Agromining: Farming for Metals

Second edition of the pioneer book on agromining/phytomining around the globe Written and edited by the foremost experts in the field of agromingin Provides a comprehensive overview of the complete chain of agromining: from soils and hyperaccumulator plants to agronomy and processing of bio-ores

Auteur

Dr Antony van der Ent is an ecophysiologist and biogeochemist whose research focuses on trace elements in soil and plant systems. He has a specific interest in the application of phytotechnologies that utilize hyperaccumulator plants (including agromining and phyto-extraction). He has had the opportunity to study trace element hyperaccumulator plants all around the world in temperate and in tropical regions. Professor Alan J. M. Baker is an ecophysiologist and evolutionary biologist and is a pioneer in the study of metal uptake, tolerance, and accumulation in plants. In his long research career, he has been at the forefront of the development of phytotechnologies using hyperaccumulator plants for the decontamination and restoration of metal-polluted soils and for phytomining applications. Professor Guillaume Echevarria is a soil biogeochemist who dedicated 25 years of research to the understanding of the fate of nickel in soil-plant systems globally. He has focused on both the specific biogeochemistry of nickel in natural ultramafic environments and the agronomy of Ni hyperaccumulator plants in agromining contexts. Professor Marie-Odile Simonnot is a chemical engineer specialized in separation science with a special interest in environmental issues. She has been working for more than a decade on the valorisation of metals contained in bio-ore derived from hyperaccumulator plant biomass, specifically by using hydrometallurgy. She is also interested in the environmental assessment of processes by life cycle assessment. Professor Jean Louis Morel is an expert on environmental biology and applications for soil remediation, ecosystem restoration, and agromining. He has a background in soil science with a strong interest in anthropized areas, including mining, industrial, and urban areas. His group developed phytoremediation, especially phytoextraction of metals. He proposed the term "agromining" for the chain of technologies that make up metal farming.

Contenu

1 The Long Road to Developing Agromining/Phytomining.- 2 Agronomy of 'Metal Crops' Used in Agromining.- 3 Processing of Bio-ore to Products.- 4 Processing of Bio-ore to Products: REEs, and other elements.- 5 Life Cycle Assessment and Ecosystem Services of Agromining.- 6 Global Distribution and Ecology of Hyperaccumulator Plants.- 7 Physiology and Molecular Biology of Trace Element Hyperaccumulation.- 9 Tools for the Discovery of Hyperaccumulator Plant Species and Understanding Their Ecophysiology.- 10 Genesis and Behaviour of Ultramafic Soils and Consequences for Nickel Biogeochemistry.- 11 The Role of the Rhizosphere and Microbes Associated with Hyperaccumulator Plants in Metal Accumulation.- 12 Incorporating Hyperaccumulator Plants into Mine Rehabilitation in the Asia-Pacific Region.- 13 Agromining of High-Value Elements and Contaminants from Minerals Wastes.- 14 Agromining from Various Industrial Wastes.- 15 Phytoextraction of Cadmium: Feasibility in Field Applications and Potential Use of Harvested Biomass.- 16 Metal recovery with agromining from former mine and industrial sites under restoration.- 17 Element Case Studies: Nickel (temperate/Mediterranean regions). <p