Sustainable Practices for Diminishing Nitrate Leaching

IF 1.5 Q4 ENGINEERING, ENVIRONMENTAL

Environmental Quality Management Pub Date : 2025-01-29 DOI:10.1002/tqem.70032

Nasrin Gharahi, Rasool Zamani-Ahmadmahmoodi

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引用次数: 0

Abstract

Investigating the factors affecting water and salt movement in the soil and utilizing new amendments, such as mineral nanoparticles and biochar, can significantly contribute to proper land management and reduce nitrate (NO₃^–) leaching, thus preventing groundwater pollution. This study aimed to investigate the effects of mineral nanoparticles and biochar derived from wheat residues on NO₃^– leaching from the soil and soil particle stability. The treatments used in this study included three treatments: nanozeolite, nanoclosite, and biochar, each at two levels (10 and 50 g/kg of soil, 1% and 5% w/w) and a control treatment. The duration of the experiment and the amount of fertilizer added to the soil columns matched the corn cultivation period. Nitrate fertilizer containing 46% pure nitrogen was used to introduce NO₃^– into the soil columns. The irrigation of the soil columns was performed by weighing the lost water from the control soil column. Compared with those in the control sample, the amount of NO₃^– leached from the soil columns in the 10-g biochar, 10-g nanozeolite, and 10-g nanoclosite treatments significantly decreased. Additionally, the amount of NO₃^– leached from the soil columns in the 50 g biochar, 50 g nanozeolite, and 50 g nanoclosite treatments significantly decreased compared to that in the control sample. Throughout all weeks of the experiment, the 50 g biochar treatment had the lowest NO₃^– leaching compared to the 50 g nanozeolite and 50 g nanoclosite treatments. Additionally, increasing the use of nanozeolite and nanoclosite enhances the stability of soil particles and decreases NO₃^– leaching from the soil columns, resulting in reduced groundwater contamination with NO₃^–.

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减少硝酸盐浸出的可持续做法

研究影响土壤中水盐运动的因素，并利用矿物纳米颗粒和生物炭等新的改良剂，可以显著有助于合理的土地管理和减少硝态氮（NO3 -）淋滤，从而防止地下水污染。本研究旨在探讨矿物纳米颗粒和小麦秸秆生物炭对土壤NO3 -淋溶及土壤颗粒稳定性的影响。本研究使用的处理包括纳米沸石、纳米沸石和生物炭3个处理，每个处理在10和50 g/kg土壤、1%和5% w/w两个水平上，并进行对照处理。试验时间和土壤柱施肥量与玉米栽培期相匹配。采用含46%纯氮的硝态肥向土壤柱中引入NO3 -。土壤柱的灌溉是通过称重对照土壤柱的失水来完成的。与对照样品相比，10 g生物炭、10 g纳米沸石和10 g纳米沸石处理的土壤柱中NO3 -的浸出量显著降低。此外，50 g生物炭、50 g纳米沸石和50 g纳米沸石处理的土壤柱中NO3 -的浸出量显著低于对照样品。在实验的所有周中，与50 g纳米沸石和50 g纳米沸石处理相比，50 g生物炭处理的NO3 -浸出率最低。此外，增加纳米沸石和纳米沸石的使用可以增强土壤颗粒的稳定性，减少土壤柱中NO3 -的淋滤，从而减少地下水中NO3 -的污染。

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

Environmental Quality Management Environmental Science-Management, Monitoring, Policy and Law

CiteScore

2.20

自引率

0.00%

发文量

期刊介绍： Four times a year, this practical journal shows you how to improve environmental performance and exceed voluntary standards such as ISO 14000. In each issue, you"ll find in-depth articles and the most current case studies of successful environmental quality improvement efforts -- and guidance on how you can apply these goals to your organization. Written by leading industry experts and practitioners, Environmental Quality Management brings you innovative practices in Performance Measurement...Life-Cycle Assessments...Safety Management... Environmental Auditing...ISO 14000 Standards and Certification..."Green Accounting"...Environmental Communication...Sustainable Development Issues...Environmental Benchmarking...Global Environmental Law and Regulation.