2022
DOI: 10.7554/elife.79679
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A dynamic rhizosphere interplay between tree roots and soil bacteria under drought stress

Abstract: Root exudates are thought to play an important role in plant-microbial interactions. In return for nutrition, soil bacteria can increase the bioavailability of soil nutrients. However, root exudates typically decrease in situations such as drought, calling into question the efficacy of solvation and bacteria-dependent mineral uptake in such stress. Here we tested the hypothesis of exudate-driven microbial priming on Cupressus saplings grown in forest soil in custom-made rhizotron boxes. A 1-month imposed droug… Show more

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Cited by 30 publications
(12 citation statements)
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“…We suggest that the shoot branching mechanism is dependent on the mere presence of the fungi, which might induce a hormonal effect on the shoot branching pattern. For example, production of the growth hormone auxin was connected with EMF colonization in Poplar (Felten et al ., 2009), and cypress saplings exuded auxin when inoculated with rhizosphere bacteria (Oppenheimer-Shaanan et al ., 2022). Moreover, an increase in ABA hormone, which is related to drought tolerance, was seen in redwood seedlings colonized by AMF under drought (Willing, 2019).…”
Section: Discussionmentioning
confidence: 99%
“…We suggest that the shoot branching mechanism is dependent on the mere presence of the fungi, which might induce a hormonal effect on the shoot branching pattern. For example, production of the growth hormone auxin was connected with EMF colonization in Poplar (Felten et al ., 2009), and cypress saplings exuded auxin when inoculated with rhizosphere bacteria (Oppenheimer-Shaanan et al ., 2022). Moreover, an increase in ABA hormone, which is related to drought tolerance, was seen in redwood seedlings colonized by AMF under drought (Willing, 2019).…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, the beneficial interactions between plants and their microbiomes are critical for maintaining normal plant growth and development . Simultaneously, the composition of rhizobacteria communities undergoes dynamic changes, influenced by factors such as plant species, developmental stage, physiological state, and growth environment. The chemical composition of root secretions may primarily influence rhizobacteria diversity, metabolic activity, and community succession; , however, plant genotypes and soil types are conserved in the reorganization of rhizobacteria communities …”
Section: Introductionmentioning
confidence: 99%
“…Moreover, the soil is a rich source of diverse microorganisms, particularly rhizobacteria, which interact closely with the plant's root system. 3 Plant root bacteria promote plant growth and development through multiple pathways. 4,5 These pathways include (1) establishing symbiosis with the plant root system, forming nodule structures that enhance soil exposure and improve water and nutrient uptake; (2) inducing the expression of resistance genes to enhance the plant's adaptability to environmental stresses; and (3) revitalizing soil nutrients to enhance the plant's absorption of these nutrients.…”
Section: Introductionmentioning
confidence: 99%
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