通过在受污染田地中施用不同的硅肥来减轻水稻籽粒中的镉和砷含量。

Mitigation of cadmium and arsenic in rice grain by applying different silicon fertilizers in contaminated fields.

作者信息

Wang Hong-Yan, Wen Shi-Lin, Chen Peng, Zhang Lu, Cen Kuang, Sun Guo-Xin

机构信息

School of Earth Sciences and Resources, China University of Geosciences, Beijing, 100083, China.

State Key Laboratory of Urban and Regional Ecology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, 100085, China.

出版信息

Environ Sci Pollut Res Int. 2016 Feb;23(4):3781-8. doi: 10.1007/s11356-015-5638-5. Epub 2015 Oct 24.

DOI:10.1007/s11356-015-5638-5

PMID:26498817

Abstract

A field experiment was established to support the hypothesis that application of different silicon (Si) fertilizers can simultaneously reduce cadmium (Cd) and arsenic (As) concentration in rice grain. The "semi-finished product of Si-potash fertilizer" treatment at the high application of 9000 kg/ha (NP+S-KSi9000) significantly reduced the As concentration in rice grain by up to 20.1%, compared with the control. Si fertilization reduces the Cd concentration in rice considerably more than the As concentration. All Si fertilizers apart from sodium metasilicate (Na2SiO3) exhibited a high ability to reduce Cd concentration in rice grain. The Si-calcium (CaSi) fertilizer is the most effective in the mitigation of Cd concentration in rice grain. The CaSi fertilizer applied at 9000 kg/ha (NPK+CaSi9000) and 900 kg/ha (NPK+CaSi900) reduced the Cd concentration in rice grain about 71.5 and 48.0%, respectively, while the Si-potash fertilizer at 900 kg/ha (NP+KSi900), the semi-finished product of Si-potash fertilizer at both 900 kg/ha (NP+S-KSi900) and 9000 kg/ha (NP+S-KSi9000), and the rice straw (NPK+RS) treatments reduced the Cd concentration in rice grain about 42, 26.5, 40.7, and 23.1%, respectively. The results of this investigation demonstrated the potential effects of Si fertilizers in reducing Cd and As concentrations in rice grain.

摘要

开展了一项田间试验，以支持以下假设：施用不同的硅（Si）肥可同时降低水稻籽粒中的镉（Cd）和砷（As）浓度。与对照相比，“硅钾肥半成品”处理在9000 kg/ha的高施用量下（NP + S - KSi9000）显著降低了水稻籽粒中的As浓度，降幅高达20.1%。施硅肥降低水稻籽粒中Cd浓度的幅度远大于As浓度。除偏硅酸钠（Na2SiO3）外，所有硅肥均表现出较高的降低水稻籽粒中Cd浓度的能力。硅钙（CaSi）肥在降低水稻籽粒中Cd浓度方面最为有效。以9000 kg/ha（NPK + CaSi9000）和900 kg/ha（NPK + CaSi900）施用CaSi肥时，分别使水稻籽粒中的Cd浓度降低了约71.5%和48.0%，而以900 kg/ha（NP + KSi900）施用硅钾肥、以900 kg/ha（NP + S - KSi900）和9000 kg/ha（NP + S - KSi9000）施用硅钾肥半成品以及稻草（NPK + RS）处理，分别使水稻籽粒中的Cd浓度降低了约42%、26.5%、40.7%和23.1%。本研究结果证明了硅肥在降低水稻籽粒中Cd和As浓度方面的潜在作用。

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通过在受污染田地中施用不同的硅肥来减轻水稻籽粒中的镉和砷含量。

Mitigation of cadmium and arsenic in rice grain by applying different silicon fertilizers in contaminated fields.

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