{"product_id":"effect-of-mineralorganicmicroorganism-interactions-on-soil-and-freshwater-environments-9780306462160","title":"Effect of MineralOrganicMicroorganism Interactions on Soil and Freshwater Environments","description":"\u003cb\u003eBook Synopsis\u003c\/b\u003e\u003cbr\u003eI. Reactivity and Transformations of Mineral Constituents and Metals at the Soil-Solution Interfaces.- 1. Sorption Mechanisms at the Solid-Water Interface.- 2. Comparison between Bacterial and Chemical Dissolution of Al-Substituted Goethite. Incidence on Mobilization of Iron.- 3. Preparation and Thermodynamic Equilibria of Green Rusts in Aqueous Solutions and Their Identification as Mineral in Hydromorphic Soils.- 4. An XPS and AFM Coupled Study of Air and Bio-Oxidized Pyrite Surfaces37.- 5. Transformation of Iron-Containing Minerals in Kaolin during Growth of a Mixed Bacterial Culture Derived from Kaolin.- 6. Effect of Succinic Acid Produced by Microorganisms and Plant Roots on Copper Sorption by Soil.- 7. Interaction of Iron and Organic Matter in Relation to Its Uptake by Plants.- 8. Effects of Organic Matter, Iron, and Aluminium on Soil Structural Stability.- 9. Interactions of Mugineic Acid with Allophane, Imogolite, Montmorillonite, and Gibbsite.- 10. Aluminium Speciation, Toxicit\u003cbr\u003e\u003cbr\u003e\u003cb\u003eTable of Contents\u003c\/b\u003e\u003cbr\u003ePart I: Reactivity and Transformations of Mineral  Constituents and Metals at the soil-solution interfaces.  1. Sorption mechanisms at the solid-water interface; Ph.  Behra, et al. 2. Comparison between bacterial and chemical  dissolution of Al-substituted goethite. Incidence on mobilization of  iron; N. Bousserrhine, et al. 3. Preparation and  thermodynamic equilibria of green rusts in aqueous solutions and their  identification as mineral in hydromorphic soils; J.-M.R.  Génin, et al. 4. An XPS and AFM coupled study of air  and bio-oxydized pyrite surfaces; V. Toniazzo, et al. 5.  Transformation of iron-containing minerals in kaolin during growth of  a mixed bacterial culture derived from kaolin; E.S. Shelobolina,  et al. 6. Effect of succinic acid produced by  microorganisms and plant roots on copper sorption by soil; T.  Pampura, M. Ustinin. 7. Interaction of iron and organic  matter in relation to its uptake by plants; A.M. Elgala.  8. Effects of organic matter, iron and aluminium on soil  structural stability; M. Arias, et al. 9. Interactions of  mugineic acid with allophane, imogolite, montmorillonite and gibbsite;  S. Iridate, K. Inoue. 10. Aluminium speciation, toxicity  and transfer from soils to surface waters in two contrasting  watersheds exposed to acid deposition in the Vosges Mountains  (North-Eastern France); O. Maitat, et al. 11.  Ultrafiltration as a means to investigate copper resistance mechanisms  in soil bacteria; I. Lamy, et al. Part II: Nature,  Dynamics and Transformations of Organic Compounds and Enzymes in  Soils. 12. Application of organicgeochemistry techniques to  environmental problems; P. Faure, et al. 13. In situ  ATR-FTIR characterization of organic macromolecules aggregated with  metallic cations; F. Quilè, et al. 14. The  structure of organic nitrogen in particle size fractions determined by  15N CPMAS NMR; H. Knicker, et al. 15.  Polymerization: a possible consequence of copper-phenolic  interactions; A. Oess, et al. 16. Effect of pH, Exchange  Cations and Hydrolitic Species of Al and Fe on Formation and  Properties of Montmorillonite-Protein Complexes; A. De Cristofaro,  et al. 17. Adsorption and properties of urease  immobilized on several iron, and aluminium oxides (hydroxides) and  kaolinite; Q. Huang, et al. 18. The fate of acid  phosphatase in the presence of phenolic substances, biotic and abiotic  catalysts; M.A. Rao, et al. 19. Kinetics of catechol  oxidation catalyzed by tyrosinase or \u0026amp;dgr;-MnO2; A. Naidja,  et al. 20. Plant residue decomposition: effect of soil  porosity and particle size; L. Fruit, et al. 21. The  effect of humic substances from oxyhumolite on plant development;  S.S. Gonet, et al. 22. Changes in some properties of  humic substances from Melanudands induced by vegetational succession  from grass to deciduous trees; T. Higashi, et al. 23.  Characterization of the organic substances in reclaimed soils; L.  Petrova, et al. Part III: Microorganism-Colloid  Interactions and their Effect on Bioavailability of Pollutants  and Nutrients in Terrestrial and Freshwater Environments.  24. Interactions between polychlorinated bip","brand":"Springer","offers":[{"title":"Default Title","offer_id":52195187360087,"sku":"9780306462160","price":116.99,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0817\/1739\/5799\/files\/9780306462160.jpg?v=1763646675","url":"https:\/\/bookcurl.com\/products\/effect-of-mineralorganicmicroorganism-interactions-on-soil-and-freshwater-environments-9780306462160","provider":"Book Curl","version":"1.0","type":"link"}