酸化对污染物去向及土壤过滤功能的影响

IF 0.5 Q4 ENVIRONMENTAL SCIENCES EQA-International Journal of Environmental Quality Pub Date : 2014-12-12 DOI:10.6092/ISSN.2281-4485/4555

J. Makovníková, R. Kanianska, M. Kizeková

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引用次数: 0

摘要

研究模拟酸负荷对土壤中无机污染物(Cd、Pb)的去势、土壤吸附势和土壤过滤功能的影响。以春大麦为材料，在4种不同土壤类型(氟维索、Cambisol、Stagnosol、Podzol)下进行了短期酸化盆栽试验。根据公式[土壤过滤功能]=[土壤吸附剂潜力]+[无机污染物总含量潜力]对土壤过滤潜力进行评价。根据公式[PSS]=F(pH)+F(A465/665)+F(Cox)*F(H)，由定性因子(pH，或有机质质量- A400/600)和定量因子(碳含量-Cox，腐殖质层厚度-H)定义土壤吸附剂电位(PSS)。酸负荷显著影响土壤的吸附势，从而影响镉和铅迁移率的增加，这反映在镉和铅向植物的转移上。土壤过滤功能结果表明，Cambisol的过滤功能发生了显著变化。

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IMPACT OF ACIDIFICATION ON POLLUTANTS FATE AND SOIL FILTRATION FUNCTION

The objective of this paper was to investigate the effects of simulated acid load on the fate of inorganic pollutants (Cd, Pb), soil sorption potential, soil filtration func-tion. We made use of a short-term acidification pot experiment with grown plant of spring barley cultivated at 4 different soil types (Fluvisol, Cambisol, Stagnosol, Podzol). The potential of soil filtration was evaluated according to the Eq.: [Soil filtration function]=[Potential of soil sorbents]+[Potential of total content of inor-ganic pollutants]. Potential of soil sorbents (PSS) is defined by qualitative (pH, or-ganic matter quality - A400/600) and quantitative factors (carbon content-Cox, humus layer thickness-H) according to the Eq.:[PSS]=F(pH)+F(A465/665)+F(Cox)*F(H). Acid load significantly influenced soil sorption potential and thus affected increase in Cd and Pb mobility what was reflected in their transfer into the plants. Results of soil filtration function showed significant change of filtration function in Cambisol.

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