兰州大学学报(自然科学版)
蘭州大學學報(自然科學版)
란주대학학보(자연과학판)
JOURNAL OF LANZHOU UNIVERSITY(NATURAL SCIENCES)
2013年
6期
759-764
,共6页
白英%刘铮%颜斌%陈竞%王胜利%赵转军%南忠仁
白英%劉錚%顏斌%陳競%王勝利%趙轉軍%南忠仁
백영%류쟁%안빈%진경%왕성리%조전군%남충인
绿洲土壤%Pb%Cd%Zn%干旱区
綠洲土壤%Pb%Cd%Zn%榦旱區
록주토양%Pb%Cd%Zn%간한구
oasis soil%Pb%Cd%Zn%arid area
通过干旱区绿洲土壤Cd/Zn 和Cd/Zn/Pb 复合作用下的盆栽试验,对比研究了外源Pb 的添加对Cd/Zn复合污染土壤中Cd, Zn的形态分布与再分配的影响。结果表明:两种组合下Cd, Zn的主要赋存形态都为碳酸盐结合态和铁锰氧化态,说明Pb的添加对Cd/Zn复合污染土壤中Cd, Zn的主要赋存形态无明显影响。 Cd的全量是影响其可交换态、碳酸盐结合态和铁锰氧化态含量的主要因素, Zn的5种形态含量的主要影响因素都为Zn的全量。随着外源添加量的增加, Cd, Zn在土壤中的总再分配系数增大,结合强度系数减小,表明Cd, Zn的总量越大,各形态间的稳定性越低,潜在危害越大。两种组合比较可知, Pb的添加使Cd/Zn复合污染土壤中Cd的活性增强, Zn的活性减弱。
通過榦旱區綠洲土壤Cd/Zn 和Cd/Zn/Pb 複閤作用下的盆栽試驗,對比研究瞭外源Pb 的添加對Cd/Zn複閤汙染土壤中Cd, Zn的形態分佈與再分配的影響。結果錶明:兩種組閤下Cd, Zn的主要賦存形態都為碳痠鹽結閤態和鐵錳氧化態,說明Pb的添加對Cd/Zn複閤汙染土壤中Cd, Zn的主要賦存形態無明顯影響。 Cd的全量是影響其可交換態、碳痠鹽結閤態和鐵錳氧化態含量的主要因素, Zn的5種形態含量的主要影響因素都為Zn的全量。隨著外源添加量的增加, Cd, Zn在土壤中的總再分配繫數增大,結閤彊度繫數減小,錶明Cd, Zn的總量越大,各形態間的穩定性越低,潛在危害越大。兩種組閤比較可知, Pb的添加使Cd/Zn複閤汙染土壤中Cd的活性增彊, Zn的活性減弱。
통과간한구록주토양Cd/Zn 화Cd/Zn/Pb 복합작용하적분재시험,대비연구료외원Pb 적첨가대Cd/Zn복합오염토양중Cd, Zn적형태분포여재분배적영향。결과표명:량충조합하Cd, Zn적주요부존형태도위탄산염결합태화철맹양화태,설명Pb적첨가대Cd/Zn복합오염토양중Cd, Zn적주요부존형태무명현영향。 Cd적전량시영향기가교환태、탄산염결합태화철맹양화태함량적주요인소, Zn적5충형태함량적주요영향인소도위Zn적전량。수착외원첨가량적증가, Cd, Zn재토양중적총재분배계수증대,결합강도계수감소,표명Cd, Zn적총량월대,각형태간적은정성월저,잠재위해월대。량충조합비교가지, Pb적첨가사Cd/Zn복합오염토양중Cd적활성증강, Zn적활성감약。
A pot experiment was conducted to study the effect of Pb on the redistribution and the distribution of different forms of Cd and Zn in soil polluted by Cd and Zn, by testing 2 different combinations of heavy metals Cd/Zn and Cd/Zn/Pb. The results showed that the main forms of Cd and Zn were carbonate bounded form and Fe-Mn oxide form in 2 different combinations; so there was not significant effect of Pb on the main forms of Cd and Zn in Cd/Zn combined polluted soil. The total capacity of Cd was the main influence factor on its exchangeable form, carbonate bounded form and Fe-Mn oxide form. But the total capacity of Zn was the main influence factor on all of its forms. With the concentrations of Cd and Zn being increased, the redistribution index of Cd and Zn increased, and their combination indexes decreased. With the total capacity of Cd and Zn being increased, the stability of different forms became weaker, and the potential hazards of heavy metals became greater. Pb could increase the availability of Cd, but decrease the availability of Zn in compound contaminated soil.