Efficacy of different amendments and residual effects on nickel toxicity and nutritional quality in wheat/rice continuous system and health risk assessment in Ultisol

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-02-13 DOI:10.1080/03650340.2023.2169280

U. Ali, Fatma Abdelrhman, S. Bashir, M. Shaaban, Z. Shah, Omar Rady, Q. Fu, Jun Zhu, Hongqing Hu

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引用次数: 1

Abstract

ABSTRACT Rice straw (RS), biochar (BC) and lime (LM) have proved to be effective immobilizing agents in acidic contaminated soil. Up-to-date scientific data is lacking regarding residual effects of these amendments in acidic soils and wheat/rice cropping system. The objective was to analyze the efficacy of amendments to improve grain yields, nutritional quality, and reduce Ni bioavailability of wheat/rice rotation system. A pot experiment was conducted to examine the efficacy of RS, BC 10 and 20 g kg−1 and LM 10 g kg−1 application rates on plant growth, nutritional quality and Ni contents in wheat and rice tissues and grain. Amendments enhanced Ni immobilization, declined their uptake by plants and accumulation in the grains of both crops. Rice straw biochar reduced several factors like health risk assessment, Ni uptake and bioconcentration factor. BC 20 g kg−1 increased shoot, root and grain yields, while enhanced essential nutrients in the wheat/rice cropping system compared to untreated soil. Soil amendments significantly decreased toxicity characteristics leaching procedure (TCLP) extractable Ni by 42.25% and 42.62% and simple bioaccessibility extraction test (SBET) by 42.1% and 45.25% in post- wheat/rice crops. This process enhanced the safety of wheat/rice rotation cropping system to be consumed and mitigated security risks.

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不同改良剂和残留效应对小麦/水稻连续系统镍毒性和营养品质的影响及Ultisol的健康风险评估

稻草(RS)、生物炭(BC)和石灰(LM)是酸性污染土壤中有效的固定化剂。关于这些改良剂在酸性土壤和小麦/水稻种植系统中的残留效应，缺乏最新的科学数据。目的是分析小麦/水稻轮作系统中改良剂对提高粮食产量、营养品质和降低镍生物利用度的效果。通过盆栽试验，研究了RS、BC 10、20 g kg - 1和LM 10 g kg - 1施用量对小麦和水稻植株生长、营养品质和籽粒镍含量的影响。改良增强了镍的固定化作用，降低了植物对镍的吸收和两种作物籽粒的积累。秸秆炭降低了健康风险评价、Ni吸收量和生物浓缩系数。与未经处理的土壤相比，bc20 g kg - 1增加了小麦/水稻种植系统的茎、根和谷物产量，同时增加了必需营养素。土壤改进剂显著降低了小麦/水稻后作物毒性特征浸出法(TCLP)可提取镍含量(分别降低42.25%和42.62%)和简单生物可及性提取试验(SBET)含量(分别降低42.1%和45.25%)。这一过程提高了小麦/水稻轮作系统消费的安全性，降低了安全风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464