Biochemistry of Metal Micronutrients in the Rhizosphere

Biochemistry of Metal Micronutrients in the Rhizosphere

Hardback

By (author) John A. Manthey, By (author) David E. Crowley, By (author) Douglas G. Luster

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  • Publisher: CRC Press Inc
  • Format: Hardback | 384 pages
  • Dimensions: 156mm x 235mm x 26mm | 657g
  • Publication date: 22 March 1994
  • Publication City/Country: Bosa Roca
  • ISBN 10: 0873719425
  • ISBN 13: 9780873719421
  • Illustrations note: 39 black & white tables, 5 black & white halftones

Product description

Biochemistry of Metal Micronutrients in the Rhizosphere focuses on chemical factors and biological activities that control the uptake and translocation of essential metal micronutrients by plants and microorganisms. Emphasis is placed on current proposals describing the roles of microorganisms in controlling the biological activities of metal micronutrients in the rhizosphere. Coverage includes basic principles of siderophore-mediated Fe acquisition by microorganisms, siderophores as important regulators of Fe availability to plants and rhizosphere microorganisms, and microbial control of metal micronutrient supply to plants. The book evaluates plant uptake processes of Fe, Mn, and Zn in solution cultures and integrates this information with a rapidly developing understanding of rhizosphere events. Important consideration is given to the roles of metal ion chelation and soil chemistry in these biological activities. The current understanding of the biochemical events associated with Fe-deficiency in plants is discussed, including how these activities mediate micronutrient availability to both plants and soil microorganisms. This unique mixture of detailed coverage of the events that control biological activities of Fe, Mn, and Zn in the rhizosphere makes this book an essential reference.

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Table of contents

Biochemistry of Metal Micronutrients in the Rhizosphere: An Introduction (J.A. Manthey, D.G. Luster, and D.E. Crowley). Iron in Biology (J.B. Neilands). Iron Acquisition and Virulence of the Bacterial Genus Aeromonas (B.R. Byers and J.E.L. Arceneaux). Iron Uptake and Siderophore Formation in the Actinorhizal Symbiont Frankia (G.L. Boyer and D.B. Aronson). The Role of Siderophores in Symbiotic Nitrogen Fixation by Legume Root Nodule Bacteria (L.L. Barton, C.R. Vester, P.R. Gill, Jr., and J.B. Neilands). Microbial Siderophores and Rhizosphere Ecology (J.S. Buyer, M.G. Kratzke, and L.J. Sikora). Role of Siderophores in Plant Growth Promotion and Plant Protection by Fluorescent Pseudomonads (M. Hofte, M.V. Woestyne, and W. Verstraete). Contribution of Mycorrhizal Fungi to Micronutrient Uptake by Plants (E. George, V. Romheld, and H. Marschner). Contributions of VA-Mycorrhiza to Zinc Uptake in Plants (A.K. Sharma, P.C. Srivastava, and B.N. Johri). Control of Mn Status in Plants and Rhizosphere: Genetic Aspects of Host and Pathogen Effects in the Wheat Take-All Interaction (Z. Rengel, J.F. Pedler, and R.D. Graham). The Interactions of Manganese and Iron (H.M. Reisenauer). The Chemistry and Role of Metal Ion Chelation in Plant Uptake Processes (S.H. Laurie and J.A. Manthey). Recent Aspects of Mn and Zn Absorption and Translocation in Cereals (M.J. Webb). Modeling of Iron Availability in the Plant Rhizosphere (D.E. Crowley and D. Gries). Mechanisms of Iron Acquisition by Graminaceous (Strategy II) Plants (S. Mori). Genetically Controlled Uptake and Use of Iron by Plants (V.D. Jolley and J.C. Brown). Mechanisms of Iron Uptake from Rhodotorulate-Iron by Tomato (G.W. Miller, S. Hasegawa, A. Shigematsu, and G.W. Welkie). Enzymatic Iron Reduction at the Root Plasma Membrane: Partial Purification of the NADH-Fe Chelate Reductase (M.J. Holden, D.G. Luster, and R.L. Chaney). Iron Uptake in Arabidopsis thaliana (Y. Yi, J.A. Saleeba, and M.L. Guerinot). The Role of Root Apoplast Acidification by the H+ Pump in Mineral Nutrition of Terrestrial Plants (J.-B. Thibaud, H. Sentenec, and C. Grignon). Salinity Alters Root Cell Wall Properties and Trace Metal Uptake in Barley (C.G. Suhayda, R.E. Redmann, and X. Wang). Soil Factors Influencing the Mobilization of Iron in Calcareous Soils (R.H. Loeppert, L.-C. Wei, and W.R. Ocumpaugh).