Lianas and trees exhibit divergent intrinsic water‐use efficiency along elevational gradients in South American and African tropical forests

Aim Elevational gradients provide excellent opportunities to explore long‐term morphological and physiological responses of plants to environmental change. We determined the difference in the elevational pattern of foliar carbon isotope composition (δ13C) between lianas and trees, and assessed wheth...

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Bibliographic Details
Published in:Global ecology and biogeography 2021-11, Vol.30 (11), p.2259-2272
Main Authors: Mumbanza, Francis M., Bauters, Marijn, Meunier, Félicien, Boeckx, Pascal, Cernusak, Lucas A., De Deurwaerder, Hannes P. T., Demol, Miro, Meeussen, Camille, Sercu, Bram, Verryckt, Lore T., Pauwels, Jana, Cizungu, Landry N., Báez, Selene, Lubini, Constantin A., Verbeeck, Hans, Lenoir, Jonathan
Format: Article
Language:English
Subjects:
Bayesian analysis
Carbon isotopes
Divergence
Ecuador
Elevation
Environmental changes
intrinsic water‐use efficiency
Isotope composition
leaf carbon isotope composition
Lianas
Mathematical models
Mountain forests
Mountains
Nitrogen
Nutrients
Photosynthesis
Physiological responses
Plant species
Rwanda
Stomata
Stomatal conductance
Trees
Tropical forests
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Summary:Aim Elevational gradients provide excellent opportunities to explore long‐term morphological and physiological responses of plants to environmental change. We determined the difference in the elevational pattern of foliar carbon isotope composition (δ13C) between lianas and trees, and assessed whether this difference arises from changes in photosynthesis or stomatal conductance. We also explored the pattern of nutrient limitations with the elevation of these two growth forms. Location The study was conducted in two mountain forests situated in the Neotropics and Palaeotropics. Time period August–September 2015 and August–October 2016. Major taxa studied Lianas and trees. Methods We conducted inventories of lianas and trees using standardized techniques along elevational gradients in Ecuador and Rwanda. We determined the values of several foliar traits including δ13C and chemical traits in dominant liana and tree species. We set up Bayesian linear mixed‐effect models to quantify the effects of elevation and growth form on each of the foliar traits , and the difference of the effect of elevation between the two growth forms (lianas and trees). Results We found consistent growth form specific divergences in foliar δ13C and carbon to nitrogen ratio (C : N) responses to elevation. While we noted a meaningful increase in foliar δ13C and C : N with elevation for trees, lianas did not exhibit such a trend. Foliar δ13C and C : N remained relatively constant for lianas along the transects. Main conclusions Lianas operate at relatively constant intrinsic water‐ and nitrogen‐use efficiencies with elevation compared with trees. Altogether, the study suggests the existence of a functional divergence of water and nutrient use strategies between lianas and trees along tropical elevational transects.
ISSN:1466-822X
1466-8238
DOI:10.1111/geb.13382