Different “metabolomic niches” of the highly diverse tree species of the French Guiana rainforests

Tropical rainforests harbor a particularly high plant diversity. We hypothesize that potential causes underlying this high diversity should be linked to distinct overall functionality (defense and growth allocation, anti-stress mechanisms, reproduction) among the different sympatric taxa. In this st...

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Bibliographic Details
Published in:Scientific reports 2020-04, Vol.10 (1), p.6937-6937, Article 6937
Main Authors: Gargallo-Garriga, Albert, Sardans, Jordi, Granda, Victor, Llusià, Joan, Peguero, Guille, Asensio, Dolores, Ogaya, Romà, Urbina, Ifigenia, Van Langenhove, Leandro, Verryckt, Lore T., Chave, Jérome, Courtois, Elodie A., Stahl, Clément, Grau, Oriol, Klem, Karel, Urban, Otmar, Janssens, Ivan A., Peñuelas, Josep
Format: Article
Language:English
Subjects:
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Analysis of Variance
Cluster Analysis
Discriminant Analysis
Ecology, environment
French Guiana
Humanities and Social Sciences
Least-Squares Analysis
Life Sciences
Metabolites
Metabolome
Metabolomics
multidisciplinary
Niches
Phylogeny
Plant diversity
Plant Leaves - metabolism
Plant species
Rainforest
Rainforests
Rainy season
Science
Science (multidisciplinary)
Seasons
Species
Species diversity
Species Specificity
Sympatric populations
Trees - metabolism
Tropical forests
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Summary:Tropical rainforests harbor a particularly high plant diversity. We hypothesize that potential causes underlying this high diversity should be linked to distinct overall functionality (defense and growth allocation, anti-stress mechanisms, reproduction) among the different sympatric taxa. In this study we tested the hypothesis of the existence of a metabolomic niche related to a species-specific differential use and allocation of metabolites. We tested this hypothesis by comparing leaf metabolomic profiles of 54 species in two rainforests of French Guiana. Species identity explained most of the variation in the metabolome, with a species-specific metabolomic profile across dry and wet seasons. In addition to this “homeostatic” species-specific metabolomic profile significantly linked to phylogenetic distances, also part of the variance (flexibility) of the metabolomic profile was explained by season within a single species. Our results support the hypothesis of the high diversity in tropical forest being related to a species-specific metabolomic niche and highlight ecometabolomics as a tool to identify this species functional diversity related and consistent with the ecological niche theory.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-63891-y