Getting to the root of root–microbe interactions
Getting to the root of root–microbe interactions
Microbial relationships with roots influence many ecosystem functions and nutrient fluxes, including their sometimes-profound effects on plant health and productivity. Fine roots were often classified with a diameter less than 2 mm, but fine roots under that size perform distinct functional roles in the environment. Importantly, two broad functional categories of fine roots are absorptive and transportive, with absorptive fine roots acting as metabolic hotspots for root activity. In two of our recent studies, we have shown that several microbial community characteristics differ between absorptive and transportive fine roots, including composition, abundance, and function, as well as the root metabolome. This highlights a growing recognition within microbial ecology that we must consider fine-scale environmental variability, such as root physiology and morphology, when interpreting microbial patterns. In this commentary, we summarize the findings of our latest article, further speculate on some of these patterns, and suggest future studies for examining decomposition and applying cutting-edge single-cell sequencing techniques.
fine roots, root functionality, root microbiome, Root morphology, spatial microbiome
King, William L.
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Hayward, Regan J.
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Goebel, Marc
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Fleishman, Suzanne M.
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Bauerle, Taryn L.
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Bell, Terrence H.
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King, William L.
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Hayward, Regan J.
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Goebel, Marc
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Fleishman, Suzanne M.
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Bauerle, Taryn L.
6abf1d22-38e2-45bc-9e44-de2e128e5349
Bell, Terrence H.
29863b8c-a89c-4077-b22d-62052cfb7225
King, William L., Hayward, Regan J., Goebel, Marc, Fleishman, Suzanne M., Bauerle, Taryn L. and Bell, Terrence H.
(2024)
Getting to the root of root–microbe interactions.
Science Progress, 107 (3).
(doi:10.1177/00368504241278783).
Abstract
Microbial relationships with roots influence many ecosystem functions and nutrient fluxes, including their sometimes-profound effects on plant health and productivity. Fine roots were often classified with a diameter less than 2 mm, but fine roots under that size perform distinct functional roles in the environment. Importantly, two broad functional categories of fine roots are absorptive and transportive, with absorptive fine roots acting as metabolic hotspots for root activity. In two of our recent studies, we have shown that several microbial community characteristics differ between absorptive and transportive fine roots, including composition, abundance, and function, as well as the root metabolome. This highlights a growing recognition within microbial ecology that we must consider fine-scale environmental variability, such as root physiology and morphology, when interpreting microbial patterns. In this commentary, we summarize the findings of our latest article, further speculate on some of these patterns, and suggest future studies for examining decomposition and applying cutting-edge single-cell sequencing techniques.
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king-et-al-2024-getting-to-the-root-of-root-microbe-interactions
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e-pub ahead of print date: 5 September 2024
Keywords:
fine roots, root functionality, root microbiome, Root morphology, spatial microbiome
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Local EPrints ID: 496142
URI: http://eprints.soton.ac.uk/id/eprint/496142
ISSN: 0036-8504
PURE UUID: a761a1b5-b57d-410a-b59d-42c98d24c75d
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Date deposited: 05 Dec 2024 17:40
Last modified: 06 Dec 2024 03:10
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Contributors
Author:
William L. King
Author:
Regan J. Hayward
Author:
Marc Goebel
Author:
Suzanne M. Fleishman
Author:
Taryn L. Bauerle
Author:
Terrence H. Bell
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