Progressive drought alters the root exudate metabolome and differentially activates metabolic pathways in cotton (Gossypium hirsutum)

Lin, Heng-An; Coker, Harrison R.; Howe, Julie A.; Tfaily, Malak M.; Nagy, Elek M.; Antony-Babu, Sanjay; Hague, Steve; Smith, A. Peyton

doi:10.3389/fpls.2023.1244591

Cited by 11 publications

(1 citation statement)

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“…This observation is supported by the fact that most of the taxa correlated with soil chemical parameters are found in the rhizosphere. However, this selection might be passive, resulting from modi cations in the niche environment around the roots rather than active exudate production by the plant [27,28].…”

Section: Discussionmentioning

confidence: 99%

Response of Alternaria and Fusarium species to low precipitation in a drought-tolerant plant in Morocco

Legeay,

Basiru,

Ziami

et al. 2024

Preprint

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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 compartments: rhizosphere, bulk soil, and root endosphere. Our findings revealed a significant difference in beta-diversity between bulk soil and rhizosphere in subhumid environments (p = 0.013), suggesting that the plant does not select its rhizosphere mycobiome in semi-arid environments (p = 0.538). 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 (p = 0.028) 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.

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Section: Discussionmentioning

confidence: 99%