根系渗出物化合物改变了块状土壤中的细菌群落

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-07 DOI:10.1016/j.rhisph.2024.100885
Muhammad Yasir Afzal , Bikram K. Das , Vishnu Thayil Valappil , Joy Scaria , Volker S. Brözel
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引用次数: 0

摘要

土壤细菌在生理和系统发育方面都具有多样性,在土壤微环境中存在空间差异。植物根系分泌的有机物质被称为根系渗出物,能够吸收这些物质的细菌会从中受益。随后,随着根系的生长,它改变了邻近大块土壤的有机碳状况,刺激了一些常驻细菌的生长。这种生长会引起土壤细菌群落的变化,并改变其代谢活动。这种营养注入还能激活内生孢子等静止结构的生长。我们询问了大量土壤微生物群落在遇到根系渗出物时的反应,并假设在引入根系渗出物后,能够快速生长的细菌将成为主导。我们在第 0 天和第 1 天将合成的根系渗出物鸡尾酒(Dietz 等人,2020 年)添加到麦田的大块土壤中。在培养的第 0 天、第 1 天、第 2 天、第 3 天、第 4 天、第 6 天、第 8 天、第 10 天、第 12 天和第 14 天,我们分别在 R2A 和甘露醇蛋黄多粘菌素琼脂上测定了需氧培养菌数和蜡样芽孢杆菌数,并通过对 16S rRNA 基因 V3-V4 区域的测序确定了细菌群落组成。α多样性(香农指数)下降后又部分恢复,表明物种均匀度发生了变化,而 Chao1 指数保持不变,表明物种丰富度保持不变。Beta 多样性随着时间的推移发生了很大变化。在添加 REC 后,稀有的快速生长菌属如 Paenarthrobacter 和 Pseudarthrobacter 增加了,而生长缓慢的菌属如 Bradyrhizobium 随着时间的推移保持不变。一些关键菌属(如 Stenotrophobacter)只有在停止添加 REC 后才有反应。某些快速生长菌属如芽孢杆菌的种群密度没有增加。总之,这些结果表明,当暴露于 REC 时,大量土壤群落发生了显著变化,而在 REC 终止后,群落继续发生变化。这为根部环境提供了多种已知有利于生长的细菌,如百纳氏菌和根瘤菌。
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Root exudate compounds change the bacterial community in bulk soil

The soil bacteria are diverse in nature both physiologically and phylogenetically with spatial variations within the soil microenvironments. Plant roots secrete organic substances called root exudates which benefit bacteria able to incorporate these. Subsequently, as the root grows, it changes the organic carbon status of adjacent bulk soil, stimulating growth of some of the resident bacteria. This growth induces a shift in the soil bacterial community and causes modifications in its metabolic activities. This nutrient infusion could also activate resting structures such as endospores to grow. We asked how the bulk soil microbial community responds when encountering root exudates and hypothesized that bacteria able to grow rapidly would become predominant upon introduction of root exudates. We added synthetic root exudate cocktail (Dietz et al., 2020) to the bulk soil from a wheat field on day 0 and day 1. We determined the aerobic culturable count on R2A, and Bacillus cereus sensu lato on Mannitol Egg Yolk Polymyxin agar, and bacterial community composition by sequencing the V3–V4 regions of the 16S rRNA genes on days 0, 1, 2, 3, 4, 6, 8, 10, 12 and 14 of incubation. Alpha diversity (Shannon) decreased and recovered partially, indicating a shift in species evenness while the Chao1 index remained the same, indicating constant species richness. Beta diversity shifted substantially over time. Rare fast-growing genera like Paenarthrobacter and Pseudarthrobacter increased upon REC addition, while slow growing genera like Bradyrhizobium were constant over time. Some key genera like Stenotrophobacter responded only after ceasing of REC addition. Certain fast-growing genera like Bacillus did not increase in population density. Collectively, these results indicate that the bulk soil community shifted significantly when exposed to REC, and after termination of REC, continued to undergo shifts. This presents the root environment with diverse bacteria known to benefit growth, such as Paenarthrobacter and rhizobia.

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