Book contents
- Frontmatter
- Contents
- Preface to the second edition
- Foreword to the first English edition
- Foreword to the French edition
- Acknowledgments
- Introduction
- 1 The properties of elements
- 2 Mass conservation and elemental fractionation
- 3 Fractionation of stable isotopes
- 4 Geochronology and radiogenic tracers
- 5 Element transport
- 6 Geochemical systems
- 7 The chemistry of natural waters
- 8 Biogeochemistry
- 9 Environments
- 10 Mineral reactions
- 11 The solid Earth
- 12 The Earth in the Solar System
- 13 The element barn
- Appendix A Composition of the major geological units
- Appendix B The mixing equation for ratios
- Appendix C A refresher on thermodynamics
- Appendix D The geological time scale
- Appendix E An overview of analytical methods
- Appendix F Physical and geophysical constants
- Appendix G Some equations relative to residence time
- Appendix H The adiabatic atmosphere
- Further reading
- Index
8 - Biogeochemistry
Published online by Cambridge University Press: 05 June 2013
- Frontmatter
- Contents
- Preface to the second edition
- Foreword to the first English edition
- Foreword to the French edition
- Acknowledgments
- Introduction
- 1 The properties of elements
- 2 Mass conservation and elemental fractionation
- 3 Fractionation of stable isotopes
- 4 Geochronology and radiogenic tracers
- 5 Element transport
- 6 Geochemical systems
- 7 The chemistry of natural waters
- 8 Biogeochemistry
- 9 Environments
- 10 Mineral reactions
- 11 The solid Earth
- 12 The Earth in the Solar System
- 13 The element barn
- Appendix A Composition of the major geological units
- Appendix B The mixing equation for ratios
- Appendix C A refresher on thermodynamics
- Appendix D The geological time scale
- Appendix E An overview of analytical methods
- Appendix F Physical and geophysical constants
- Appendix G Some equations relative to residence time
- Appendix H The adiabatic atmosphere
- Further reading
- Index
Summary
The purpose of this Chapter is a short review of how biological processes affect the geochemical pathways that would prevail in the absence of life and how they contribute to the production of specific components that can occasionally form the bulk of some biological material such as oil. Expertise in biogeochemistry requires a strong background in biology and biochemistry and also some understanding of how biomass interacts as a whole with the mineral world. Background is well beyond the scope of the present book and we will hence try to restrict ourselves to the simplest of concepts.
The geological record
Oxidized rocks, limestones, cherts, and phosphates contain the biological materials with the most spectacular contribution to the geological record. Modern limestones are largely formed by the accumulation of carbonate tests of foraminifera and unicellular algae such as coccolithophores. Diatom frustules contribute massive amounts of silica to sediments at the bottom of the Southern oceans. The gigantic phosphorites of Africa represent fossil hard parts (teeth and bones) or their remobilization by diagenetic fluids: they are mined to produce fertilizers for agriculture. On the sea floor, these three types of rocks are often associated with each other in areas rich in nutrients, continental platforms, wind-driven upwellings of deep seawater such as next to the coasts of Morocco and Peru and the older seawater from the Southern oceans.
- Type
- Chapter
- Information
- GeochemistryAn Introduction, pp. 168 - 183Publisher: Cambridge University PressPrint publication year: 2009