Effects of magnesium-modified biochar on soil nitrogen leaching and growth of Chinese cabbage

IF 2.8 3区 农林科学 Q3 ENVIRONMENTAL SCIENCES
Yongchun Zhou, Zhimin Chen, Zili Zhao, Liulin Wu, Yapeng Wang, Jinrong Yang, Ning An, Hang Jing
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引用次数: 0

Abstract

Purpose

The overuse of nitrogen fertilizers, most commonly urea, is ultimately having a serious impact on the environment through nitrogen leaching. Biochar addition is considered to be a promising measure for mitigating nitrogen leaching. However, whether biochar has a long-term effect is unclear. Moreover, Mg-modified biochar (Mg-biochar) has more excellent physicochemical and surface properties than original biochar, and it has been widely used in water pollution remediation; however, its effect on soil nitrogen leaching is still uncertain.

Methods

The optimal Mg-biochar was selected by adsorption test. In the subsequent soil column simulation experiment, a total of five treatment groups: nitrogen fertilizer (CK), nitrogen fertilizer + fresh biochar (BC), nitrogen fertilizer + Mg-biochar (MGBC), nitrogen fertilizer + freeze-thaw aged biochar (DBC), and nitrogen fertilizer + freeze-thaw aging Mg-biochar (DMGBC) were set up to explore the distribution of nitrogen in the soil-leaching solution-plant system.

Results

In this study, biochar modified by 2 mol/L MgCl2 was chosen to be the optimal Mg-biochar. Compared with the CK, BC reduced the soil nitrogen leaching by 16.96% and increased the soil nitrogen content and cabbage nitrogen absorption by 1.65% and 114.19%, respectively. Mg-biochar had higher nitrogen retention ability than original biochar, and after freeze-thaw aging, biochar maintained or even improved nitrogen retention ability.

Conclusion

The biochar addition had good nitrogen retention ability, and Mg-biochar performed better, and they showed long-term effect on mitigating soil nitrogen leaching. Meanwhile, based on the law of conservation of matter, biochar addition also reduced gaseous nitrogen loss.

Abstract Image

镁改性生物炭对土壤氮沥滤和大白菜生长的影响
目的 氮肥(最常见的是尿素)的过度使用最终会通过氮沥滤对环境造成严重影响。添加生物炭被认为是缓解氮沥滤的一种有效措施。然而,生物炭是否具有长期效果尚不清楚。此外,镁改性生物炭(Mg-biochar)比原始生物炭具有更优异的物理化学和表面特性,已被广泛应用于水污染修复,但其对土壤氮淋失的影响仍不确定。在随后的土壤柱模拟实验中,共设置了五个处理组:氮肥组(CK)、氮肥+新鲜生物炭组(BC)、氮肥+镁生物炭组(MGBC)、氮肥+冻融老化生物炭组(DBC)和氮肥+冻融老化镁生物炭组(DMGBC),以探讨氮在土壤淋溶液-植物系统中的分布。结果 本研究选择了经 2 mol/L 氯化镁改性的生物炭作为最佳镁生物炭。与 CK 相比,BC 可减少土壤中氮的淋失 16.96%,并使土壤中氮的含量和白菜对氮的吸收率分别提高了 1.65% 和 114.19%。结论添加生物炭具有良好的保氮能力,其中镁生物炭的保氮能力更强,对缓解土壤氮素淋失具有长效作用。同时,根据物质守恒定律,添加生物炭还能减少气态氮的流失。
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
Journal of Soils and Sediments
Journal of Soils and Sediments 环境科学-土壤科学
CiteScore
7.00
自引率
5.60%
发文量
256
审稿时长
3.5 months
期刊介绍: The Journal of Soils and Sediments (JSS) is devoted to soils and sediments; it deals with contaminated, intact and disturbed soils and sediments. JSS explores both the common aspects and the differences between these two environmental compartments. Inter-linkages at the catchment scale and with the Earth’s system (inter-compartment) are an important topic in JSS. The range of research coverage includes the effects of disturbances and contamination; research, strategies and technologies for prediction, prevention, and protection; identification and characterization; treatment, remediation and reuse; risk assessment and management; creation and implementation of quality standards; international regulation and legislation.
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