Synopses & Reviews
Bioremediation research has concentrated on organic pollutants, although the range of substances that can be transformed or detoxified by microorganisms includes both natural and synthetic organic materials and inorganic pollutants. The majority of applications developed to date involve bacteria, with a distinct lack of appreciation of the potential roles and involvement of fungi in bioremediation, despite clear evidence of their metabolic and morphological versatility. This book highlights the potential of filamentous fungi, including mycorrhizas, in bioremediation and discusses the physiology and chemistry of pollutant transformations.
Review
Review of the hardback: '... this book will become a standard text for years to come.' Roy Watling, BSS News
Review
Review of the hardback: 'Recommended to anyone (not just mycologists) with an interest in the expanding field of environmental biotechnology.' Vicki Tariq, Microbiology Today
Review
Review of the hardback: '... well written and well edited ... helpful to the research scientist and student alike ...' Mycologist
Review
Review of the hardback: 'What a stimulating book! ... the editor and sponsoring Society have to be applauded for their vision.' Mycological Research
Review
Review of the hardback: '... this book is a most useful summary of the current understanding of the bioremediation potential of fungi ... This book is a major source of references and techniques for anyone interested in using the chemical activities of fungi to transform waste substrates.' Mycopathologia
Synopsis
An authoritative account of the application of fungi to the treatment of environmental pollution.
Synopsis
Bioremediation is an expanding area of environmental research and may be defined as the application of biological processes to the treatment of pollution. This book provides an authoritative account of the role of fungi in bioremediation. The ability of fungi to decompose organic materials and their filamentous growth means that they are suited to a wide variety of remediation contexts, including some in association with plants. The biology and chemistry of pollutant transformations, including potential applications for in situ and ex situ treatments, are discussed.
Table of Contents
List of contributors; Preface; 1. Degradation of plant cell wall polymers Christine S. Evans and John N. Hedger; 2. The biochemistry of ligninolytic fungi Patricia J. Harvey and Christopher F. Thurston; 3. Bioremediation potential of white rot fungi C. Adinarayana Reddy and Zacharia Mathew; 4. Fungal remediation of soils contaminated with persistent organic pollutants Ian Singleton; 5. Formulation of fungi for in situ bioremediation Joan W. Bennett, William J. Connick. Jr., Donald Daigle and Kenneth Wunch; 6. Fungal biodegradation of chlorinated monoaromatics and BTEX compounds John A. Buswell; 7. Bioremediation of polycyclic aromatic hydrocarbons by ligninolytic and non-ligninolytic fungi Carl E. Cerniglia and John B. Sutherland; 8. Pesticide degradation Sarah E. Maloney; 9. Degradation of energetic compounds by fungi David A. Newcombe and Ronald L. Crawford; 10. Use of wood-rotting fungi for the decolourisation of dyes and industrial effluents Jeremy S. Knapp, Eli J. Vantoch-Wood and Fuming Zhang; 11. The roles of fungi in agricultural waste conversion Roni Cohen and Yitzhak Hadar; 12. Cyanide biodegradation by fungi Michelle Barclay and Christopher J. Knowles; 13. Metal transformations Geoffrey M. Gadd; 14. Heterotrophic leaching Helmut Brandl; 15. Fungal metal biosorption John M. Tobin; 16. The potential for utilizing mycorrhizal associations in soil bioremediation Andrew A. Meharg; 17. Mycorrhizas and hydrocarbons Marta Noemi Cabello; Index.