Tereza Volfová scite author profile

Plants produce an astonishing diversity of specialized metabolites as defences against herbivores, pathogens or detrimental abiotic conditions. Plants growing at different elevations are exposed to different biotic and abiotic conditions and typically show pronounced differences in their chemistry. Understanding how these differences arise through changes in various measures of chemical diversity can inform us concerning factors that contribute to the variety of metabolites found among plants. We focused on elevational changes in concentration, richness and intra‐ and interspecific variation in specialized chemistry in willows (Salix, Salicaceae) and compare them among metabolite classes with different functions. We aim to show how these various measures of chemical diversity change with elevation to reveal trends contributing to changes in plant chemistry along major ecological gradients. We studied chemistry, herbivory and fungal pathogen damage in an assemblage of seven willow species along an elevational gradient in the Alps (800–2600 m a.s.l.). We examined trends in chemical diversity using untargeted metabolomics, and further quantified trends in three specific classes: proanthocyanidins and salicinoids involved in biotic interactions, and flavonoids involved mainly in abiotic protection. We use measures of willow chemistry that take structural relatedness of metabolites into account to show if the roles of structurally distinct metabolites change with elevation. Willows from low elevations exhibited greater proanthocyanidin concentration and structural richness of flavonoids. In contrast, willows from high elevations showed greater structural richness of salicinoids and greater variation in total metabolite composition at both the intra‐ and interspecific levels. The trends in salicinoid richness and proanthocyanidin concentration were explained by elevational changes in temperature. Our results show how elevational differences in plant chemistry arise through trends in various aspects of their chemical diversity. Willows at high elevations showed reduced structural richness of metabolites involved in abiotic protection. This may reflect focused investment in metabolites with the highest ecological benefit relative to their concentration in high‐elevation willows. At the same time, they possessed greater richness of metabolites involved in biotic interactions, while variation in microhabitat preferences among high‐elevation species likely contributed to the high variation in their total metabolite pool. Read the free Plain Language Summary for this article on the Journal blog.

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Contrasting levels of β‐diversity and underlying phylogenetic trends indicate different paths to chemical diversity in highland and lowland willow species

Volf

Leong

Ferreira

et al. 2023

Ecology Letters

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Diverse specialised metabolites contributed to the success of vascular plants in colonising most terrestrial habitats. Understanding how distinct aspects of chemical diversity arise through heterogeneous environmental pressures can help us understand the effects of abiotic and biotic stress on plant evolution and community assembly. We examined highland and lowland willow species within a phylogenetic framework to test for trends in their chemical α‐diversity (richness) and β‐diversity (variation among species sympatric in elevation). We show that differences in chemistry among willows growing at different elevations occur mainly through shifts in chemical β‐diversity and due to convergence or divergence among species sharing their elevation level. We also detect contrasting phylogenetic trends in concentration and α‐diversity of metabolites in highland and lowland willow species. The resulting elevational patterns contribute to the chemical diversity of willows and suggest that variable selective pressure across ecological gradients may, more generally, underpin complex changes in plant chemistry.

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Tereza Volfová

Abiotic stress rather than biotic interactions drives contrasting trends in chemical richness and variation in alpine willows

Contrasting levels of β‐diversity and underlying phylogenetic trends indicate different paths to chemical diversity in highland and lowland willow species

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