Effect of a six-year Biochar Amendment on Water Productivity and Nitrogen Utilization of Maize and Comprehensive Soil Fertility

IF 3.4 3区 农林科学 Q2 ENVIRONMENTAL SCIENCES Journal of Soil Science and Plant Nutrition Pub Date : 2024-07-22 DOI:10.1007/s42729-024-01932-5
Xuanming Wang, Xu Su, Lixue Wang, Sheng Li, Minru Chang, Yanqi Li, Yu Guan, Qi Wu, Wenzhong Zhang
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Abstract

In the short term, biochar effectively retains water and nutrients, thereby enhancing water productivity and nitrogen (N) use efficiency, consequently increasing crop yield. Over time, however, the ability of biochar to regulate water and N may diminish, leading to changes in its mechanisms for enhancing yield. Therefore, the time-dependent effects of aged biochar on yield enhancements need to be assessed. We conducted a two-year field experiment using a split-plot design with varying periods of biochar addition as the main plots, denoted as one year (Y1), two years (Y2), five years (Y5), and six years (Y6), and three addition rates as the subplots, denoted as no biochar addition (C0), 6 t·hm−2 biochar (C6), and 12 hm−2 biochar (C12). The results showed that under identical conditions, short-term biochar addition significantly outperformed medium- to long-term addition in enhancing maize yield, water productivity, N-use efficiency, and soil fertility index (SFI). There was no significant difference between the Y6C6 treatment and the control with no biochar addition, however high biochar addition may help mitigate this decline. Structural Equation Model (SEM) analysis demonstrated a positive correlation between increases in soil NH4+-N and NO3-N content and SFI. Additionally, nitrate nitrogen (NO3-N) content positively affected water productivity. However, with extended periods of biochar addition, the effect of NO3-N on both SFI and water productivity weakens, whereas that of ammonium nitrogen (NH4+- N) on SFI intensifies, influencing yield. Therefore, C12 treatment not only improves yield, water productivity, and N-use efficiency but also mitigates the reduction of positive effects on crops and soil after medium- and long-term addition of biochar.

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六年生物炭修正对玉米水分生产率和氮利用率以及土壤综合肥力的影响
在短期内,生物炭能有效保持水分和养分,从而提高水分生产率和氮(N)的利用效率,进而提高作物产量。但随着时间的推移,生物炭调节水分和养分的能力可能会减弱,从而导致其增产机制发生变化。因此,需要评估陈年生物炭对增产的时间依赖效应。我们进行了为期两年的田间试验,采用分小区设计,以不同的生物炭添加期为主小区,分别为一年(Y1)、两年(Y2)、五年(Y5)和六年(Y6);以三种添加率为副小区,分别为不添加生物炭(C0)、6 t-hm-2 生物炭(C6)和 12 hm-2 生物炭(C12)。结果表明,在相同条件下,短期生物炭添加量在提高玉米产量、水分生产率、氮利用效率和土壤肥力指数(SFI)方面明显优于中长期生物炭添加量。Y6C6 处理与未添加生物炭的对照之间没有明显差异,但大量添加生物炭可能有助于缓解这一下降趋势。结构方程模型(SEM)分析表明,土壤中 NH4+-N 和 NO3-N 含量的增加与 SFI 呈正相关。此外,硝态氮(NO3--N)含量对水分生产率也有积极影响。然而,随着生物炭添加时间的延长,NO3--N 对 SFI 和水分生产率的影响减弱,而铵态氮(NH4+- N)对 SFI 的影响增强,从而影响产量。因此,C12 处理不仅能提高产量、水分生产率和氮利用效率,还能减轻中长期添加生物炭后对作物和土壤的积极影响。
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来源期刊
Journal of Soil Science and Plant Nutrition
Journal of Soil Science and Plant Nutrition Agricultural and Biological Sciences-Soil Science
CiteScore
5.90
自引率
10.30%
发文量
331
审稿时长
9 months
期刊介绍: The Journal of Soil Science and Plant Nutrition is an international, peer reviewed journal devoted to publishing original research findings in the areas of soil science, plant nutrition, agriculture and environmental science. Soil sciences submissions may cover physics, chemistry, biology, microbiology, mineralogy, ecology, pedology, soil classification and amelioration. Plant nutrition and agriculture submissions may include plant production, physiology and metabolism of plants, plant ecology, diversity and sustainability of agricultural systems, organic and inorganic fertilization in relation to their impact on yields, quality of plants and ecological systems, and agroecosystems studies. Submissions covering soil degradation, environmental pollution, nature conservation, and environmental protection are also welcome. The journal considers for publication original research articles, technical notes, short communication, and reviews (both voluntary and by invitation), and letters to the editor.
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