Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Acknowledgements
- 1 Concepts of soils
- 2 Pedogenic processes and pathways of horizon differentiation
- 3 Soil phases: the inorganic solid phase
- 4 Soil phases: the organic solid phase
- 5 Soil phases: the liquid phase
- 6 Soil phases: the gaseous phase
- 7 Soil phases: the living phase
- 8 The State Factor theory of soil formation
- 9 Factors of soil formation: parent material. As exemplified by a comparison of granitic and basaltic soils
- 10 Factors of soil formation: climate. As exemplified by volcanic ash soils
- 11 Factors of soil formation: topography
- 12 Factors of soil formation: biota. As exemplified by case studies on the direct imprint of trees on trace metal concentrations in soils
- 13 Factors of soil formation: time
- 14 Soil formation on Earth and beyond: the role of additional soil-forming factors
- 15 Soil functions and land use
- 16 Physical degradation of soils
- 17 Chemical degradation of soils
- 18 The future of soil research
- Appendix: Naming soils and soil horizons
- References
- Index
Preface
Published online by Cambridge University Press: 11 November 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- Acknowledgements
- 1 Concepts of soils
- 2 Pedogenic processes and pathways of horizon differentiation
- 3 Soil phases: the inorganic solid phase
- 4 Soil phases: the organic solid phase
- 5 Soil phases: the liquid phase
- 6 Soil phases: the gaseous phase
- 7 Soil phases: the living phase
- 8 The State Factor theory of soil formation
- 9 Factors of soil formation: parent material. As exemplified by a comparison of granitic and basaltic soils
- 10 Factors of soil formation: climate. As exemplified by volcanic ash soils
- 11 Factors of soil formation: topography
- 12 Factors of soil formation: biota. As exemplified by case studies on the direct imprint of trees on trace metal concentrations in soils
- 13 Factors of soil formation: time
- 14 Soil formation on Earth and beyond: the role of additional soil-forming factors
- 15 Soil functions and land use
- 16 Physical degradation of soils
- 17 Chemical degradation of soils
- 18 The future of soil research
- Appendix: Naming soils and soil horizons
- References
- Index
Summary
Soil is a dynamic natural body occurring in the upper few metres of the Earth's surface at the interface between the atmosphere, biosphere, hydrosphere and geosphere. A soil is both an ecosystem in itself, and a critical part of the larger terrestrial ecosystem. From the earliest perceptions of soils as the organic enriched surface layer to today's pedologic horizonation of profiles, there is a rich history of beliefs and understanding of this vital life-sustaining resource.
In Chapter 1 changes in perceptions of soils and their classification are explored. Chapter 2 describes some of the specific reactions that are components of the soil-forming processes that transform geologic materials into recognizable pedologic features and horizons. Solids, along with the liquids and gases that fill pore spaces between the solids, compose the three-phase soil system.
Chapter 3 treats the inorganic fraction of the solid phase, examining differences between primary minerals, derived directly from rocks, and secondary minerals, formed by pedogenic processes. Soil organic matter is discussed in Chapter 4. It is often a minor fraction of soil in quantitative terms, but exerts a major control on soil properties. Soil organic matter is complex, being a mixture of a multitude of different components. Organic matter may be tightly bound to clay surfaces by adsorption or physically protected by entrapment within aggregates. These associations modify the physicochemical and physical properties of the mineral phase and affect organic matter biodegradation rates.
The liquid phase of soil is an aqueous solution of solids and gases.
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- Chapter
- Information
- Soils: Basic Concepts and Future Challenges , pp. xiii - xvPublisher: Cambridge University PressPrint publication year: 2006