大规模农田中添加发酵植物废料改良剂后水稻镉浓度及土壤表面氧化还原电位的变化

Variations in Cadmium Concentrations in Rice and Oxidation-Reduction Potential at the Soil Surface with Supplementation of Fermented Botanical Waste-based Amendment in Large-scale Farmland.

作者信息

Wada Nobuhiko, Di Gao, Itabashi Hideyuki, MoRi Masanobu, Lin Yusuo, Deng Shaopo, Xu Weiwei, Guo Weiwei, Luo Yuanheng, Zhu Dianyu

机构信息

Graduate School of Science and Technology, Gunma University, 1-5-1, Tenjin-cho, Kiryu, 376-8515, Japan.

Shanghai Shenglong Environment Remediation Materials Co. Ltd, Building 6, No. 936, Guoshun Road, Nanqiao Town, Fengxian District, Shanghai, 201400, China.

出版信息

Anal Sci. 2020 May 10;36(5):531-535. doi: 10.2116/analsci.19SBP01. Epub 2020 Mar 13.

DOI:10.2116/analsci.19SBP01

PMID:32173674

Abstract

We monitored the relationship between the cadmium (Cd) concentration uptake of rice and the oxidation-reduction potential (ORP) at the soil surface with the supplementation of fermented botanical waste-based amendment (FBWA), an organic fertilizer prepared from woody and food wastes. This study was carried out for 3 years in the western part of Jiangsu Province, China. It was found that the Cd concentration taken up by rice was correlated to a decreased the ORP of the cultivated soil. The yield of rice was ∼1.20 times higher than that of the control plot. The effects of reducing the Cd content in rice and increasing the rice yield remained for 2 years after FBWA application. Finally, Cd was immobilized in the soil with adsorption to FBWA or the decomposed products. The ORP measurement during rice cultivation might be a key index to predict the suppression effect of Cd uptake into the rice or limitation of the sustainable effect by the FBWA.

摘要

我们监测了水稻对镉（Cd）的吸收浓度与土壤表面氧化还原电位（ORP）之间的关系，同时添加了基于发酵植物废料的改良剂（FBWA），这是一种由木质和食物废料制备的有机肥料。本研究在中国江苏省西部进行了3年。结果发现，水稻吸收的Cd浓度与耕作土壤ORP的降低相关。水稻产量比对照地块高出约1.20倍。施用FBWA后，降低水稻Cd含量和提高水稻产量的效果持续了2年。最后，Cd通过吸附在FBWA或其分解产物上而固定在土壤中。水稻种植期间的ORP测量可能是预测水稻对Cd吸收的抑制效果或FBWA可持续效果局限性的关键指标。

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Variations in Cadmium Concentrations in Rice and Oxidation-Reduction Potential at the Soil Surface with Supplementation of Fermented Botanical Waste-based Amendment in Large-scale Farmland.大规模农田中添加发酵植物废料改良剂后水稻镉浓度及土壤表面氧化还原电位的变化

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大规模农田中添加发酵植物废料改良剂后水稻镉浓度及土壤表面氧化还原电位的变化

Variations in Cadmium Concentrations in Rice and Oxidation-Reduction Potential at the Soil Surface with Supplementation of Fermented Botanical Waste-based Amendment in Large-scale Farmland.

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