磁化废水灌溉对土壤重金属、水分生产率以及玉米气生部分和籽粒中重金属的影响

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Mojtaba Khoshravesh, Masoud Pourgholam-Amiji
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引用次数: 0

摘要

人口增长使粮食资源紧张;废水回用增加了粮食资源,但也带来了微生物和重金属污染,对自然和人类健康造成影响。在环境污染物中,废水中的重金属是一个主要问题。使用磁化水是改善水质和土壤质量的一种方法。本研究的目的是调查使用经处理的磁化废水对土壤中重金属的化学性质和追踪、性能和产量成分、用水效率以及玉米植株对重金属的吸收的影响。灌溉处理包括在磁场和非磁场应用条件下的各种水和废水混合比例。结果表明,灌溉水和水与废水混合对不同深度的电导率、土壤盐分和重金属的影响在 1%的概率水平上显著。与非磁化废水处理相比,用磁化废水灌溉平均可显著提高玉米的谷物产量(9.8%)和生物产量(10.63%)。与非磁化废水处理相比,使用磁化废水灌溉可显著提高生物产量(10.92%)和物理产量(10.13%)。与非磁化水处理相比,使用磁场可使植物气生部分的铅、镉、锌和镍浓度分别降低 17.99%、23.25%、17.86% 和 17.12%。磁化水提高了玉米的用水效率,采用这种技术进行灌溉管理有助于更有效、更经济地利用有限的水资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The effect of irrigation with magnetized wastewater on soil heavy metals, water productivity and heavy metals in aerial parts and grains of maize

The effect of irrigation with magnetized wastewater on soil heavy metals, water productivity and heavy metals in aerial parts and grains of maize

Rising population strains food resources; reusing wastewater increases but brings microbial and heavy metal pollution, impacting nature and human health. Among environmental pollutants, heavy metals in wastewater are a major concern. Using magnetized water is a method to improve water and soil quality. The aim of this research is to investigate the effect of using treated magnetized wastewater on the chemical properties and tracking of heavy metals in the soil, performance and yield components, water efficiency, and absorption of heavy metals by maize plant. Irrigation treatments consisted of various water and wastewater blending ratios under both magnetic and non-magnetic field application conditions. The results showed that the effect of irrigation water and mixing of water and wastewater on electrical conductivity, soil salts and heavy metals in different depths were significant at 1% probability level. On average, irrigation with magnetized wastewater caused a significant increase in grain yield (9.8%) and biological yield of maize (10.63%) compared to non-magnetized wastewater treatment. Irrigation with magnetized wastewater caused a significant increase in biological (10.92%) and physical (10.13%) productivities compared to non-magnetized wastewater treatment. With applying a magnetic field resulted in a reduction of 17.99%, 23.25%, 17.86%, and 17.12% in the concentration of lead, cadmium, zinc, and nickel in the aerial parts of the plant, respectively, compared to the non-magnetized water treatment. Magnetized water increases the water use efficiency of maize and irrigation management with this technology can be useful in more effective and economical use of limited water resources.

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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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