2023
DOI: 10.1007/s42729-023-01517-8
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Prebiotics: A Solution for Improving Plant Growth, Soil Health, and Carbon Sequestration?

Abdelrahman Alahmad,
Lucas Edelman,
Lisa Castel
et al.

Abstract: Soil fertility and productivity are severely impacted by exploitation and degradation processes. These threats, coupled with population growth and climatic changes, compel us to search for innovative agroecological solutions. Prebiotics, a type of soil biostimulant, are used to enhance soil conditions and plant growth and may play a role in carbon (C) sequestration. Two commercial prebiotics, K1® and NUTRIGEO L® (referred to as SPK and SPN, respectively), were assessed for their effects on agricultural soil cu… Show more

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Cited by 3 publications
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“…Nevertheless, we did find that some associated bacteria are highly correlated with soil and plant nutrient characteristics. Among them, the abundance of Caulobacter [66], Peniophora [67,68], Nocardia [69], Lysinibacillus [70], and Brevundimonas [71] were significantly correlated with C, K, Ca, Mg, Fe, and Mn contents of plant roots, all of which are important microorganisms involved in respiratory metabolism and energy decomposition processes. Based on the differences in the abundance of element-related microbial communities among different provenances, N-related bacteria communities were significantly higher in JXSY than in other bacterial communities and provenances, indicating that F. hodginsii from JXSY may prioritize meeting its own N element requirements through root-associated bacteria.…”
Section: Discussionmentioning
confidence: 99%
“…Nevertheless, we did find that some associated bacteria are highly correlated with soil and plant nutrient characteristics. Among them, the abundance of Caulobacter [66], Peniophora [67,68], Nocardia [69], Lysinibacillus [70], and Brevundimonas [71] were significantly correlated with C, K, Ca, Mg, Fe, and Mn contents of plant roots, all of which are important microorganisms involved in respiratory metabolism and energy decomposition processes. Based on the differences in the abundance of element-related microbial communities among different provenances, N-related bacteria communities were significantly higher in JXSY than in other bacterial communities and provenances, indicating that F. hodginsii from JXSY may prioritize meeting its own N element requirements through root-associated bacteria.…”
Section: Discussionmentioning
confidence: 99%