Book contents
- Frontmatter
- Contents
- Contributors
- Editors' Preface
- Isotopic-labelling methods for deciphering the function of uncultured micro-organisms
- Biofilms and metal geochemistry: the relevance of micro-organism-induced geochemical transformations
- Minerals, mats, pearls and veils: themes and variations in giant sulfur bacteria
- Soil micro-organisms in Antarctic dry valleys: resource supply and utilization
- New insights into bacterial cell-wall structure and physico-chemistry: implications for interactions with metal ions and minerals
- Horizontal gene transfer of metal homeostasis genes and its role in microbial communities of the deep terrestrial subsurface
- Biosilicification: the role of cyanobacteria in silica sinter deposition
- Metabolic diversity in the microbial world: relevance to exobiology
- Biogeochemical cycling in polar, temperate and tropical coastal zones: similarities and differences
- Fungal roles and function in rock, mineral and soil transformations
- The deep intraterrestrial biosphere
- Iron, nitrogen, phosphorus and zinc cycling and consequences for primary productivity in the oceans
- Mechanisms and environmental impact of microbial metal reduction
- New insights into the physiology and regulation of the anaerobic oxidation of methane
- Biogeochemical roles of fungi in marine and estuarine habitats
- Role of micro-organisms in karstification
- Index
Fungal roles and function in rock, mineral and soil transformations
Published online by Cambridge University Press: 06 July 2010
- Frontmatter
- Contents
- Contributors
- Editors' Preface
- Isotopic-labelling methods for deciphering the function of uncultured micro-organisms
- Biofilms and metal geochemistry: the relevance of micro-organism-induced geochemical transformations
- Minerals, mats, pearls and veils: themes and variations in giant sulfur bacteria
- Soil micro-organisms in Antarctic dry valleys: resource supply and utilization
- New insights into bacterial cell-wall structure and physico-chemistry: implications for interactions with metal ions and minerals
- Horizontal gene transfer of metal homeostasis genes and its role in microbial communities of the deep terrestrial subsurface
- Biosilicification: the role of cyanobacteria in silica sinter deposition
- Metabolic diversity in the microbial world: relevance to exobiology
- Biogeochemical cycling in polar, temperate and tropical coastal zones: similarities and differences
- Fungal roles and function in rock, mineral and soil transformations
- The deep intraterrestrial biosphere
- Iron, nitrogen, phosphorus and zinc cycling and consequences for primary productivity in the oceans
- Mechanisms and environmental impact of microbial metal reduction
- New insights into the physiology and regulation of the anaerobic oxidation of methane
- Biogeochemical roles of fungi in marine and estuarine habitats
- Role of micro-organisms in karstification
- Index
Summary
INTRODUCTION
The most important perceived environmental roles of fungi are as decomposer organisms, plant pathogens and symbionts (mycorrhizas, lichens), and in the maintenance of soil structure through their filamentous growth habit and production of exopolymers. However, a broader appreciation of fungi as agents of biogeochemical change is lacking and, apart from obvious connections with the carbon cycle, they are frequently neglected within broader microbiological and geochemical research contexts. While the profound geochemical activities of bacteria and archaea receive considerable attention, especially in relation to carbon-limited and/or anaerobic environments (see elsewhere in this volume), in aerobic environments fungi are of great importance, especially when considering rock surfaces, soil and the plant root-soil interface (Gadd, 2005a). For example, mycorrhizal fungi are associated with ∼ 80 % of plant species and are involved in major mineral transformations and redistributions of inorganic nutrients, e.g. essential metals and phosphate, as well as carbon flow. Free-living fungi have major roles in the decomposition of plant and other organic materials, including xenobiotics, as well as mineral solubilization (Gadd, 2004). Lichens (a symbiosis between an alga or cyanobacterium and a fungus) are one of the commonest members of the microbial consortia inhabiting exposed subaerial rock substrates, and play fundamental roles in early stages of rock colonization and mineral soil formation.
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- Micro-organisms and Earth Systems , pp. 201 - 232Publisher: Cambridge University PressPrint publication year: 2005
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