Structural adaptations in plants from the humid equatorial Andes indicate a trade‐off between hydraulic transport efficiency and safety

Premise Environmental gradients of mountains are reflected in traits that are common to high‐elevation plants worldwide. Closely related species of Senecio from the equatorial Andes grow as broad‐leaved climbers in montane forests, basal broad‐leaved rosette herbs in azonal marshy habitats, and asce...

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Published in:American journal of botany 2021-11, Vol.108 (11), p.2127-2142
Main Authors: Soukup, Aleš, Pecková, Eva, Ježková, Barbora, Sklenář, Petr
Format: Article
Language:English
Subjects:
Adaptation
Adaptation, Physiological
Asteraceae
Cavitation
Conduits
Efficiency
Elevation
Environmental conditions
Environmental gradient
Frost
growth forms
Habitats
Hydraulics
Leaves
Montane environments
Morphology
Mountain forests
Mountains
Ordination
Plant Leaves
Plants
Rosette
Safety
Senecio
Species
Stems
Tradeoffs
Transpiration
Transportation safety
Trees
tropical alpine environment
Variance analysis
Water
Water transport
Xylem
xylem embolism
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Summary:Premise Environmental gradients of mountains are reflected in traits that are common to high‐elevation plants worldwide. Closely related species of Senecio from the equatorial Andes grow as broad‐leaved climbers in montane forests, basal broad‐leaved rosette herbs in azonal marshy habitats, and ascending, narrow‐leaved subshrubs in high‐elevation páramo. Habitat variation along the elevational gradient enables testing whether modifications in leaf and stem functional traits among species were driven by contrasting environmental conditions. Methods We used quantitative analyses to describe changes in morphological and anatomical traits of leaves and stems in 10 species from various habitats. We applied univariate (linear regression, hierarchical ANOVA) and multivariate (NMDS ordination, permutational MANOVA) techniques to examine the correlation of traits with the species' habitats and elevation. Results Species from the humid and frost‐free montane forest develop xylem optimized for transport efficiency by increasing the internal diameter and length of the conduits. In contrast, páramo species are optimized toward hydraulic safety by producing narrower conduits and are more likely to prevent the risk of frost‐induced cavitation. Moreover, species from the high‐elevation páramo habitats present a set of water‐transport‐related anatomical traits of leaf lamina, allowing for efficient regulation of transpiration losses. Conclusions Morphological and anatomical traits of leaves and stems in species of Senecio inhabiting montane forests and high‐elevation páramo in the equatorial Andes demonstrate a trade‐off between hydraulic safety and efficiency of water transport.
ISSN:0002-9122
1537-2197
DOI:10.1002/ajb2.1799