生物炭制备及减量复肥对烟草根际土壤养分、酚酸和真菌群落的影响

IF 0.7 4区 材料科学 Q3 Materials Science
Huan-Jin Ma, Li Lin, Ze-Bin Chen, Sheng-Guang Xu, Yu Li, Rui Zhang, Sheng-Yue Yi
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引用次数: 0

摘要

生物炭是由生物质热解产生的富含碳的土壤调理剂,由于其物理吸附和保水保肥功能,已被广泛用于改善土壤质量。本研究旨在利用农业废弃物制备的生物炭改善连作烤烟田土壤质量。为探讨还原肥配生物炭对根际土壤养分、酚酸含量和真菌多样性的影响,设置常规复肥(T1)和生物炭配不同比例还原肥(T2、T3、T4,分别施用复肥100、75、50%)4个处理。利用电子显微镜对制备的生物炭的理化性质进行了表征和观察。结果表明,与T1处理相比,T2处理土壤有机质(SOM)和有机碳(SOC)含量显著增加。此外,T2处理显著提高了碱解氮(AN)、速效磷(AP)和速效钾(AK)含量,分别比T1处理提高了9.29%、15.85%和25.42%。随着复施量(T2-T4)的减少,土壤AN、AP和AK含量逐渐降低,但T3与T1间差异不显著。总酚酸含量,T2处理较T1处理显著降低35.99%,T3和T4处理较T2处理分别显著降低15.30%和18.73%。施用生物炭可提高根际土壤真菌群落的丰度和多样性。真菌群落丰富度在T3处理下最高,镰刀菌和Mortierella的相对丰度随复肥(T2-T4)的减少而降低。综上所述,减量复混肥配生物炭可减少根际土壤养分流失、酚酸积累,提高根际土壤真菌群落丰度。本文从化感化学物质和土壤真菌的调控方面为生物炭配施复肥改良土壤提供了参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biochar preparation and its effects with reduced compound fertilizer on nutrients, phenolic acid and fungal community in tobacco rhizosphere soil
Biochar is a carbon-rich soil conditioner produced from pyrolysis of biomass, it has been widely used to enhance soil quality because of its physical adsorption as well as water and fertilizer conservation functions. This work aimed to improve the soil quality of continuously cropped flue-cured tobacco fields using biochar prepared from agricultural waste. To explore the impact of reduced compound fertilizer with biochar application on nutrients, phenolic acid contents and fungi diversity in the rhizosphere soil, 4 treatments were set: regular compound fertilizer application (T1), and biochar with reduced compound fertilizer in different proportions (T2, T3, T4, with 100, 75, 50% of compound fertilizer, respectively). The physicochemical properties of the prepared biochar were characterized and observed using electron microscopy. The results indicated that, a noticeable increase in the content of soil organic matter (SOM) and soil organic carbon (SOC) in T2 treatment compared to T1 treatment. Moreover, T2 treatment demonstrated a significant improvement in the contents of alkali-hydrolyzable nitrogen (AN), available phosphorus (AP), and available potassium (AK), with increases of 9.29%, 15.85% and 25.42% compared to T1 treatment, respectively. While a gradual decrease in soil AN, AP, and AK content was observed with the reduction of compound fertilizer application (T2–T4), there was no obvious difference between T3 and T1. For total phenolic acid, the content in T2 treatment significantly decreased by 35.99% compared to T1 treatment, while T3 and T4 treatments showed significant reductions of 15.30 and 18.73% respectively, compared to T2 treatment. Biochar application could enhance the fungal community’s abundance and diversity in the rhizosphere soil. Fungal community exhibited the highest richness under T3 treatment, while the relative abundance of Fusarium and Mortierella reduced as the decrease of compound fertilizer (T2–T4). In conclusion, the reduced compound fertilizer with biochar application could reduce nutrient loss, phenolic acids accumulation, and improving the abundance of fungal community in the rhizosphere soil. This paper provides a reference for biochar combined with compound fertilizer to improve soil from the regulation of allelochemicals and soil fungi.
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来源期刊
Materials Express
Materials Express NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
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69
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>12 weeks
期刊介绍: Information not localized
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