Multi-trait interactions, not phylogeny, fine-tune leaf size reduction with increasing altitude

Ruben Milla, Peter B. Reich

    Research output: Contribution to journalArticle

    84 Citations (Scopus)

    Abstract

    Background and Aims: Despite long-held interest, knowledge on why leaf size varies widely among species is still incomplete. This study was conducted to assess whether abiotic factors, phylogenetic histories and multi-trait interactions act together to shape leaf size. Methods: Fifty-seven pairs of altitudinal vicariant species were selected in northern Spain, and leaf area and a number of functionally related leaf, shoot and whole plant traits were measured for each pair. Structural equation modelling helped unravel trait interactions affecting leaf size, and Mantel tests weighed the relative relevance of phylogeny, environment and trait interactions to explain leaf size reduction with altitude. Key Results: Leaves of highland vicariants were generally smaller than those of lowlands. However, the extent of leaf size reduction with increasing altitude was widely variable among genera: from approx. 700 cm2 reduction (96 % in Polystichum) to approx. 30 cm2 increase (37 % in Sorbus). This was partially explained by shifts in leaf, shoot and whole plant traits (35–64 % of explained variance, depending on models), with size/number trade-offs more influential than shifts in leaf form and leaf economics. Shifts in traits were more important than phylogenetic distances or site-specific environmental variation in explaining the degree of leaf size reduction with altitude. Conclusions: Ecological filters, constraints due to phylogenetic history (albeit modest in the study system), and phenotypic integration contribute jointly to shape single-trait evolution. Here, it was found that phenotypic change was far more important than shared ancestry to explaine leaf size differences of closely related species segregated along altitudes.
    Original languageEnglish
    Number of pages11
    JournalAnnals of Botany
    Publication statusPublished - 2011

    Open Access - Access Right Statement

    © The Author 2011. Published by Oxford University Press on behalf of the Annals of Botany Company

    Keywords

    • altitude
    • indirect selection
    • leaf economics
    • leaf size
    • phylogeny
    • traits

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