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土壤微生物群的持续遗留效应促进了植物对干旱的适应性反应。

Persistent legacy effects on soil microbiota facilitate plant adaptive responses to drought.

作者信息

Ginnan Nichole A, Custódio Valéria, Gopaulchan David, Ford Natalie, Salas-González Isai, Jones Dylan H, Wells Darren M, Moreno Ângela, Castrillo Gabriel, Wagner Maggie R

机构信息

Kansas Biological Survey and Center for Ecological Research, University of Kansas, Lawrence, KS, USA 66045.

One Health Microbiome Center, Huck Institutes of the Life Sciences, Penn State University, State College, PA, USA.

出版信息

bioRxiv. 2025 Jun 23:2024.08.26.609769. doi: 10.1101/2024.08.26.609769.

Abstract

Both chronic and acute drought alter the composition and physiology of soil microbiota by selecting for functional traits that preserve fitness in dry conditions. Currently, little is known about how the resulting precipitation legacy effects manifest at the molecular and physiological levels and how they influence neighboring plants, especially in the context of subsequent drought. We characterized metagenomes of six prairie soils spanning a steep precipitation gradient in Kansas, USA. By statistically controlling for variation in soil porosity and elemental profiles, we identified bacterial taxa and functional gene categories associated with precipitation. This microbial precipitation legacy persisted through a 5-month-long experimental drought and mitigated the negative physiological effects of acute drought for a wild grass species that is native to the precipitation gradient, but not for the domesticated crop species maize. In particular, microbiota with a low-precipitation legacy altered transcription of a subset of host genes that mediate transpiration and intrinsic water use efficiency during drought. Our results show how long-term exposure to water stress alters soil microbial communities with consequences for the drought responses of neighboring plants.

摘要

长期干旱和短期干旱都会通过选择那些在干燥条件下保持适应性的功能性状来改变土壤微生物群的组成和生理特性。目前,对于由此产生的降水遗留效应如何在分子和生理水平上表现,以及它们如何影响邻近植物,尤其是在后续干旱的背景下,我们知之甚少。我们对美国堪萨斯州六个跨越陡峭降水梯度的草原土壤宏基因组进行了特征分析。通过对土壤孔隙度和元素剖面变化进行统计控制,我们确定了与降水相关的细菌类群和功能基因类别。这种微生物降水遗留效应在长达5个月的实验干旱中持续存在,并减轻了急性干旱对一种原产于该降水梯度的野生草种的负面生理影响,但对驯化作物玉米则没有这种效果。特别是,具有低降水遗留效应的微生物群改变了宿主基因的一个子集的转录,这些基因在干旱期间介导蒸腾作用和内在水分利用效率。我们的研究结果表明,长期暴露于水分胁迫如何改变土壤微生物群落,并对邻近植物的干旱响应产生影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cb3a/12233524/2331ac35a32d/nihpp-2024.08.26.609769v3-f0005.jpg

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