Nematodes as Drivers of Plant Performance in Natural Systems

Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on plant–nematode interactions are focused on agriculture, while plant–nematode interactions in nature are less known. Here we highlight that nematode...

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Published inTrends in plant science Vol. 26; no. 3; pp. 237 - 247
Main Authors Wilschut, Rutger A., Geisen, Stefan
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.03.2021
Elsevier BV
Subjects
administrative management
Agriculture
Animals
Biodiversity
dynamics
ecological invasion
global change
knowledge
Nematoda
nematode biogeography
Nematodes
Plant management
Plants
Plants (botany)
plant–nematode interactions
plant–soil feedbacks
Predation
rhizobiome
Soil
soil biodiversity
Soil dynamics
soil-plant interactions
Soils
vegetation
nematode biogeography
soil biodiversity
rhizobiome
plant–nematode interactions
plant–soil feedbacks
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Abstract Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on plant–nematode interactions are focused on agriculture, while plant–nematode interactions in nature are less known. Here we highlight that nematodes can contribute to vegetation dynamics through direct negative effects on plants, and indirect positive effects through top–down predation on plant-associated organisms. Global change alters these interactions, of which better understanding is rapidly needed to better predict functional consequences. By expanding the knowledge of plant–nematode interactions in natural systems, an increase in basic understanding of key ecological topics such as plant–soil interactions and plant invasion dynamics will be obtained, while also increasing the insights and potential biotic repertoire to be applicable in sustainable plant management. The impact of soil nematodes -the most abundant animals on Earth- on plant performance have mostly been studied in agricultural systems and are only partly understood in natural systems.There is accumulating evidence that nematodes affect natural plant performance by contributing to negative plant–soil feedbacks, altering rhizosphere microbial communities and enhancing nutrient cycling. Molecular methods will further increase this understanding, especially by elucidating species specificity and underlying molecular mechanisms of plant–nematode interactions.Increased knowledge is needed to understand how changes in nematode community structure, which are imposed by several global change drivers, feed back to plant performance and plant community composition.
AbstractList Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on plant-nematode interactions are focused on agriculture, while plant-nematode interactions in nature are less known. Here we highlight that nematodes can contribute to vegetation dynamics through direct negative effects on plants, and indirect positive effects through top-down predation on plant-associated organisms. Global change alters these interactions, of which better understanding is rapidly needed to better predict functional consequences. By expanding the knowledge of plant-nematode interactions in natural systems, an increase in basic understanding of key ecological topics such as plant-soil interactions and plant invasion dynamics will be obtained, while also increasing the insights and potential biotic repertoire to be applicable in sustainable plant management.Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on plant-nematode interactions are focused on agriculture, while plant-nematode interactions in nature are less known. Here we highlight that nematodes can contribute to vegetation dynamics through direct negative effects on plants, and indirect positive effects through top-down predation on plant-associated organisms. Global change alters these interactions, of which better understanding is rapidly needed to better predict functional consequences. By expanding the knowledge of plant-nematode interactions in natural systems, an increase in basic understanding of key ecological topics such as plant-soil interactions and plant invasion dynamics will be obtained, while also increasing the insights and potential biotic repertoire to be applicable in sustainable plant management.
Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on plant-nematode interactions are focused on agriculture, while plant-nematode interactions in nature are less known. Here we highlight that nematodes can contribute to vegetation dynamics through direct negative effects on plants, and indirect positive effects through top-down predation on plant-associated organisms. Global change alters these interactions, of which better understanding is rapidly needed to better predict functional consequences. By expanding the knowledge of plant-nematode interactions in natural systems, an increase in basic understanding of key ecological topics such as plant-soil interactions and plant invasion dynamics will be obtained, while also increasing the insights and potential biotic repertoire to be applicable in sustainable plant management.
Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on plant–nematode interactions are focused on agriculture, while plant–nematode interactions in nature are less known. Here we highlight that nematodes can contribute to vegetation dynamics through direct negative effects on plants, and indirect positive effects through top–down predation on plant-associated organisms. Global change alters these interactions, of which better understanding is rapidly needed to better predict functional consequences. By expanding the knowledge of plant–nematode interactions in natural systems, an increase in basic understanding of key ecological topics such as plant–soil interactions and plant invasion dynamics will be obtained, while also increasing the insights and potential biotic repertoire to be applicable in sustainable plant management. The impact of soil nematodes -the most abundant animals on Earth- on plant performance have mostly been studied in agricultural systems and are only partly understood in natural systems.There is accumulating evidence that nematodes affect natural plant performance by contributing to negative plant–soil feedbacks, altering rhizosphere microbial communities and enhancing nutrient cycling. Molecular methods will further increase this understanding, especially by elucidating species specificity and underlying molecular mechanisms of plant–nematode interactions.Increased knowledge is needed to understand how changes in nematode community structure, which are imposed by several global change drivers, feed back to plant performance and plant community composition.
Author Wilschut, Rutger A.
Geisen, Stefan
Author_xml – sequence: 1
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  givenname: Stefan
  surname: Geisen
  fullname: Geisen, Stefan
  email: stefan.geisen@wur.nl
  organization: Department of Nematology, Wageningen University and Research, Wageningen, The Netherlands
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Keywords nematode biogeography
soil biodiversity
rhizobiome
plant–nematode interactions
plant–soil feedbacks
Language English
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– name: Kidlington
PublicationTitle Trends in plant science
PublicationTitleAlternate Trends Plant Sci
PublicationYear 2021
Publisher Elsevier Ltd
Elsevier BV
Publisher_xml – name: Elsevier Ltd
– name: Elsevier BV
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  doi: 10.1002/ece3.4505
– volume: 6
  year: 2011
  ident: 10.1016/j.tplants.2020.10.006_bb0285
  article-title: Changes in plant species richness induce functional shifts in soil nematode communities in experimental grassland
  publication-title: PLOS ONE
  doi: 10.1371/journal.pone.0024087
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Snippet Nematodes form an important part of soil biodiversity as the most abundant and functionally diverse animals affecting plant performance. Most studies on...
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SubjectTerms administrative management
Agriculture
Animals
Biodiversity
dynamics
ecological invasion
global change
knowledge
Nematoda
nematode biogeography
Nematodes
Plant management
Plants
Plants (botany)
plant–nematode interactions
plant–soil feedbacks
Predation
rhizobiome
Soil
soil biodiversity
Soil dynamics
soil-plant interactions
Soils
vegetation
Title Nematodes as Drivers of Plant Performance in Natural Systems
URI https://dx.doi.org/10.1016/j.tplants.2020.10.006
https://www.ncbi.nlm.nih.gov/pubmed/33214031
https://www.proquest.com/docview/2503172171
https://www.proquest.com/docview/2463102875
https://www.proquest.com/docview/2498295052
Volume 26
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