Jean Legeay, Sulaimon Basiru, Abdelhadi Ziami, Khaoula Errafii, Mohamed Hijri
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Additionally, ASVs belonging to the genus Alternaria represented up to 30% of reads in the plant's roots and correlated with drought (p = 0.006), indicating a potential role for this fungal genus in mitigating drought, possibly as part of the dark septate endophyte group. Root staining and microscopic observation revealed extensive colonization by fungal hyphae and microsclerotia-like structures. Furthermore, ASVs identified as Fusarium equiseti were also correlated with low precipitation and recognized as a hub taxon in the roots. However, it remains uncertain whether this species is pathogenic or beneficial to the plant. These insights contribute to our understanding of the plant mycobiome's role in drought tolerance and highlight the importance of specific fungal taxa in supporting plant health under varying environmental conditions. 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引用次数: 0
摘要
植物真菌生物群落在宿主的生命周期中起着至关重要的作用,影响着宿主的健康和疾病状态,对植物耐旱性也至关重要。在这项研究中,我们利用 ITS 代谢编码技术研究了摩洛哥抗旱植物 Malva sylvestris L.的真菌群落,其降水梯度涵盖了亚湿润和半干旱环境。我们采集了三个生物群落的样本:根瘤层、大体积土壤和根内层。我们的研究结果表明,块状土壤和根圈之间不存在贝塔多样性差异,这表明植物不会选择性地影响根圈霉菌生物群。此外,属于 Alternaria 属的 ASV 在植物根部的读数中占 30%,并且与干旱相关(p = 0.006),这表明该真菌属可能作为暗色隔膜内生菌群的一部分,在缓解干旱方面发挥着潜在作用。根部染色和显微镜观察显示,真菌菌丝和微菌丝状结构广泛定殖。此外,被鉴定为马镰刀菌的 ASV 也与低降水量有关,并被认为是根部的中心类群。不过,目前仍不确定该物种对植物是致病还是有益。这些见解有助于我们了解植物真菌生物群在抗旱中的作用,并突出了特定真菌类群在不同环境条件下支持植物健康的重要性。未来的研究应侧重于描述这些类群的功能作用及其与寄主植物的相互作用,以进一步阐明它们对抗旱性的贡献。
Response of Alternaria and Fusarium Species to Low Precipitation in a Drought-Tolerant Plant in Morocco.
The plant mycobiome plays a crucial role in the host life cycle, influencing both healthy and diseased states, and is essential for plant tolerance to drought. In this study, we used ITS metabarcoding to investigate the fungal community of the drought-resistant plant Malva sylvestris L. in Morocco along a gradient of precipitation, encompassing subhumid and semi-arid environments. We sampled three biotopes: rhizosphere, bulk soil, and root endosphere. Our findings revealed an absence of beta-diversity differences between bulk soil and rhizosphere, indicating that the plant does not selectively influence its rhizosphere mycobiome. Additionally, ASVs belonging to the genus Alternaria represented up to 30% of reads in the plant's roots and correlated with drought (p = 0.006), indicating a potential role for this fungal genus in mitigating drought, possibly as part of the dark septate endophyte group. Root staining and microscopic observation revealed extensive colonization by fungal hyphae and microsclerotia-like structures. Furthermore, ASVs identified as Fusarium equiseti were also correlated with low precipitation and recognized as a hub taxon in the roots. However, it remains uncertain whether this species is pathogenic or beneficial to the plant. These insights contribute to our understanding of the plant mycobiome's role in drought tolerance and highlight the importance of specific fungal taxa in supporting plant health under varying environmental conditions. Future research should focus on characterizing these taxa's functional roles and their interactions with the host plant to further elucidate their contributions to drought resistance.
期刊介绍:
The journal Microbial Ecology was founded more than 50 years ago by Dr. Ralph Mitchell, Gordon McKay Professor of Applied Biology at Harvard University in Cambridge, MA. The journal has evolved to become a premier location for the presentation of manuscripts that represent advances in the field of microbial ecology. The journal has become a dedicated international forum for the presentation of high-quality scientific investigations of how microorganisms interact with their environment, with each other and with their hosts. Microbial Ecology offers articles of original research in full paper and note formats, as well as brief reviews and topical position papers.