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• W2079228234 abstract "•Research on the diversity of root-infecting fungi is hampered by descriptive classification paradigms. •We propose a trait-based framework disentangling the saprotrophic–symbiotic continuum. •This framework will provide inroads into the evolution and ecology of fungal–root associations. Classification schemes have been popular to tame the diversity of root-infecting fungi. However, the usefulness of these schemes is limited to descriptive purposes. We propose that a shift to a multidimensional trait-based approach to disentangle the saprotrophic–symbiotic continuum will provide a better framework to understand fungal evolutionary ecology. Trait information reflecting the separation of root-infecting fungi from free-living soil relatives will help to understand the evolutionary process of symbiosis, the role that species interactions play in maintaining their large diversity in soil and in planta, and their contributions at the ecosystem level. Methodological advances in several areas such as microscopy, plant immunology, and metatranscriptomics represent emerging opportunities to populate trait databases. Classification schemes have been popular to tame the diversity of root-infecting fungi. However, the usefulness of these schemes is limited to descriptive purposes. We propose that a shift to a multidimensional trait-based approach to disentangle the saprotrophic–symbiotic continuum will provide a better framework to understand fungal evolutionary ecology. Trait information reflecting the separation of root-infecting fungi from free-living soil relatives will help to understand the evolutionary process of symbiosis, the role that species interactions play in maintaining their large diversity in soil and in planta, and their contributions at the ecosystem level. Methodological advances in several areas such as microscopy, plant immunology, and metatranscriptomics represent emerging opportunities to populate trait databases. nutritional mode in which a fungal symbiont exclusively relies on living host cells as a source of nutrients. species traits directly linked with a particular ecosystem process. Different species sharing similar functional traits are pooled into functional groups. traits reflecting allocation of resources of an individual into different fitness components. nutritional mode in which a fungal symbiont causes host cell death in order to acquire nutrients. nutritional mode in which a free-living fungus obtains nutrients from decaying organic matter, without inducing the death of the tissue. a physiological or structurally intimate interaction between phylogenetically unrelated organisms, without implying a specific effect of fitness on either organisms. any morphological, physiological, or phenological character of an organism." @default.
• W2079228234 created "2016-06-24" @default.
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• W2079228234 date "2014-07-01" @default.
• W2079228234 modified "2023-10-10" @default.
• W2079228234 title "Ecological understanding of root-infecting fungi using trait-based approaches" @default.
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• W2079228234 doi "https://doi.org/10.1016/j.tplants.2014.02.006" @default.
• W2079228234 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24613596" @default.
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