摘要
选择一种红壤性水稻土研究了Cu(Ⅱ)对土壤吸附CrO24-的影响。结果表明,Cu(Ⅱ)显著增加了土壤对CrO24-的吸附量,Cu(Ⅱ)对CrO24-吸附的影响程度随着Cu(Ⅱ)加入量的增加和体系pH的升高而增加。Cu(Ⅱ)不仅增加土壤对CrO24-的吸附量,也增加CrO24-的解吸量,但解吸增量比吸附增量低得多,说明Cu(Ⅱ)对CrO42-在土壤中吸附的促进作用机制涉及静电作用、专性吸附和表面共沉淀。铜的促进作用增加了土壤对CrO24-的固定量,降低了CrO24-的活动性和生物有效性。
A paddy soil derived from red earth was chosen to study the effect of Cu( Ⅱ ) on CrO4^2- adsorption by the soil. Results showed that the presence of Cu( Ⅱ ) led to the increase in CrO4^2- adsorption, and the influencing degree of Cu( Ⅱ ) increased with the increase in the amount of Cu(Ⅱ ) added and the rise of pH. Cu( Ⅱ ) increased not only the adsorption of CrO4^2-, but also the desorption of pre-adsorbed CrO4^2-. Howev er, the increment of CrO4^2- desorption was lower than that of CrO4^2- adsorption, suggesting that the enhancement mechanisms of Cu(Ⅱ) on CrO4^2- adsorption on the soil involved the electrostatic attraction, specific adsorption and the formation of surface co-precipitates. The specific adsorption of Cu( Ⅱ ) on the soil increased the positive surface charge and surface potential and thus resulted in the increase in CrO4^2-CrO4^2- adsorption through electrostatic attraction. The effect of Cu( Ⅱ ) on surface potential also increased with the rise of pH, which is one of the reasons for the increase of Cu( Ⅱ ) enhancement with pH rising. The enhancement of Cu( Ⅱ ) increased the amount of CrO4^2- fixed by soil and reduced its mobility in soil and availability to plants.
出处
《农业环境科学学报》
CAS
CSCD
北大核心
2007年第1期262-264,共3页
Journal of Agro-Environment Science
基金
国家重点基础规划项目(2002CB410808)
国家自然科学基金项目(20577054)
