Water stress and disruption of mycorrhizas induce parallel shifts in phyllosphere microbiome composition

Summary Water and nutrient acquisition are key drivers of plant health and ecosystem function. These factors impact plant physiology directly as well as indirectly through soil‐ and root‐associated microbial responses, but how they in turn affect aboveground plant–microbe interactions are not known....

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Veröffentlicht in:	The New phytologist 2022-06, Vol.234 (6), p.2018-2031
Hauptverfasser:	Debray, Reena, Socolar, Yvonne, Kaulbach, Griffin, Guzman, Aidee, Hernandez, Catherine A., Curley, Rose, Dhond, Alexander, Bowles, Timothy, Koskella, Britt
Format:	Artikel
Sprache:	eng
Schlagworte:	aboveground–belowground interactions Arbuscular mycorrhizas Bacteria Community composition Composition Dehydration Disruption drought Ecosystem Fertility Fungi Growth chambers Lycopersicon esculentum - microbiology Microbial activity microbiome assembly Microbiomes Microbiota Microorganisms multi‐kingdom interactions Mycorrhizae - physiology mycorrhizas Phyllosphere plant health Plant physiology Plants Relative abundance Soil Soil conditions Soil fertility Soil Microbiology Soil stresses Soil water Solanum lycopersicum Sustainable agriculture Tomatoes Water stress
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container_end_page	2031
container_issue	6
container_start_page	2018
container_title	The New phytologist
container_volume	234
creator	Debray, Reena Socolar, Yvonne Kaulbach, Griffin Guzman, Aidee Hernandez, Catherine A. Curley, Rose Dhond, Alexander Bowles, Timothy Koskella, Britt
description	Summary Water and nutrient acquisition are key drivers of plant health and ecosystem function. These factors impact plant physiology directly as well as indirectly through soil‐ and root‐associated microbial responses, but how they in turn affect aboveground plant–microbe interactions are not known. Through experimental manipulations in the field and growth chamber, we examine the interacting effects of water stress, soil fertility, and arbuscular mycorrhizal fungi on bacterial and fungal communities of the tomato (Solanum lycopersicum) phyllosphere. Both water stress and mycorrhizal disruption reduced leaf bacterial richness, homogenized bacterial community composition among plants, and reduced the relative abundance of dominant fungal taxa. We observed striking parallelism in the individual microbial taxa in the phyllosphere affected by irrigation and mycorrhizal associations. Our results show that soil conditions and belowground interactions can shape aboveground microbial communities, with important potential implications for plant health and sustainable agriculture.
doi_str_mv	10.1111/nph.17817
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These factors impact plant physiology directly as well as indirectly through soil‐ and root‐associated microbial responses, but how they in turn affect aboveground plant–microbe interactions are not known. Through experimental manipulations in the field and growth chamber, we examine the interacting effects of water stress, soil fertility, and arbuscular mycorrhizal fungi on bacterial and fungal communities of the tomato (Solanum lycopersicum) phyllosphere. Both water stress and mycorrhizal disruption reduced leaf bacterial richness, homogenized bacterial community composition among plants, and reduced the relative abundance of dominant fungal taxa. We observed striking parallelism in the individual microbial taxa in the phyllosphere affected by irrigation and mycorrhizal associations. 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subjects	aboveground–belowground interactions Arbuscular mycorrhizas Bacteria Community composition Composition Dehydration Disruption drought Ecosystem Fertility Fungi Growth chambers Lycopersicon esculentum - microbiology Microbial activity microbiome assembly Microbiomes Microbiota Microorganisms multi‐kingdom interactions Mycorrhizae - physiology mycorrhizas Phyllosphere plant health Plant physiology Plants Relative abundance Soil Soil conditions Soil fertility Soil Microbiology Soil stresses Soil water Solanum lycopersicum Sustainable agriculture Tomatoes Water stress
title	Water stress and disruption of mycorrhizas induce parallel shifts in phyllosphere microbiome composition
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