS-C
- Section 2: Erosion at the Plot Scale
- Chapter 5: Soil Carbon Erosion and Its Selectivity at the Plot Scale in Tropical and Mediterranean Regions
- Chapter 6: Organic Carbon in Forest Andosols of the Canary Islands and Effects of Deforestation on Carbon Losses by Water Erosion
- Chapter 7: Soil Carbon Dynamics and Losses by Erosion and Leaching in Banana Cropping Systems with Different Practices (Nitisol, Martinique, West Indies)
- Chapter 8: Influence of Land Use, Soils, and Cultural Practices on Erosion, Eroded Carbon, and Soil Carbon Stocks at the Plot Scale in the Mediterranean Mountains of Northern Algeria
- Chapter 9: Carbon, Nitrogen, and Fine Particles Removed by Water Erosion on Crops, Fallows, and Mixed Plots in Sudanese Savannas (Burkina Faso)
- Chapter 10: Effect of a Legume Cover Crop on Carbon Storage and Erosion in an Ultisol under Maize Cultivation in Southern Benin
- Chapter 11: Organic Carbon Associated with Eroded Sediments from Micro-Plots under Natural Rainfall from Cultivated Pastures on a Clayey Ferralsol in the Cerrados (Brazil)
- Chapter 12: Runoff, Soil, and Soil Organic Carbon Losses within a Small Sloping-Land Catchment of Laos under Shifting Cultivation
- Chapter 13: Soil Erodibility Control and Soil Carbon Losses under Short-Term Tree Fallows in Western Kenya.
- Chapter 14: Soil and Carbon Losses under Rainfall Simulation from Two Contrasting Soils under Maize-Improved Fallows Rotation in Eastern Zambia
- Section 3: Carbon Transfer in Rivers
- Chapter 15: Origins and Behaviors of Carbon Species in World Rivers
- Chapter 16: Carbon, Nitrogen, and Stable Carbon Isotope Composition and Land-Use Changes in Rivers of Brazil
- Chapter 17: Organic Carbon Transported by the Equatorial Rivers: Example of Congo-Zaire and Amazon Basins
- Chapter 18: Soil Carbon Stock and River Carbon Fluxes in Humid Tropical Environments: The Nyong River Basin (South Cameroon)
- Chapter 19: Organic Carbon in the Sediments of Hill Dams in a Semiarid Mediterranean Area
- Chapter 20: Monitoring Soil Organic Carbon Erosion with Isotopic Tracers: Two Case Studies on Cultivated Tropical Catchments with Steep Slopes (Laos, Venezuela)
- Section 4: Conclusions
- Chapter 21: Erosion and Carbon Dynamics: Conclusions and Perspectives
- Index.