Biochar and Soil Biota
Coordonnateurs : Ladygina Natalia, Rineau Francois
Biochar, a biomass that is burned at very high temperature in the absence of oxygen, has recently become an interesting subject of study. Biochar is highly stable and does not degrade; it possesses physical properties that assist in retention of nutrients in the soil. The use of biochar will undoubtedly have a significant impact not only on soil nutrients but also on soil organism communities and their functions.
This book focuses on how the ecology and biology of soil organisms is affected by the addition of biochar to soils. It takes into account direct and indirect effects of biochar addition to soils, on the soil carbon cycle, impact on plant resistance to foliar and soilborne disease, interactions with pathogenic, mycorhizal and saprophytic fungi. The stability of biochar in soil environment is also discussed. Special focus has been put on application of biochar to remediate polluted soils, taking into account possible toxic effects of biochar on soil fauna.
This book will be useful to students and researchers in agronomy, biology, ecology, and environmental managers from both academic as well as industrial organizations.
The Stability of Biochar in the Environment. Biochar Impact on Plant Resistance to Disease. Biochar-Fungi Interactions in Soils. The Potential of Biochar Amendments to Remediate Contaminated Soils. Studying the Role of Biochar Using Isotopic Tracing Techniques. "Designing" of Biochar for Specific Applications to Soils; A Technology in Its Infancy.
Date de parution : 04-2013
15.6x23.4 cm
Thème de Biochar and Soil Biota :
Mots-clés :
Biochar; Biochar Amendment; The Stability of Biochar in the Environment; Biochar Application; Biochar-Fungi Interactions in Soils; Soil Fertility; Studying the Role of Biochar using Isotopic Tracing Techniques; Black Carbon; Designing Specific Biochars to Address Soil Constraints: A Developing Industry; Soils Contaminated; A Comparison of Methods to Apply Biochar into Temperate Soils; Glaser; Soil Biogeochemistry; Pyrogenic Carbon; Conservation Tillage; Conventional Tillage Methods; Conventional Tillage; Soil Carbon; Iowa State University; Isotopic Tracing Techniques; Low Molecular Weight Organic Substances; Maryland Baltimore County; Conservation Tillage Methods; Biochars Aged; Tillage Methods; Anaerobic Composting; Biochar Properties; Volcani Center; Biochar Soils; Fungal Potential