Stem and leaf functional traits allow successional classification in six pioneer and non-pioneer tree species in Tropical Moist Broadleaved Forests

•Quantitative traits were analysed to discriminate successional groups in the TMBF.•Pioneers presented higher stem glucose, larger vessel elements, greater stomatal density and higher pigment contents.•Non-pioneers were characterized by larger mesophyll cells and higher cell wall polymer contents.•T...

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Bibliographic Details
Published in:Ecological indicators 2020-06, Vol.113, p.106254, Article 106254
Main Authors: Macieira, Bernardo Pretti Becacici, Locosselli, Giuliano Maselli, Buckeridge, Marcos Silveira, Hartmann, Henrik, Cuzzuol, Geraldo Rogério Faustini
Format: Article
Language:English
Subjects:
Cell wall polymers
Chloroplastic pigments
Forest succession
Lignin
Non-structural carbohydrates
Vessel
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Summary:•Quantitative traits were analysed to discriminate successional groups in the TMBF.•Pioneers presented higher stem glucose, larger vessel elements, greater stomatal density and higher pigment contents.•Non-pioneers were characterized by larger mesophyll cells and higher cell wall polymer contents.•The biggest differences between pioneer and non-pioneer trees were leaf blade thickness > vessel lumen diameter > stem lignin. More than half of the tropical forests are secondary forests that are undergoing a highly dynamic interplay of forest succession of uncertain outcome. Vegetation models can help predict forest trajectory but require simplifying the high biodiversity of these forests into a few distinct classes of functional or successional groups. The classification of tree species by successional groups has traditionally relied on qualitative criteria such as life span, or on parameters that are difficult to measure on mature trees in the field, like photosynthetic activity, in particular in tropical forests. Hence, quantitative traits that can be easily measured in a number of species may provide more accurate classification thresholds. The present study identifies quantitative anatomical and biochemical traits of leaf and stem of six species that are useful for classification of successional groups in the Tropical Moist Broadleaved Forest (TMBF) of south-eastern Brazil. Consistent with assumed fast growth and high light requirements of pioneers the investigated pioneer species presented higher stem glucose content (600%), larger vessel elements (162%), greater stomatal density (72%) and higher chloroplastic pigments concentrations (90%) than non-pioneer species. By contrast, non-pioneers were characterized by larger mesophyll cells (70%) and higher cell wall polymers concentrations (65–100%) in leaf and stem. The biggest differences between pioneer and non-pioneer species were observed in leaf blade thickness, followed by vessel lumen diameter, and stem lignin. We provide research laboratories a variety of different tools that they can use as a guideline to accurately assess the successional class of tree species in the TMBF of south-eastern Brazil.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2020.106254