长期单一栽培条件下番茄根瘤土壤细菌群落组成、功能和土壤特性的协同变化

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-08-14 DOI:10.1016/j.rhisph.2024.100950
Yu Jiang , Juan Wang , Liyong Liu , Lixin Chen , Xiangqian Yin , Wei Tan , Yan Li , Tieheng Shen
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引用次数: 0

摘要

番茄在世界各地广泛种植,长期单一种植导致番茄产量下降,植株生长受阻。土壤细菌群落对植物的生长和健康有着深远的影响,而不同种植年份对番茄根圈土壤微生物的影响尚不清楚。本研究采用元基因组测序技术分析了连续种植 3 年、6 年(短期连作)、9 年和 12 年(长期连作)番茄(LZ3、LZ6、LZ9、LZ12)的根瘤土壤微生物。结果表明,LZ9 的 pH 值明显高于其他处理,LZ3 中板霉菌属和念珠菌属的相对丰度高于其他处理,LZ6 和 LZ9 中变形菌属的相对丰度明显高于其他处理,而 LZ12 中绿杆菌属和类杆菌属的相对丰度高于其他处理。在菌属水平上,LZ3 中 Nocardioides、Sphingomonas、Pseudolabrys 的相对丰度低于其他处理,Gaiella 的相对丰度在短期连作中显著高于 LZ9。pH 值、可水解氮(HN)和可利用钾(AK)是导致微生物群落变化的最重要因素。氨基酸代谢、萜类化合物和多酮类化合物代谢的相对丰度随连作年限的增加而显著降低,总氮(TN)、HN 和可利用磷(AP)与翻译、氨基酸代谢、细胞生长和死亡显著相关。连续种植会导致番茄土壤养分失衡,从而影响土壤微生物群落的结构和功能组成,这为微生物群落对番茄连续种植的响应提供了启示,但还需要进一步深入研究。
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Synergistic changes in bacterial community composition, function, and soil characteristics of tomato rhizosphere soil under long-term monoculture conditions

Tomato is widely cultivated all over the world, and long-term monoculture has resulted in decreased tomato yields and stunted plant growth. Soil bacterial communities have a profound effect on plant growth and health, and the effect of different planting years on rhizosphere soil microorganisms of tomato is not clear. In this study, metagenomic sequencing was used to analyze the rhizosphere soil microorganisms of tomatoes cultivated continuously for 3, 6 years (short-term continuous cropping), 9, and 12 years (long-term continuous cropping) (LZ3, LZ6, LZ9, LZ12). The results showed that the pH in LZ9 was significantly higher than that in the other treatments, the relative abundance of Planctomycetes and Candidatus Rokubacteria in LZ3 were higher than those in the other treatments, the relative abundance of Proteobacteria was significantly higher in LZ6 and LZ9 than that in the other treatments, and the relative abundance of Chloroflexi and Bacteroidetes in LZ12 were higher than those in the other treatments. At the genus level, the relative abundance of Nocardioides, Sphingomonas, Pseudolabrys were lower in LZ3 than that in other treatments, and the relative abundance of Gaiella was significantly higher in short-term continuous cropping than that in LZ9. The pH, hydrolyzable nitrogen (HN), and available potassium (AK) were the most important factors driving the changes in microbial communities. The relative abundance of amino acid metabolism, terpenoid and polyketide metabolism decreased significantly with years of continuous cropping, and that total nitrogen (TN), HN, and available phosphorus (AP) were significantly correlated with translation, amino acid metabolism, and cell growth and death. Continuous cropping leads to nutrient imbalance in tomato soils, which affects the structure and functional composition of soil microbial communities, providing insights into microbial community response to continuous tomato cropping, but further in-depth studies are needed.

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