Biotic interactions with mycorrhizal systems as extended nutrient acquisition strategies shaping forest soil communities and functions

Plant nutrient acquisition strategies involving ectomycorrhizal (EcM) and arbuscular mycorrhizal (AM) associations, are key plant functional traits leading to distinct carbon (C) and nutrient dynamics in forests. Yet, little is known about how these strategies influence the structure and functioning...

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Published inBasic and applied ecology Vol. 50; pp. 25 - 42
Main Authors Netherway, Tarquin, Bengtsson, Jan, Krab, Eveline J., Bahram, Mohammad
Format Journal Article
LanguageEnglish
Published Elsevier GmbH 01.02.2021
Subjects
Angiospermae
applied ecology
Arbuscular mycorrhizal (AM) fungi
biogeochemical cycles
Biotic interactions
carbon
dynamics
ectomycorrhizae
Ectomycorrhizal (EcM) fungi
environmental factors
forest soils
forests
fungi
Gymnospermae
Holobiont
Markvetenskap
Microbiology
Microbiome
Mikrobiologi
Mycorrhizal associations
plant communities
Plant-microbial feedbacks
Rhizosphere
soil biota
Soil ecology
Soil Science
trees
vesicular arbuscular mycorrhizae
Plant-microbial feedbacks
Rhizosphere
Ectomycorrhizal (EcM) fungi
Holobiont
Mycorrhizal associations
Arbuscular mycorrhizal (AM) fungi
Biotic interactions
Microbiome
Soil ecology
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Abstract Plant nutrient acquisition strategies involving ectomycorrhizal (EcM) and arbuscular mycorrhizal (AM) associations, are key plant functional traits leading to distinct carbon (C) and nutrient dynamics in forests. Yet, little is known about how these strategies influence the structure and functioning of soil communities, and if such mycorrhizal effects may be more or less pronounced depending on the type of forest and various abiotic factors. Here we explore the potential interactions occurring between plant-EcM and plant-AM systems with the diverse soil organisms occurring in forest soils, and in the process draw attention to major issues that are worthy for future research directions. Based on these potential interactions, we suggest that EcM systems, especially those involving gymnosperms in colder climates, may select for a soil community with a narrow set of functions. These EcM systems may exhibit low functional redundancy, dominated by symbiotic interactions, where EcM fungi maintain low pH and high C/N conditions in order to tightly control nutrient cycling and maintain the dominance of EcM trees. By contrast, AM systems, particularly those involving deciduous angiosperm trees in mild and warmer climates, may facilitate a functionally more diverse and redundant soil community tending towards the dominance of competitive and antagonistic interactions, but also with a range of symbiotic interactions that together maintain diverse plant communities. We propose that the contrasting belowground interactions in AM and EcM systems act as extended nutrient acquisition traits that contribute greatly to the prevailing nutrient and C dynamics occurring in these systems.
AbstractList Plant nutrient acquisition strategies involving ectomycorrhizal (EcM) and arbuscular mycorrhizal (AM) associations, are key plant functional traits leading to distinct carbon (C) and nutrient dynamics in forests. Yet, little is known about how these strategies influence the structure and functioning of soil communities, and if such mycorrhizal effects may be more or less pronounced depending on the type of forest and various abiotic factors. Here we explore the potential interactions occurring between plant-EcM and plant-AM systems with the diverse soil organisms occurring in forest soils, and in the process draw attention to major issues that are worthy for future research directions. Based on these potential interactions, we suggest that EcM systems, especially those involving gymnosperms in colder climates, may select for a soil community with a narrow set of functions. These EcM systems may exhibit low functional redundancy, dominated by symbiotic interactions, where EcM fungi maintain low pH and high C/N conditions in order to tightly control nutrient cycling and maintain the dominance of EcM trees. By contrast, AM systems, particularly those involving deciduous angiosperm trees in mild and warmer climates, may facilitate a functionally more diverse and redundant soil community tending towards the dominance of competitive and antagonistic interactions, but also with a range of symbiotic interactions that together maintain diverse plant communities. We propose that the contrasting belowground interactions in AM and EcM systems act as extended nutrient acquisition traits that contribute greatly to the prevailing nutrient and C dynamics occurring in these systems.
Plant nutrient acquisition strategies involving ectomycorrhizal (EcM) and arbuscular mycorrhizal (AM) associations, are key plant functional traits leading to distinct carbon (C) and nutrient dynamics in forests. Yet, little is known about how these strategies influence the structure and functioning of soil communities, and if such mycorrhizal effects may be more or less pronounced depending on the type of forest and various abiotic factors. Here we explore the potential interactions occurring between plant-EcM and plant-AM systems with the diverse soil organisms occurring in forest soils, and in the process draw attention to major issues that are worthy for future research directions. Based on these potential interactions, we suggest that EcM systems, especially those involving gymnosperms in colder climates, may select for a soil community with a narrow set of functions. These EcM systems may exhibit low functional redundancy, dominated by symbiotic interactions, where EcM fungi maintain low pH and high C/N conditions in order to tightly control nutrient cycling and maintain the dominance of EcM trees. By contrast, AM systems, particularly those involving deciduous angiosperm trees in mild and warmer climates, may facilitate a functionally more diverse and redundant soil community tending towards the dominance of competitive and antagonistic interactions, but also with a range of symbiotic interactions that together maintain diverse plant communities. We propose that the contrasting belowground interactions in AM and EcM systems act as extended nutrient acquisition traits that contribute greatly to the prevailing nutrient and C dynamics occurring in these systems. (c) 2020 The Author(s). Published by Elsevier GmbH on behalf of Gesellschaft fur okologie. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)
Author Krab, Eveline J.
Bahram, Mohammad
Bengtsson, Jan
Netherway, Tarquin
Author_xml – sequence: 1
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  surname: Netherway
  fullname: Netherway, Tarquin
  email: tarquin.netherway@slu.se
  organization: Department of Ecology, Swedish University of Agricultural Sciences, Ulls väg 16, 756 51 Uppsala, Sweden
– sequence: 2
  givenname: Jan
  surname: Bengtsson
  fullname: Bengtsson, Jan
  organization: Department of Ecology, Swedish University of Agricultural Sciences, Ulls väg 16, 756 51 Uppsala, Sweden
– sequence: 3
  givenname: Eveline J.
  surname: Krab
  fullname: Krab, Eveline J.
  organization: Department of Soil and Environment, Swedish University of Agricultural Sciences, Lennart Hjelms väg 9, 750 07 Uppsala, Sweden
– sequence: 4
  givenname: Mohammad
  surname: Bahram
  fullname: Bahram, Mohammad
  organization: Department of Ecology, Swedish University of Agricultural Sciences, Ulls väg 16, 756 51 Uppsala, Sweden
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Keywords Plant-microbial feedbacks
Rhizosphere
Ectomycorrhizal (EcM) fungi
Holobiont
Mycorrhizal associations
Arbuscular mycorrhizal (AM) fungi
Biotic interactions
Microbiome
Soil ecology
Language English
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Snippet Plant nutrient acquisition strategies involving ectomycorrhizal (EcM) and arbuscular mycorrhizal (AM) associations, are key plant functional traits leading to...
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SubjectTerms Angiospermae
applied ecology
Arbuscular mycorrhizal (AM) fungi
biogeochemical cycles
Biotic interactions
carbon
dynamics
ectomycorrhizae
Ectomycorrhizal (EcM) fungi
environmental factors
forest soils
forests
fungi
Gymnospermae
Holobiont
Markvetenskap
Microbiology
Microbiome
Mikrobiologi
Mycorrhizal associations
plant communities
Plant-microbial feedbacks
Rhizosphere
soil biota
Soil ecology
Soil Science
trees
vesicular arbuscular mycorrhizae
Title Biotic interactions with mycorrhizal systems as extended nutrient acquisition strategies shaping forest soil communities and functions
URI https://dx.doi.org/10.1016/j.baae.2020.10.002
https://www.proquest.com/docview/2498265783
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Volume 50
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