| 外源锌刺激下水稻对土壤镉的累积效应 |
| 摘要点击 3809 全文点击 1355 投稿时间:2016-03-16 修订日期:2016-04-25 |
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| 中文关键词 外源锌 镉污染 累积 水稻 土壤 |
| 英文关键词 exogenous Zn Cd pollution accumulation rice soil |
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| 中文摘要 |
| 采用水稻盆栽实验研究不同含量外源Zn对模拟Cd中度污染和重度污染土壤中水稻低累积品种湘晚籼12和高累积品种威优46水稻各部位累积Cd的影响.结果表明,在Cd 中度污染水平,外源Zn分别增大2种水稻各部位Cd含量,湘晚籼12和威优46糙米Cd含量分别增加125.0%~275.0%和6.6%~91.2%,但各处理糙米Cd含量不高于0.2 mg·kg-1;在Cd 重度污染水平,外源Zn有降低水稻各部位中Cd含量的作用,湘晚籼12和威优46糙米Cd含量相应降低了16.6%~63.5%和15.6%~74.4%,且威优46糙米Cd含量随外源Zn施用含量的增大而逐渐降低,使得糙米中Cd含量低于0.2 mg·kg-1.水稻糙米累积Cd含量与土壤中Cd、Zn交换态含量的相关关系,因Cd污染程度和水稻品种的不同而不同.在Cd中度污染水平,湘晚籼12水稻糙米Cd含量与土壤中交换态Zn含量正线性相关,而威优46水稻糙米Cd含量与土壤中交换态Cd和Zn含量正线性相关;在Cd 重度污染水平,威优46水稻糙米Cd含量与土壤中交换态Cd和Zn含量为负线性相关.在不造成土壤Zn污染的前提下,可向Cd重度污染土壤施用一定量的Zn肥,以降低糙米Cd含量,提高糙米品质. |
| 英文摘要 |
| Pot experiments were carried out to study the influences of different concentrations of exogenous Zn on accumulation of Cd in various rice organs of low Cd accumulation cultivar Xiang-Wanxian 12 (XWX12) and high Cd accumulation cultivar Wei-You 46 (WY 46) exposed to soil with medium and serious Cd pollution. The results showed that:In the soil with medium Cd pollution, Cd contents in various rice organs of two rice varieties were increased by exogenous Zn, and the Cd contents in brown rice of XWX12 and WY46 were increased by 125.0% -275.0% and 6.6% -91.2%, respectively, but still lower than 0.2 mg·kg-1. In the soil with serious Cd pollution, Cd accumulation in various rice organs were reduced by exogenous Zn. Cd contents in brown rice of XWX12 and WY46 were reduced by 16.6%-63.5%, and 15.6%-74.4%, respectively, and Cd contents in brown rice of WY 46 were gradually decreased with increasing exogenous Zn application, resulting in lower than 0.2 mg·kg-1 of Cd in brown rice. The correlations of Cd contents in brown rice and exchangeable contents of Cd and Zn in soil were different depending on the Cd pollution levels and the rice varieties. In the soil with medium Cd pollution, Cd content in brown rice of XWX12 was linearly positively related to exchangeable Zn content in soil, and Cd content in brown rice of WY46 was linearly positively related to exchangeable Cd or Zn contents in soil. In the soil with serious pollution, however, the correlation of Cd contents in brown rice of WY46 and the contents of exchangeable Cd or Zn in soil was linear negative correlation. Therefore, for improvement of the rice quality, under the condition that total Zn content in soil was lower than the pollution level, applying a certain amount of Zn to reduce Cd contents in brown rice was feasible in the soil with serious pollution. |
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