Auxin-Mediated Modulation of Maize Rhizosphere Microbiome: Insights from Azospirillum Inoculation and Indole-3-Acetic Acid Treatment

IF 3.4 3区 农林科学 Q2 ENVIRONMENTAL SCIENCES
Anahí Coniglio, Giovanni Larama, Sofía Nievas, Natalie L. Cale, Verónica Mora, Daniela Torres, Gastón Lopez, Florencia Donadio, Belén Rodriguez, Anelis Marin, Matias Rovere, Patricio Javier Barra, Mark F. Belmonte, Emanuel Maltempi de Souza, Fabricio Cassán
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Abstract

Purpose

Auxins, especially indole-3-acetic acid (IAA), influences microbial physiology, but their effects on the plant microbiome are underreported. This study aimed to understand the impact of exogenously supplemented IAA or IAA produced by Azospirillum on maize rhizosphere microbiome.

Methods

One-week-old maize seedlings were inoculated with Az39 (A. argentinense’s strain), Az39 + L-Trp (Azospirillum-produced IAA), L-Trp (rhizosphere-produced IAA), and exogenous IAA to study their effects on the maize microbiome. Rhizosphere samples were collected after 14 days for DNA extraction, sequencing via Illumina MiSeq, and bioinformatic analysis were made to explore prokaryotic community composition and predict metabolic functions.

Results

Differences in the Shannon index were observed between Az39 inoculation and exogenous L-Trp application, and between Az39 inoculation and Az39 + L-Trp for phylogeny and observed features. Azospirillum inoculation influences on bacterial structure bacterial structure. Genus Actinospica and Bradyrhizobium were associated with IAA treatment, Rokubacteriales and Puia with L-Trp, and Cupriavidus and Pseudomonas with Az39 + L-Trp. Azospirillum and Sphingobium were linked to Az39 inoculation. We identified fifty microbial taxa following the exogenous application of IAA application and twenty-two with potential rhizosphere IAA production. Nitrogen fixation was the most abundant metabolic function in the prokaryotic rhizosphere.

Conclusion

Our results show prokaryotic groups specifically increase in the maize rhizosphere following application of Azospirillum, the IAA produced by Azospirillum, or the rhizosphere community and the exogenous IAA. These groups could be considered specific markers of the IAA activity in the rhizosphere.

Abstract Image

紫杉醇介导的玉米根瘤微生物组调控:氮孢蘑菇接种和吲哚-3-乙酸处理的启示
目的辅酶,尤其是吲哚-3-乙酸(IAA)会影响微生物的生理机能,但其对植物微生物组的影响却鲜有报道。本研究旨在了解外源补充的IAA或由Azospirillum产生的IAA对玉米根瘤菌群的影响。结果接种 Az39 与施用外源 L-Trp、接种 Az39 与 Az39 + L-Trp 在系统发育和观察特征方面的香农指数存在差异。接种 Azospirillum 对细菌结构的影响 细菌结构。放线菌属(Actinospica)和巴西根瘤菌属(Bradyrhizobium)与 IAA 处理有关,Rokubacteriales 和 Puia 与 L-Trp 有关,Cupriavidus 和 Pseudomonas 与 Az39 + L-Trp 有关。Azospirillum和Sphingobium与Az39接种有关。在外源施用 IAA 后,我们发现了 50 个微生物类群,22 个微生物类群可能会在根瘤层产生 IAA。结论:我们的研究结果表明,在施用氮螺旋体、氮螺旋体产生的 IAA 或根瘤菌群落和外源 IAA 后,玉米根瘤菌群中的原核生物数量明显增加。这些类群可被视为根圈中 IAA 活性的特定标记。
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来源期刊
Journal of Soil Science and Plant Nutrition
Journal of Soil Science and Plant Nutrition Agricultural and Biological Sciences-Soil Science
CiteScore
5.90
自引率
10.30%
发文量
331
审稿时长
9 months
期刊介绍: The Journal of Soil Science and Plant Nutrition is an international, peer reviewed journal devoted to publishing original research findings in the areas of soil science, plant nutrition, agriculture and environmental science. Soil sciences submissions may cover physics, chemistry, biology, microbiology, mineralogy, ecology, pedology, soil classification and amelioration. Plant nutrition and agriculture submissions may include plant production, physiology and metabolism of plants, plant ecology, diversity and sustainability of agricultural systems, organic and inorganic fertilization in relation to their impact on yields, quality of plants and ecological systems, and agroecosystems studies. Submissions covering soil degradation, environmental pollution, nature conservation, and environmental protection are also welcome. The journal considers for publication original research articles, technical notes, short communication, and reviews (both voluntary and by invitation), and letters to the editor.
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