Wang Meie, Yang Yang, Chen Weiping
J Environ Qual. 2018 Mar;47(2):306-311. doi: 10.2134/jeq2017.06.0237.
Very little has been reported on the effects of pH, Zn, and Mn on Cd uptake in rice ( L.) and their levels under field conditions. Rice accumulates a high concentration of Cd in acid soils, even at low soil Cd levels. Lime (CaO) was spread at 1200 kg ha on the topsoil of a rice field during the tillering stage. Effects of liming on rice Cd, soil pH, and amorphous Mn (MnO-AM) were then investigated. Slight increases in pH from 5.17 to 5.45 and MnO-AM from 66.3 to 82.1 mg kg were observed after liming. The proportion of rice samples with a Cd concentration greater than the Chinese rice Cd standard (0.2 mg kg dry wt. in grain) decreased by ∼15%. The pH, which varied from 4.8 to 5.8, did not significantly affect rice Cd, whereas soil Cd and Zn had a significantly positive effect, together accounting for ∼14% of the variance. Soil Mn had significantly negative effects on rice Cd, accounting for >18% of the variance. For a Cd concentration <0.2 mg kg dry wt. in rice grain, the critical pH value in paddy soil was ∼5.7, and that for Mn at pH 4.8 to 5.8 was ∼300 mg kg. Our findings showed that Cd concentration in rice grain in an acid paddy soil increased with an increase of Zn and a decrease of Mn when these metals were at sufficient levels.
关于pH值、锌和锰对水稻镉吸收的影响及其在田间条件下的含量,相关报道甚少。即使土壤镉含量较低,水稻在酸性土壤中也会积累高浓度的镉。在分蘖期,将1200千克/公顷的石灰(CaO)施用于稻田表土。随后研究了施石灰对水稻镉、土壤pH值和无定形锰(MnO-AM)的影响。施石灰后,pH值从5.17略微升高至5.45,MnO-AM从66.3毫克/千克增加至82.1毫克/千克。镉浓度高于中国水稻镉标准(谷物中干重为0.2毫克/千克)的水稻样本比例下降了约15%。pH值在4.8至5.8之间变化时,对水稻镉含量没有显著影响,而土壤镉和锌对水稻镉含量有显著的正向影响,二者共同解释了约14%的变异。土壤锰对水稻镉含量有显著的负向影响,解释的变异超过18%。对于水稻籽粒中镉浓度<0.2毫克/千克干重的情况,稻田土壤的临界pH值约为5.7,在pH值为4.8至5.8时,锰的临界值约为300毫克/千克。我们的研究结果表明,当这些金属含量充足时,酸性稻田土壤中水稻籽粒中的镉浓度会随着锌含量的增加和锰含量的降低而增加。
