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添加碳酸钙对土壤中镉形态转化与玉米叶片镉组分的影响
引用本文:周卫,汪洪,李春花,林葆. 添加碳酸钙对土壤中镉形态转化与玉米叶片镉组分的影响[J]. 土壤学报, 2001, 38(2): 219-225
作者姓名:周卫  汪洪  李春花  林葆
作者单位:中国农业科学院土壤肥料研究所,
基金项目:国家自然科学基金资助项目(批准号49671044)
摘    要:采用土壤培养、盆栽试验及连续提取测定等方法研究添加碳酸钙对外源镉在棕壤中的转化与玉米叶片镉组分的影响。与不加碳酸钙处理比较,添加碳酸钙处理土壤交换态镉含量显著下降,专性吸附态镉、铁锰氧化物结合态镉和残余态镉含量显著增加;添加碳酸钙处理可显著增加土壤pH、土壤饱和浸提液[Ca2十]及[Ca2十]/[Cd2十],并显著降低饱和浸提液[Cd2+]碳酸钙处理玉米根、茎、叶干重和全钙量显著增加,全镉含量及叶片H2O提取镉、2mol L-1 NaNO3提取镉、10%HOAc提取镉、2mol L-1 HCI提取镉和残余镉含量均明显减少。上述结果显示,添加碳酸钙可降低土壤─植物体系的镉毒害。

关 键 词:碳酸钙  降低镉毒害  土壤镉形态  玉米  叶片镉组分
收稿时间:1999-09-14
修稿时间:1999-09-14

EFFECTS OF CALCIUM CARBONATE ADDITION ON TRANSFORMATION OF CADMIUM SPECIES IN SOIL AND CADMIUM FORMS IN LEAVES OF MAIZE
Zhou Wei,Wang Hong,Li Chun-hua and Lin Bao. EFFECTS OF CALCIUM CARBONATE ADDITION ON TRANSFORMATION OF CADMIUM SPECIES IN SOIL AND CADMIUM FORMS IN LEAVES OF MAIZE[J]. Acta Pedologica Sinica, 2001, 38(2): 219-225
Authors:Zhou Wei  Wang Hong  Li Chun-hua  Lin Bao
Affiliation:Soil and Fertilizer Institute, CAAS, Key Laboratory of Plant Nutrition Research, MOA, Bejing 100081;Soil and Fertilizer Institute, CAAS, Key Laboratory of Plant Nutrition Research, MOA, Bejing 100081;Soil and Fertilizer Institute, CAAS, Key Laboratory of Plant Nutrition Research, MOA, Bejing 100081;Soil and Fertilizer Institute, CAAS, Key Laboratory of Plant Nutrition Research, MOA, Bejing 100081
Abstract:Pot experiment, laboratory culture and the sequential extraction procedures for the speciation of Cd in soil and plant were used to study the effects of calcium carbonate (CaCO3) addition on transformation of cadmium (Cd) species in a brown soil added with Cd and change of Cd forms in leaves of maize. Compared to no CaCO3 addition, CaCO3 addition could lower content of exchangeable Cd, but increase the specifically adsorbed Cd, Cd bound to iron and manganese oxides, and residual Cd in the soil significantly. In presence of CaCO3, soil pH, and [Ca2 ] and [Ca2 ] / [Cd2 ] in saturation extracts increased, while [Cd2 ] decreased, significantly. It was also found that dry weight and total Ca content of roots, stems and leaves of maize significantly increased, While the contents of total Cd, extractable Cd (H2O, 2mol L-1 NaNo3, 10% HOAc and 2mol L-1 HCI) and residual Cd obviously decreased with adding CaCO3. It was concluded that Cd toxicity in soil-plant system could be alleviated by CaCO3 addition.
Keywords:Calcium carbonate   Alleviation of Cd toxicity   Soil Cd species   Maize   Cd fractions in leaves
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