Acidified biochar one-off application for saline-alkali soil improvement: A three-year field trial evaluating the persistence of effects

IF 5.6 1区 农林科学 Q1 AGRICULTURAL ENGINEERING
Ronghao Guan , Yi Li , Yonglin Jia , Fuchang Jiang , Liwei Li
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Abstract

Salinization is a global soil degradation issue threatening agricultural productivity and environmental sustainability. Native biochar is a promising soil amendment, but its high alkalinity limits its use in saline-alkali lands. Acidified biochar, with a lower pH, is theoretically more suitable. This study aims to evaluate the persistence of effects of acidified biochar one-off application on soil particle size distribution, physicochemical properties, water retention, temperature regulation, and evaporation conditions of saline-alkali soil, thereby verifying its feasibility and exploring the optimal application range. We conducted a three-year cotton field experiment using palm fruit branch biochar as the raw material, acidified with ferrous sulfate, which involved four biochar applications (0, 10, 20, and 30 t ha−1) and four irrigation quotas (60 %, 80 %, 100 % and 120 % ETc). The results indicated that the initial acidified biochar application slightly increased surface soil (0–20 cm) pH by 0.1 %–3.9 %, this negative effect was nearly eliminated by the third year. Biochar application significantly altered surface soil particle size distribution, increasing sand content by 1.6 %–8.4 %, and persistently improved soil hydraulic properties, with water holding capacity still showing a 6.5 %–16.7 % increase in the third year. Biochar enhanced soil thermal insulation and suppressed soil evaporation, but these benefits gradually diminished with increasing cultivation years. Acidified biochar effectiveness was closely linked to irrigation quota. Significant differences in soil water and heat indicators were observed between the 20 and 30 t ha⁻¹ biochar treatments only under low irrigation quotas. Under sufficient irrigation (100 % and 120 % ETc), the optimal biochar application range was 15–20 t ha⁻¹, while under low irrigation (60 % and 80 % ETc), the optimal range was 20–25 t ha⁻¹. This study demonstrated that acidified biochar one-off application has significant multi-year benefits in improving soil structure and hydrothermal properties, providing a scientific basis for the improvement and sustainable utilization of saline-alkali soil.
一次性施用酸化生物炭改良盐碱地:为期三年的实地试验:评估效果的持续性
盐碱化是一个全球性的土壤退化问题,威胁着农业生产力和环境的可持续发展。本地生物炭是一种很有前景的土壤改良剂,但其高碱度限制了它在盐碱地的使用。理论上,pH 值较低的酸化生物炭更为适合。本研究旨在评估一次性施用酸化生物炭对盐碱地土壤粒径分布、理化性质、保水性、温度调节和蒸发条件的持续影响,从而验证其可行性并探索最佳施用范围。我们以用硫酸亚铁酸化的棕榈果枝生物炭为原料,进行了为期三年的棉花田间试验,包括四次生物炭施用量(0、10、20 和 30 吨/公顷-1)和四次灌溉配额(60%、80%、100% 和 120% ETc)。结果表明,最初施用的酸化生物炭会使表层土壤(0-20 厘米)的 pH 值略微升高 0.1%-3.9%,这种负面影响在第三年几乎消失。生物炭的施用大大改变了表层土壤的粒径分布,使含沙量增加了 1.6 %-8.4 %,并持续改善了土壤的水力特性,持水量在第三年仍然增加了 6.5 %-16.7 %。生物炭提高了土壤隔热性并抑制了土壤蒸发,但这些益处随着种植年限的增加而逐渐减弱。酸化生物炭的效果与灌溉配额密切相关。只有在灌溉配额较低的情况下,20 t ha-¹ 和 30 t ha-¹ 生物炭处理的土壤水分和热量指标才会出现显著差异。在充足灌溉条件下(100 % 和 120 % ETc),生物炭的最佳施用范围为 15-20 吨/公顷-¹,而在低灌溉条件下(60 % 和 80 % ETc),最佳施用范围为 20-25 吨/公顷-¹。该研究表明,一次性施用酸化生物炭在改善土壤结构和水热性质方面具有显著的多年效益,为盐碱地的改良和可持续利用提供了科学依据。
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来源期刊
Industrial Crops and Products
Industrial Crops and Products 农林科学-农业工程
CiteScore
9.50
自引率
8.50%
发文量
1518
审稿时长
43 days
期刊介绍: Industrial Crops and Products is an International Journal publishing academic and industrial research on industrial (defined as non-food/non-feed) crops and products. Papers concern both crop-oriented and bio-based materials from crops-oriented research, and should be of interest to an international audience, hypothesis driven, and where comparisons are made statistics performed.
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