Trace elements in the rhizosphere
Author(s)
Bibliographic Information
Trace elements in the rhizosphere
CRC Press, c2001
- : alk. paper
Available at 5 libraries
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  Iwate
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  Toyama
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  Nagano
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  Kyoto
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  Shimane
  Okayama
  Hiroshima
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  Nagasaki
  Kumamoto
  Oita
  Miyazaki
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  Okinawa
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Note
Papers from a special symposium entitled, Fate of Trace Elements in the Rhizosphere, held during the Fifth International Conference on the Biogeochemistry of Trace Elements, July 11-15, 1999 in Vienna, Austria
Includes bibliographical references and index
Description and Table of Contents
Description
The first book devoted to the complex interactions between trace elements, soils, plants, and microorganisms in the rhizosphere, Trace Elements in the Rhizosphere brings together the experimental, investigative, and modeling branches of rhizosphere research. Written by an international team of authors, it provides a comprehensive overview of the mechanisms and fate of trace elements in the rhizosphere and the application of this information to phytoremediation technologies and sustainable agriculture and forestry.
With ecological and environmental issues moving to the forefront, the focus of rhizosphere research has increasingly shifted to studying the effect of plant-microbial association on the bioavailability, uptake, and transformation of inorganic and organic contaminants in soils. Contaminant-rhizosphere interactions have attracted renewed attention as plants have been proposed for use in the remediation of contaminated soils. Trace Elements in the Rhizosphere provides an in-depth look at rhizosphere processes and leads the way to further understanding and developments in this field.
Table of Contents
Phytoavailability of Trace Elements and Radionuclides in the Rhizosphere and Application to Phytoremediation
Dependency of Phytoavailability of Metals on Indigenous and Induced Rhizosphere Processes: A Review, E. Lombi, W.W. Wenzel, G. Gobran, and D.C. Adriano
Bioavailability of Trace Elements as Related to Root-Induced Changes in the Rhizosphere, P. Hinsinger
Rhizosphere Chemical Changes Enhance Heavy Metal Absorption by Plants Growing in Calcareous Soils, N. Assadian and L.B. Fenn
Fate of Radiocesium in Soil and Rhizosphere, B. Delvaux, N. Kruyts, E. Maes, and E. Smolders
Bioavailability of Uranium and Plutonium to Plants in Soil-Water Systems, and the Potential of Phytoremediation, H. Shahandeh, J. Lee, L.R. Hossner, and R.H. Loeppert
Interactions of Trace Elements with Root Microbial Associations
Interactions and Mobilization of Metal Ions at the Soil-Root Interface, S. Dieana, B. Manunza, A. Palma, A. Premoli, and C. Gessa
Metal Speciation in Symbiotic Fungi (Ectomycorrhizae) Using Micro X-Ray Absorption Spectroscopy, B.O. Berthelsen, G.M. Lamble, and D.G. Nicholson
Bioavailability of Heavy Metals in the Mycorrhizosphere, C. Leyval and E.J. Joner
Experimental Techniques and Modeling Approaches to Study the Fate of Trace Elements in the Rhizosphere
Solid Phase Fractionation of Metals in the Rhizosphere of Forest Soils, F. Courchesne, V. Seguin, and A. Dufresne
A Technique for Quantitative Trace Element and Micronutrient Studies in Plants, A. Goeransson
Cation Exchange on Plant Roots Involving Aluminium: Experimental Data and Modeling, J.E. Dufey, J.G. Genon, B. Jaillard, H. Calba, G. Rufyikiri, and B. Delvaux
Modeling Aluminum Chemistry in the Rhizosphere of Acid Forest Soils, H. Nietfeld
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