Legacy effects of rhizodeposits on soil microbiomes: A perspective

IF 9.8 1区 农林科学 Q1 SOIL SCIENCE
Paolo Nannipieri , S. Emilia Hannula , Giacomo Pietramellara , Michael Schloter , Tom Sizmur , Shamina Imran Pathan
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Abstract

Plant legacy effects observed in plant-soil feedback experiments have largely been attributed to the root or litter material of the previous plant. The legacy effects of rhizodeposits are defined as changes in the soil microbiome that remain after a plant has died or been removed from the soil and caused by the release of substances of various compositions by living plants (rhizodeposits). Rhizodeposit-mediated legacy effects have been largely ignored mainly due to the high spatial and temporal variability of rhizodeposits and difficulties quantifying and tracking them in the rhizosphere. In this perspective article, we discuss what is known about the legacy effects of rhizodeposits and provide ideas for future experiments to improve understanding of this phenomenon. Only a few studies separate rhizodeposit-mediated plant legacy effects from legacy effects of root decomposition. Results from these experiments indicate that rhizodeposit-mediated legacy effects on soil microbial communities may persist for several months to several years, especially if the same crop is cultivated persistently for several years in a ‘conditioning’ phase. Rhizodeposit-mediated legacy effects on fungal communities usually last longer than those on bacterial communities due to fungal life-cycle strategies (spore formation) and slower reproduction rates, compared to bacterial communities. We highlight the need for further experimentation to investigate the influence that the length of a conditioning phase has on the persistence of the legacy effect, differentiate the effect of root exudates from the effects of sloughed root cells, separate the influence of simple sugars from that of high molecular-weight exudates and plant derived compounds with antimicrobial properties, and explore whether plant species diversity influences the nature of the legacy. To address these questions, we propose the use of contemporary tools such as stable isotope probing, plant genetics, and reverse microdialysis. We think that harnessing rhizodeposit-mediated plant legacy effects could be a promising approach to improve sustainable crop production by creating disease-suppressive soils and simulating plant growth-promoting micro-organisms within soil systems.

根沉积物对土壤微生物组的遗留影响:一个视角
植物-土壤反馈实验中观察到的植物遗留效应在很大程度上归因于前代植物的根或凋落物。根沉积的遗留效应被定义为植物死亡或从土壤中移除后土壤微生物组的变化,这些变化是由活的植物(根沉积)释放各种成分的物质引起的。根沉积物介导的遗留效应在很大程度上被忽视,主要原因是根沉积物的时空变异性高,难以在根际量化和跟踪它们。在这篇前瞻性文章中,我们讨论了关于根沉积物遗留效应的已知内容,并为未来的实验提供了一些想法,以提高对这一现象的理解。只有少数研究将根沉积介导的植物遗留效应与根分解的遗留效应分开。这些实验的结果表明,根沉积物介导的对土壤微生物群落的遗留效应可能持续数月至数年,特别是如果同一作物在“调节”阶段持续种植数年。与细菌群落相比,由于真菌的生命周期策略(孢子形成)和较慢的繁殖速率,根沉积物介导的对真菌群落的遗留效应通常比对细菌群落的遗留效应持续更长。我们强调需要进一步的实验来研究调节阶段的长度对遗留效应持续的影响,区分根渗出液的作用和脱落根细胞的作用,将单糖的影响与高分子量渗出液和具有抗菌特性的植物衍生化合物的影响分开,并探索植物物种多样性是否影响遗留效应的性质。为了解决这些问题,我们建议使用现代工具,如稳定同位素探测,植物遗传学和反向微透析。我们认为利用根沉积介导的植物遗产效应可能是一种很有前途的方法,可以通过在土壤系统中创造抑制疾病的土壤和模拟促进植物生长的微生物来提高可持续作物生产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Soil Biology & Biochemistry
Soil Biology & Biochemistry 农林科学-土壤科学
CiteScore
16.90
自引率
9.30%
发文量
312
审稿时长
49 days
期刊介绍: Soil Biology & Biochemistry publishes original research articles of international significance focusing on biological processes in soil and their applications to soil and environmental quality. Major topics include the ecology and biochemical processes of soil organisms, their effects on the environment, and interactions with plants. The journal also welcomes state-of-the-art reviews and discussions on contemporary research in soil biology and biochemistry.
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