Department of Resources and Environmental Sciences, College of Agriculture, Guangdong Ocean University, Zhanjiang 524088, China.
Department of Resources and Environmental Sciences, College of Agriculture, Guangdong Ocean University, Zhanjiang 524088, China; Stockbridge School of Agriculture, University of Massachusetts, Amherst, MA 01003, USA.
J Environ Sci (China). 2015 Nov 1;37:8-14. doi: 10.1016/j.jes.2015.03.026. Epub 2015 Jul 2.
Oxidation of Cr(III) by manganese oxides may pose a potential threat to environments due to the formation of toxic Cr(VI) species. At present, it was still unclear whether the extent of Cr(III) oxidation and fate of Cr(VI) would be changed when manganese oxides co-exist with other minerals, the case commonly occurring in soils. This study investigated the influence of goethite and kaolinite on Cr(III) oxidation by birnessite under acidic pH condition (pH3.5) and background electrolyte of 0.01mol/L NaCl. Goethite was found not to affect Cr(III) oxidation, which was interpreted as the result of overwhelming adsorption of cationic Cr(III) onto the negatively-charged birnessite (point of zero charge (PZC)<3.0) rather than the positively-charged goethite (PZC=8.8). However, more Cr(VI) would be retained by the surface with the increase in addition of goethite because of its strong ability on adsorption of Cr(VI) at low pH. Moreover, either Cr(III) oxidation or distribution of the generated Cr(VI) between the solid and solution phases was not affected by kaolinite (PZC<3.0), indicating its low affinity for Cr species. Reactions occurring in the present mixed systems were suggested, which could be partly representative of those in the soils and further indicates that the mobility and risk of Cr(VI) would be decreased if goethite was present.
由于生成有毒的 Cr(VI) 物种,三价铬被锰氧化物氧化可能会对环境造成潜在威胁。目前,仍不清楚当锰氧化物与其他矿物共存时(这种情况在土壤中很常见),三价铬的氧化程度和六价铬的归宿是否会发生变化。本研究在酸性 pH 条件(pH3.5)和 0.01mol/L NaCl 背景电解质下,研究了针铁矿和高岭石对锰矿氧化三价铬的影响。研究发现针铁矿不会影响三价铬的氧化,这可以解释为阳离子三价铬被带负电荷的锰矿(零电荷点(PZC)<3.0)强烈吸附,而不是带正电荷的针铁矿(PZC=8.8)。然而,由于其在低 pH 下对 Cr(VI) 的强吸附能力,随着针铁矿添加量的增加,更多的 Cr(VI) 将被表面保留。此外,高岭石(PZC<3.0)对三价铬的氧化或生成的 Cr(VI) 在固-液相间的分布没有影响,表明其对 Cr 物种的亲和力较低。本研究提出了在混合体系中发生的反应,这些反应在一定程度上可以代表土壤中的反应,进一步表明如果存在针铁矿,Cr(VI)的迁移性和风险将降低。