Model of inner-sphere adsorption of oxyanions in goethite - Why is phosphate adsorption more significant than that of sulfate?

IF 1.9 4区 农林科学 Q3 SOIL SCIENCE Revista Brasileira De Ciencia Do Solo Pub Date : 2022-01-01 DOI:10.36783/18069657rbcs20210146
Carla Gomes de Albuquerque, Fabiana Gavelaki, V. Melo, A. V. Motta, A. Zarbin, C. M. Ferreira
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引用次数: 3

Abstract

: Phosphorus availability in soils is low due to its strong retention by inner-sphere complexation on minerals in the clay fraction with pH-dependent charges, such as goethite. On the other hand, sulfur has greater availability because it is retained mainly by electrostatic attraction. We evaluated the intensities of the inner-sphere complexation of orthophosphate and sulfate (H 2 PO 4- /HPO 42- and SO 42- - generically treated as PO 4 and SO 4 ) under different experimental conditions (pH, goethite purity, and contact times) on synthetic goethite samples to establish the mechanisms and models involved in those bonds. Inner-sphere PO 4 and SO 4 were extracted using both HNO 3 1 mol L -1 and USEPA 3051A methods. Inner-sphere complexation of PO 4 and SO 4 was highest at pH 5 in relation to pH 9. Attenuated total reflectance/Fourier transform infrared spectroscopy (ATR-FTIR) spectra showed inner-sphere complexation bands of PO 4 on goethite in the protonated binuclear bidentate (pH 5) and deprotonated binuclear bidentate (pH 9) forms. Inner-sphere complexation of PO 4 was much more expressive than that of SO 4 . Phosphorus and sulfur oxyanions displace the diprotonated ferrol ligand (-OH 2+0.5 in -FeOH 2+0.5 ), while the -OH -0.5 in the -Fe-OH -0.5 group are only displaced by PO 4 . The -O -1.5 ligand in Fe-O -1.5 group is not displaced by PO 4 or SO 4 . The high surface negative charge density of PO 4 defined its higher activation energy for exchanging -OH 2+0.5 and -OH -0.5 on the goethite surface in relation to SO 4 . The proposed model can be used to reduce inner sphere phosphate adsorption in soils and improve P fertilization efficiency for farming.
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针铁矿中氧离子的球内吸附模型——为什么磷酸盐的吸附比硫酸盐的吸附更显著?
土壤中磷的有效性很低,这是由于它在黏土矿分中具有ph依赖电荷(如针铁矿)的球内络合作用而被强烈保留。另一方面,硫具有更大的可用性,因为它主要是通过静电吸引保留的。在不同的实验条件(pH、针铁矿纯度和接触时间)下,我们评估了正磷酸盐和硫酸盐(h2po4 - / hpo42 -和so42 -通常被处理为po4和so4)在合成针铁矿样品上的球内络合强度,以建立这些键的机制和模型。用hno31 1 mol L -1和USEPA 3051A两种方法提取球内po4和so4。当pH为5时,po4和so4的球内络合作用相对于pH为9时最高。衰减全反射/傅立叶变换红外光谱(ATR-FTIR)显示,po4在质子化双核双齿(pH 5)和去质子化双核双齿(pH 9)两种形式的针铁矿上的球内络合带。po4的球内络合比so4更具有表达性。磷和硫氧取代了双质子化的铁配体(-FeOH 2+0.5中的-OH 2+0.5),而-FeOH -OH -0.5基中的-OH -0.5只被po4取代。Fe-O -1.5基团中的-O -1.5配体不被po4或so4置换。po4的高表面负电荷密度决定了其相对于so4在针铁矿表面交换-OH 2+0.5和-OH -0.5的活化能较高。该模型可用于减少土壤内球对磷的吸附,提高农业施肥效率。
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来源期刊
Revista Brasileira De Ciencia Do Solo
Revista Brasileira De Ciencia Do Solo 农林科学-土壤科学
CiteScore
3.00
自引率
11.80%
发文量
32
审稿时长
9-24 weeks
期刊介绍: The Revista Brasileira de Ciência do Solo is a scientific journal published by the Brazilian Society for Soil Science (SBCS), founded in 1947, and is responsible for the propagation of original and inedited technical-scientific work of interest for Soil Science. Contributions must not have been previously published or submit to other periodicals, with the only exception of articles presented in summarized form at professional meetings. Literature reviews are accepted when solicited by the Editorial Board.
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