杂交水稻对Cd的吸收与籽粒积累:土壤和品种的交互影响

土壤-作物-食物是人类摄取Cd的主要途径,而水稻是籽粒Cd积累最强的粮食作物.选择2种杂交水稻(普通杂交稻“汕优63”和超级稻“Ⅱ优明86”)与乌栅土和红沙泥田2种水稻土为材料,采用添加Cd(2.5 mg/kg)和不添加Cd处理进行盆栽试验,研究了水稻在成熟期对土壤中Cd的吸收及籽粒积累特点.结果表明,杂交水稻对Cd的吸收及籽粒积累依土壤、品种及两者的交互作用而变化.杂交稻对土壤中原有Cd的吸收与积累,基因型影响高于土壤类型的影响,但对外源Cd的吸收与籽粒积累,土壤类型的影响强于品种基因型,而土壤与品种间的正交互作用(Cd吸收强的超级稻种植于土壤Cd化学有效性高的红沙泥田)可使水稻籽粒Cd积累成倍提高.说明在未污染条件下,杂交稻对Cd的吸收与籽粒积累主要受品种的吸收能力控制,而在污染条件下,土壤化学性质对Cd有效性的影响成为土壤-水稻系统Cd迁移的主要控制因素.本实验显示,在酸性土壤或污染条件下,超级稻对Cd的吸收与籽粒积累十分强烈,就地消费人群的籽粒Cd暴露风险水平达到数倍于临界摄入剂量水平.加Cd处理下,汕优63中Cd滞留于根部,而Ⅱ优明86有较强的将Cd向上运输的能力,Ⅱ优明86籽粒Cd积累的不利效应远远超过其产量的增加效应.因此,在高产水稻育种中必须考虑水稻对Cd吸收的基因型差异与籽粒Cd的暴露风险,推广高产杂交水稻根据其Cd的吸收特性考虑土壤-品种的合理布局.

Cd Uptake and Accumulation in Grains by Hybrid Rice in Two Paddy Soils:Interactive Effect of Soil Type and Cultivars

Cd translocation through soil-food crop-diet is considered as one of most important pathway for human Cd exposure. Rice is considered as a particular crop with high Cd uptake and accumulation in grains among the main food crops. In this study, a pot experiment was conducted to elucidate mutual interaction of soil and cultivars on uptake and grain accumulation of Cd by hybrid rice with or without Cd spiking at 2.5 mg x kg(-1) under continuous submerging condition. Two hybrid rice cultivars (Shanyou 63, a common hybrid rice and II Youming 86, a super-rice) and two paddy soils (a Wushantu, Gleyic Stagnic Anthrosols and a Hongshanitian, Ultic Stagnic Anthrosols) were used. The results show significant differences in Cd uptake and grain partitioning between soils, cultivars and the soil-cultivar interactions. The cultivars effect on uptake of indigenous soil Cd seems stronger than the soil effect while soil effect turns significant over that of cultivars on spiked Cd. However, intense Cd accumulation in grains is found under the positive interaction of soil with high Cd availability and cultivar with high Cd affinity (super rice on acidic paddy soil). This study demonstrates a phenomenon of intense Cd uptake and grain accumulation by super rice and, thus, imposing a very high Cd exposure risk (as several times as the acceptable daily intake, ADI) to subsistence-diet farmers. The low Cd cultivar Shanyou 63 tends to hamper the up-taken Cd in root while the super rice II Youming 86 promotes higher partitioning to grain. Furthermore, the difference in total biomass between the two cultivars is small compared to that in total Cd uptake under Cd spiking. It is suggested that the Cd uptake behavior should be taken into account in super rice breeding and practical measures should be taken while spread of super rice cultivars in rice areas with acidic soils and under Cd pollution in order to control the human Cd exposure by diet.