论文信息 - Investigating phosphate sorption reactions in acid soils through solution, NMR, and L- and K-edge XANES analyses.

Investigating phosphate sorption reactions in acid soils through solution, NMR, and L- and K-edge XANES analyses.

Abstract The plant availability of phosphorus (P) is decreased in acid soils through increased P sorption onto solid-phase binding sites. This is a significant problem in Victoria, Australia. This research utilised a suite of complementary techniques, including classical solution analysis, nuclear magnetic resonance (NMR) and synchrotron-based X-ray technologies (X-ray Absorption Near Edge Structure, XANES; micro X-ray fluorescence spectroscopy, µ-XRF) to investigate the forms of sorbed P in acid soils. The addition of carboxylic acids modified sorption of applied P, with oxalic acid being most effective in competing with P for binding sites. Solid state 31 P NMR showed that inorganic P, as PO 4 was the dominant species present in the bulk soil, while XANES provided information on reactions occurring at (P L-edge XANES) or near (P K-edge XANES) the soil surface. For example, the addition of oxalic acid resulted in dissolution of surface-bound Al, exposing previously occluded P. Key Words

[1] Yongfeng Hu,et al. XANES Speciation of Phosphorus in Organically Amended and Fertilized Vertisol and Mollisol , 2008 .

[2] Yongfeng Hu,et al. Phosphorus speciation of sequential extracts of organic amendments using nuclear magnetic resonance and X-ray absorption near-edge structure spectroscopies. , 2007, Journal of environmental quality.

[3] D. Sayers,et al. XAFS study of adsorbed and mineral forms of phosphate. , 1999, Journal of synchrotron radiation.

[4] S. Rājan. PHOSPHATE ADSORPTION AND THE DISPLACEMENT OF STRUCTURAL SILICON IN AN ALLOPHANE CLAY , 1975 .

[5] D. Sparks,et al. Advances in the Characterization of Phosphorus in Organic Wastes: Environmental and Agronomic Applications , 2006 .