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施用碱稳定固体的酸性土壤的Cu和Zn的形态分布
引用本文:LUO Yong-Ming. 施用碱稳定固体的酸性土壤的Cu和Zn的形态分布[J]. 土壤圈, 2002, 12(2): 165-170
作者姓名:LUO Yong-Ming
作者单位:Institute of Soil Science, the Chinese Academy of Sciences, Nanjing 210008 China 
基金项目:国家自然科学基金,国家重点基础研究发展计划(973计划),江苏省青年科技人才基金 
摘    要:Fractionation of metals in a granite-derived acid sandy loam soil amended with alkaline-stabilised sewagesIudge biosolids was conducted in order to assess metal bioavailability and environmental mobility soil solution was extracted by a centrifugation and filtration technique. Metal speciation in the soil solution wasdetermined by a cation exchange resin method. Acetic acid and EDTA extracting solutions were used forextraction of metals in soil solid surfaces. Metal distribution in different fractions of soil solid phase was determined using a three-step sequential extraction scheme. The results show that the metals in the soilsolution existed in different fractions with variable lability and metals in the soil solid phase were also presentin various chemical forms with potentially different bioavail ability and environmental mobility Alkaline-stabilised biosolids could elevate solubility of Cu and proportion of Cu in organically complexed fractionsboth in soil liquid and solid phases, and may therefore increase Cu mobility. In contrast, the biosolids lowered the concentrations of water-soluble Zn (labile fraction) and exchangeable Zn and may hence decrease bioavailability and mobility of Zn. However, Fe and Mn oxides bound and organic matter bound fractions are likely to be Zn pools in the sludge-amended soil. These consequences possibly result from the liming effect and metal speciation of the sludge product and the difference in the chemistry between the metals in soil.

关 键 词:alkaline-stabilised sewage sludge   chemical speciation   Cu   granite soil   Zn

Cu and Zn speciation in an acid soil amended with alkaline biosolids
LUO Yong-Ming. Cu and Zn speciation in an acid soil amended with alkaline biosolids[J]. Pedosphere, 2002, 12(2): 165-170
Authors:LUO Yong-Ming
Affiliation:Institute of Soil Science, the Chinese Academy of Sciences, Nanjing 210008 (China)
Abstract:Fractionation of metals in a granite-derived acid sandy loam soil amended with alkaline-stabilised sewage sludge biosolids was conducted in order to assess metal bioavailability and environmental mobility. Soil solution was extracted by a centrifugation and filtration technique. Metal speciation in the soil solution was determined by a cation exchange resin method. Acetic acid and EDTA extracting solutions were used for extraction of metals in soil solid surfaces. Metal distribution in different fractions of soil solid phase was determined using a three-step sequential extraction scheme. The results show that the metals in the soil solution existed in different fractions with variable lability and metals in the soil solid phase were also present in various chemical forms with potentially different bioavailability and environmental mobility. Alkalinestabilised biosolids could elevate solubility of Cu and proportion of Cu in organically complexed fractions both in soil liquid and solid phases, and may therefore increase Cu mobility. In contrast, the biosolids lowered the concentrations of water-soluble Zn (labile fraction) and exchangeable Zn and may hence decrease bioavailability and mobility of Zn. However, Fe and Mn oxides bound and organic matter bound fractions are likely to be Zn pools in the sludge-amended soil. These consequences possibly result from the liming effect and metal speciation of the sludge product and the difference in the chemistry between the metals in soil.
Keywords:alkaline-stabilised sewage sludge  chemical speciation  Cu  granite soil  Zn
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