茜素络合剂-微分吸附计时电位法测定高含铁量土壤中铝形态

Determination of aluminum fractions in soil samples with high iron content by adsorption stripping voltammetry with alizarin complexone

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摘要研究了茜素络合剂-微分吸附计时电位法(AC-ASV)测定土壤溶液中铝形态的最佳条件,着重探讨了共存离子,特别是土壤溶液中的无机离子和有机阴离子对测定铝的影响,建立了测定土壤溶液中铝形态方法。用该法可测定总反应性铝、总单核铝[Ala]和稳定性单核铝[Ali],由总反应性铝减去总单核铝求得酸溶性铝[Als],由总单核铝[Ala]减去稳定单核铝求得不稳定单核铝[Alo],与标准的Driscoll方法(阳离子树脂交换分离-8-羟基喹啉-原子吸收法)进行了比较。结果表明:茜素络合剂(AC)-微分吸附计时电位法灵敏度较高,铁的干扰较少。该法适合于测定含铁量比较高的土壤溶液中的铝形态。 The optimum conditions for the determination of aluminum were proposed by using alizarin complexone-adsorption stripping voltammetry （AC-ASV）. A procedure was developed for the determination of total reactive aluminum （Air）, total monomeric aluminum（Ala） and non-labile monomeric aluminum （Alo） in soil solution. Then the acid soluble aluminum （Als） was obtained by subtracting the total monomeric alum inum from total reactive aluminum. The labile monomeric aluminum（Ali） was obtained by subtracting the non-labile monomeric aluminum from the total monomeric aluminum. The effects of coexist substances such as iron and citratic acid on determination of aluminum in soil solution were investigated. The results showed that the AC-ASV was more sensitive than standard Driscoll＇s cation exchange-8-Hydroxylquinoline GF-AAS method. The method was applied to the determination of the fraction of aluminum in soil solution with more iron and the results agreed well with Driscoll＇s method.

作者李天华王鲁燕候建国方灵正干宁

机构地区宁波市新型功能材料及其制备科学国家重点实验室//宁波大学材料与化工学院

出处《生态环境》 CSCD 北大核心 2007年第3期890-894,共5页 Ecology and Environmnet

基金国家自然科学基金项目(60508012) 浙江省科技攻关项目(2006C31040) 宁波市自然科学基金项目(2006A610048)

关键词茜素络合剂微分吸附计时电位法土壤铝形态 alizarin complexone adsorption stripping voltammetry, aluminum speciation in soil

分类号 O657.1 [理学—分析化学]

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茜素络合剂-微分吸附计时电位法测定高含铁量土壤中铝形态

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