Mycorrhizas and mycorrhizal fungal communities throughout ecosystem development

Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We syn...

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Published inPlant and soil Vol. 367; no. 1/2; pp. 11 - 39
Main Authors Dickie, Ian A., Martínez-García, Laura B., Koele, Nina, Grelet, G.-A., Tylianakis, Jason M., Peltzer, Duane A., Richardson, Sarah J.
Format Journal Article
LanguageEnglish
Published Dordrecht Springer 01.06.2013
Springer Netherlands
Springer Nature B.V
Subjects
Biogeography
Biomedical and Life Sciences
Chronosequences
climate
Ecological succession
Ecology
Ecosystems
ectomycorrhizae
Forest soils
fungal communities
Fungi
Health aspects
hosts
Life Sciences
MARSCHNER REVIEW
Microbiological research
Mycorrhizal fungi
Mycorrhizas
Nutrient dynamics
Nutrients
Pedogenesis
Plant biology
Plant communities
Plant Physiology
Plant Sciences
Plants
soil
Soil ecology
Soil fertility
Soil fungi
Soil microbiology
Soil research
Soil Science & Conservation
Soils
Nutrient cycling
Succession
Plant–soil feedbacks
Soil chronosequence
Ecosystem development
Mycorrhizal fungi community shifts
Retrogression
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Abstract Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We synthesise evidence for shifts among mycorrhizal types (i.e., ectomycorrhizas, arbuscular and ericoid mycorrhizas) and in fungal communities within mycorrhizal types along long-term chronosequences that include retrogressive stages. These systems represent strong, predictable patterns of increasing, then declining soil fertility during ecosystem development, and are associated with coordinated changes in plant and fungal functional traits and ecological processes. Conclusions Mycorrhizal types do not demonstrate consistent shifts through ecosystem development. Rather, most mycorrhizal types can dominate at any stage of ecosystem development, driven by biogeography (i.e., availability of mycorrhizal host species), plant community assembly, climate and other factors. In contrast to coordinated shifts in soil fertility, plant traits and ecological processes throughout ecosystem development, shifts in fungal communities within and among mycorrhizal types are weak or idiosyncratic. The consequences of these changes in mycorrhizal communities and their function for plant-soil feedbacks or control over longterm nutrient depletion remain poorly understood, but could be resolved through empirical analyses of longterm soil chronosequences.
AbstractList Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We synthesise evidence for shifts among mycorrhizal types (i.e., ectomycorrhizas, arbuscular and ericoid mycorrhizas) and in fungal communities within mycorrhizal types along long-term chronosequences that include retrogressive stages. These systems represent strong, predictable patterns of increasing, then declining soil fertility during ecosystem development, and are associated with coordinated changes in plant and fungal functional traits and ecological processes. Conclusions Mycorrhizal types do not demonstrate consistent shifts through ecosystem development. Rather, most mycorrhizal types can dominate at any stage of ecosystem development, driven by biogeography (i.e., availability of mycorrhizal host species), plant community assembly, climate and other factors. In contrast to coordinated shifts in soil fertility, plant traits and ecological processes throughout ecosystem development, shifts in fungal communities within and among mycorrhizal types are weak or idiosyncratic. The consequences of these changes in mycorrhizal communities and their function for plant-soil feedbacks or control over long-term nutrient depletion remain poorly understood, but could be resolved through empirical analyses of long-term soil chronosequences. Keywords Ecosystem development * Mycorrhizal fungi community shifts * Nutrient cycling * Plant-soil feedbacks * Retrogression * Soil chronosequence * Succession
Issue Title: Pedogenesis, nutrient dynamics, and ecosystem development: the legacy of T.W. Walker and J.K. Syers Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We synthesise evidence for shifts among mycorrhizal types (i.e., ectomycorrhizas, arbuscular and ericoid mycorrhizas) and in fungal communities within mycorrhizal types along long-term chronosequences that include retrogressive stages. These systems represent strong, predictable patterns of increasing, then declining soil fertility during ecosystem development, and are associated with coordinated changes in plant and fungal functional traits and ecological processes. Mycorrhizal types do not demonstrate consistent shifts through ecosystem development. Rather, most mycorrhizal types can dominate at any stage of ecosystem development, driven by biogeography (i.e., availability of mycorrhizal host species), plant community assembly, climate and other factors. In contrast to coordinated shifts in soil fertility, plant traits and ecological processes throughout ecosystem development, shifts in fungal communities within and among mycorrhizal types are weak or idiosyncratic. The consequences of these changes in mycorrhizal communities and their function for plant-soil feedbacks or control over long-term nutrient depletion remain poorly understood, but could be resolved through empirical analyses of long-term soil chronosequences.[PUBLICATION ABSTRACT]
BACKGROUND AND SCOPE: Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We synthesise evidence for shifts among mycorrhizal types (i.e., ectomycorrhizas, arbuscular and ericoid mycorrhizas) and in fungal communities within mycorrhizal types along long-term chronosequences that include retrogressive stages. These systems represent strong, predictable patterns of increasing, then declining soil fertility during ecosystem development, and are associated with coordinated changes in plant and fungal functional traits and ecological processes. CONCLUSIONS: Mycorrhizal types do not demonstrate consistent shifts through ecosystem development. Rather, most mycorrhizal types can dominate at any stage of ecosystem development, driven by biogeography (i.e., availability of mycorrhizal host species), plant community assembly, climate and other factors. In contrast to coordinated shifts in soil fertility, plant traits and ecological processes throughout ecosystem development, shifts in fungal communities within and among mycorrhizal types are weak or idiosyncratic. The consequences of these changes in mycorrhizal communities and their function for plant–soil feedbacks or control over long-term nutrient depletion remain poorly understood, but could be resolved through empirical analyses of long-term soil chronosequences.
Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We synthesise evidence for shifts among mycorrhizal types (i.e., ectomycorrhizas, arbuscular and ericoid mycorrhizas) and in fungal communities within mycorrhizal types along long-term chronosequences that include retrogressive stages. These systems represent strong, predictable patterns of increasing, then declining soil fertility during ecosystem development, and are associated with coordinated changes in plant and fungal functional traits and ecological processes. Conclusions Mycorrhizal types do not demonstrate consistent shifts through ecosystem development. Rather, most mycorrhizal types can dominate at any stage of ecosystem development, driven by biogeography (i.e., availability of mycorrhizal host species), plant community assembly, climate and other factors. In contrast to coordinated shifts in soil fertility, plant traits and ecological processes throughout ecosystem development, shifts in fungal communities within and among mycorrhizal types are weak or idiosyncratic. The consequences of these changes in mycorrhizal communities and their function for plant–soil feedbacks or control over long-term nutrient depletion remain poorly understood, but could be resolved through empirical analyses of long-term soil chronosequences.
Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the composition and function of mycorrhizal fungi remain poorly understood, despite their role as a major interface between plants and soil. We synthesise evidence for shifts among mycorrhizal types (i.e., ectomycorrhizas, arbuscular and ericoid mycorrhizas) and in fungal communities within mycorrhizal types along long-term chronosequences that include retrogressive stages. These systems represent strong, predictable patterns of increasing, then declining soil fertility during ecosystem development, and are associated with coordinated changes in plant and fungal functional traits and ecological processes. Conclusions Mycorrhizal types do not demonstrate consistent shifts through ecosystem development. Rather, most mycorrhizal types can dominate at any stage of ecosystem development, driven by biogeography (i.e., availability of mycorrhizal host species), plant community assembly, climate and other factors. In contrast to coordinated shifts in soil fertility, plant traits and ecological processes throughout ecosystem development, shifts in fungal communities within and among mycorrhizal types are weak or idiosyncratic. The consequences of these changes in mycorrhizal communities and their function for plant-soil feedbacks or control over longterm nutrient depletion remain poorly understood, but could be resolved through empirical analyses of longterm soil chronosequences.
Audience Academic
Author Dickie, Ian A.
Grelet, G.-A.
Tylianakis, Jason M.
Koele, Nina
Richardson, Sarah J.
Peltzer, Duane A.
Martínez-García, Laura B.
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  fullname: Dickie, Ian A.
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  givenname: Laura B.
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  fullname: Martínez-García, Laura B.
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  fullname: Koele, Nina
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  surname: Tylianakis
  fullname: Tylianakis, Jason M.
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  givenname: Duane A.
  surname: Peltzer
  fullname: Peltzer, Duane A.
– sequence: 7
  givenname: Sarah J.
  surname: Richardson
  fullname: Richardson, Sarah J.
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Keywords Nutrient cycling
Succession
Plant–soil feedbacks
Soil chronosequence
Ecosystem development
Mycorrhizal fungi community shifts
Retrogression
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Snippet Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the...
Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the...
Issue Title: Pedogenesis, nutrient dynamics, and ecosystem development: the legacy of T.W. Walker and J.K. Syers Plant communities and underlying soils undergo...
Background and scope: Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the...
BACKGROUND AND SCOPE: Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the...
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SubjectTerms Biogeography
Biomedical and Life Sciences
Chronosequences
climate
Ecological succession
Ecology
Ecosystems
ectomycorrhizae
Forest soils
fungal communities
Fungi
Health aspects
hosts
Life Sciences
MARSCHNER REVIEW
Microbiological research
Mycorrhizal fungi
Mycorrhizas
Nutrient dynamics
Nutrients
Pedogenesis
Plant biology
Plant communities
Plant Physiology
Plant Sciences
Plants
soil
Soil ecology
Soil fertility
Soil fungi
Soil microbiology
Soil research
Soil Science & Conservation
Soils
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Title Mycorrhizas and mycorrhizal fungal communities throughout ecosystem development
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