硫素对水稻根系铁锰胶膜形成及吸收镉的影响

Influence of Sulfur on the Formation of Fe-Mn Plaque on Root and Uptake of Cd by Rice( Oryza sativa L. )

添加外源镉污染水稻土进行池栽试验,施入不同形态及数量的硫肥(单质硫、石膏),研究硫素对水稻根系铁锰胶膜的形成及对水稻吸收镉的影响.结果表明,整个水稻生育期内,土壤溶液Eh范围在-200~100 m V之间;p H在6.9~7.9之间;pe+p H在4~10之间.水稻根表胶膜以Fe膜为主,其质量分数达到5 000~13 000 mg·kg-1,Mn膜的质量分数相对较小,为170~580 mg·kg-1.在孕穗期高硫量处理与低硫量处理的铁胶膜质量分数分别为9 400 mg·kg-1和8 600 mg·kg-1,高硫量处理比低硫量处理可生成更多的铁胶膜;而根表锰胶膜的数量差异主要表现在分蘖期,单质硫和石膏硫处理的锰胶膜质量分数分别为600 mg·kg-1和400 mg·kg-1,达到显著差异水平,单质硫比石膏硫更易促进水稻根表锰胶膜的形成.胶膜对于Fe2+过量吸收有一定阻控作用,对Mn2+作用不显著.水稻根表胶膜吸附Cd的质量分数在分蘖期为78.8~131.1 mg·kg-1,孕穗期16.6~21.1mg·kg-1,成熟期3.0~9.2 mg·kg-1.在分蘖期与孕穗期,高硫量处理比低硫量处理的吸附量高,在成熟期反之.采用ACA方法浸提铁锰胶膜内的Cd测定值并不能真实地表明胶膜实际固定Cd的质量分数.水稻体内各部位Cd的质量分数表现为根>茎叶>籽粒.一定量的施硫能有效减少水稻各器官中Cd的质量分数.对于根和茎叶,单质硫在成熟期以前效果好于石膏硫;对于籽粒,石膏硫效果更佳.一定量的硫肥,能有效阻碍Cd从水稻根部向茎叶与籽粒的转移.对于茎叶,在孕穗期单质硫和石膏硫的Cd转移系数分别为0.13和0.25,差异显著,单质硫能更好地阻碍Cd的转移;对于籽粒,石膏硫的阻碍效果更好.

A pool culture experiment using exogenous Cd-polluted paddy soils was carried out to investigate the influence of different forms of sulfur fertilizers (sulfur and gypsum) on the formation of Fe-Mn plaque on rice root and the uptake of Cd by rice. The results showed that the redox potential (Eh) was about - 200-100 mV, the pH was 6. 9-7. 9 and the pe + pH was 4-10 in different growth periods of rice. The mass fractions of Fe and Mn plaque on rice root were 5 000-13 000 mg?kg - 1 and 170-580 mg?kg - 1 , respectively. The high sulfur treatment led to the formation of more Fe plaque than the low sulfur treatment, and the mass fractions of Fe plaque in both treatments were 9 400 mg?kg - 1 and 8 600 mg?kg - 1 respectively in the boot stage. Contents of Mn plaque, significantly different in the tiller stage by elemental sulfur treatment and gypsum treatment, were 600 mg?kg - 1 and 400 mg?kg - 1 , respectively. The elemental S treatment led to the formation of more Mn plaque on rice root than the gypsum treatment. The excessive intake of Fe2 +might be prevented by the formation of the plaque which had little significant influence on the uptake of Mn2 + . The mass fractions of Cd adsorbed by rice roots surface plaque were 78. 8-131. 1 mg?kg - 1 in tiller stage, 16. 6-21. 1 mg?kg - 1 in boot stage, and 3. 0-9. 2 mg?kg - 1 in mature stage. The high sulfur treatment led to higher adsorption of Cd by the plaque than the low sulfur treatment in the tiller stage and the boot stage, while opposite result was observed in the mature stage. The values of Cd on the plaque measured by ACA could not truly show its actual contents adsorbed. The mass fractions of Cd in the different parts of rice followed the order of roots﹥ stem leaf ﹥ grain. The sulfur fertilizers applied significantly reduced the mass fractions of Cd uptake in different parts of rice, and the elemental sulfur treatment had better effects than the gypsum treatment before the mature stage in roots and stem leaf, and the gypsum sulfur treatment was better for grain. A certain amount of sulfur fertilizers could effectively prevent the migration of Cd from roots to stem and grain. The transfer coefficients of Cd from roots to stem leaf in the elemental sulfur treatment and the gypsum treatment were 0. 13 and 0. 25 in the boot stage, respectively, and the difference was significant. Elemental sulfur was more effective to prevent the Cd migration from roots to stem leaf, and the gypsum treatment was more active from roots to grain.