[三种叶面抑制剂对水稻谷粒中镉和砷累积的影响]。

Q2 Environmental Science
Jun-Fan Yao, Yu-Ling Liu, Wei-Yu Zhang, De Yan, Nan Li, Bo-Qing Tie
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引用次数: 0

摘要

本研究调查了单施和联合施用三种叶面抑制剂对镉(Cd)和砷(As)积累的影响。和砷(As)的影响。早稻品种 "松雅早 1 号 "和 "五香优悦 "这两个水稻品种和武乡优优(晚稻)两个水稻品种。我们采用盆栽试验法设立了九个处理,包括对照(CK)以及三种单独的叶面抑制剂:半胱氨酸(L-Cys)、硫化钾(K2S)和磷酸氢二钾(K2HPO4)。然后,我们将两种叶面抑制剂结合使用:L-Cys 与低/高浓度的 K2S,L-Cys 与低/高浓度的 K2HPO4,以及 K2S 与低浓度的 K2HPO4。结果表明,叶面抑制剂的单一施用和联合施用都能降低稻谷中的镉和砷浓度。经 L-Cys 和 K2S/K2HPO4 处理的糙米中的镉含量降至 0.20 mg-kg-1 的食品安全标准限值以下。与 CK 相比,早稻和晚稻中的无机砷含量(IAs)分别降低了 4.68%-56.75% 和 2.84%-16.91% 。单独或联合施用叶面抑制剂可促进镉和砷从茎秆向叶片的迁移,同时抑制它们从叶片向稻粒的迁移。这导致镉和砷被螯合在叶片细胞壁内,最终降低了这些元素在稻粒中的含量。在综合处理中,施用 L-Cys 和高浓度 K2S 的效果最好。早稻和晚稻的镉含量分别降低了 37.64% 和 26.37%,低于 0.20 mg-kg-1。早稻和晚稻中的镉含量分别降低了 37.64% 和 26.37%,低于 0.20 mg-kg-1。和 0.24 mg-kg-1。这项研究为实现水稻安全生产提供了宝贵的理论基础和经验数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Effect of Three Foliar Inhibitors on Accumulation of Cd and As in Rice Grains].

This study investigated the impact of single and combined applications of three foliar inhibitors on the accumulation of cadmium (Cd) and arsenic (As) in rice grains. Two rice varieties, Songyazao 1 (for early rice) and Wuxiang Youyue (for late rice), were selected for this experiment. We established nine treatments using a pot experiment method, including a control (CK) treated with no foliar inhibitor and three individual foliar inhibitors: cysteine (L-Cys), potassium sulfide (K2S), and dipotassium hydrogen phosphate (K2HPO4). We then combined the applications of two foliar inhibitors: L-Cys with low/high concentrations of K2S, L-Cys with low/high concentrations of K2HPO4, and K2S with a low concentration of K2HPO4. The results showed that the single and combined applications of foliar inhibitors reduced Cd and As concentrations in rice grains. The Cd content in brown rice treated with L-Cys and K2S/K2HPO4 was reduced below the standard limit for food safety of 0.20 mg·kg-1. Compared to the CK, the content of inorganic arsenic (IAs) in early and late rice decreased by 4.68%-56.75% and 2.84%-16.91%, respectively. Foliar inhibitors applied individually or in combinations facilitated the transport of Cd and As from the stem to the leaf while inhibiting their transport from the leaf to the rice grain. This resulted in the sequestration of Cd and As within the leaf cell wall, ultimately reducing the content of these elements in rice grains. Among the combination treatments, the application of L-Cys and high-concentration K2S achieved the best results. The Cd content in early and late rice decreased by 37.64% and 26.37%, respectively, falling below 0.20 mg·kg-1. The IAs content in early and late rice was reduced to 0.10 mg·kg-1 (below 0.20 mg·kg-1) and 0.24 mg·kg-1, respectively. This study provides a valuable theoretical foundation and empirical data to support the achievement of safe rice production practices.

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来源期刊
环境科学
环境科学 Environmental Science-Environmental Science (all)
CiteScore
4.40
自引率
0.00%
发文量
15329
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