Metabolome expression in Eucryphia cordifolia populations: Role of seasonality and ecological niche centrality hypothesis

The ecological niche centrality hypothesis states that population abundance is determined by the position in the ecological niche, expecting higher abundances towards the center of the niche and lower at the periphery. However, the variations in the conditions that favor the persistence of populatio...

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Bibliographic Details
Published in:Journal of plant research 2023-11, Vol.136 (6), p.827-839
Main Authors: Fuica-Carrasco, Camila, Toro-Núñez, Óscar, Lira-Noriega, Andrés, Pérez, Andy J., Hernández, Víctor
Format: Article
Language:English
Subjects:
Bioclimatology
Biomedical and Life Sciences
Centroids
Ecological niches
Ecology
Hypotheses
Life Sciences
Metabolites
Metabolomics
Niches
Plant Biochemistry
Plant Ecology
Plant Physiology
Plant Sciences
Plant species
Populations
Regular Paper – Ecology/Ecophysiology/Environmental Biology
Seasonal variations
Variation
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Summary:The ecological niche centrality hypothesis states that population abundance is determined by the position in the ecological niche, expecting higher abundances towards the center of the niche and lower at the periphery. However, the variations in the conditions that favor the persistence of populations between the center and the periphery of the niche can be a surrogate of stress factors that are reflected in the production of metabolites in plants. In this study we tested if metabolomic similarity and diversity in populations of the tree species Eucryphia cordifolia Cav. vary according to their position with respect to the structure of the ecological niche. We hypothesize that populations growing near the centroid should exhibit lower metabolites diversity than plants growing at the periphery of the niche. The ecological niche of the species was modeled using correlative approaches and bioclimatic variables to define central and peripheral localities from which we chose four populations to obtain their metabolomic information using UHPLC-DAD-QTOF-MS. We observed that populations farther away from the centroid tend to have higher metabolome diversity, thus supporting our expectation of the niche centrality hypothesis. Nonetheless, the Shannon index showed a marked variation in metabolome diversity at the seasonal level, with summer and autumn being the periods with higher metabolite diversity compared to winter and spring. We conclude that both the environmental variation throughout the year in combination with the structure of the ecological niche are relevant to understand the variation in expression of metabolites in plants.
ISSN:0918-9440
1618-0860
DOI:10.1007/s10265-023-01483-3