Variation in trait trade‐offs allows differentiation among predefined plant functional types: implications for predictive ecology

Plant functional types (PFTs) aggregate the variety of plant species into a small number of functionally different classes. We examined to what extent plant traits, which reflect species’ functional adaptations, can capture functional differences between predefined PFTs and which traits optimally de...

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Bibliographic Details
Published in:The New phytologist 2016-01, Vol.209 (2), p.563-575
Main Authors: Verheijen, Lieneke M, Aerts, Rien, Bönisch, Gerhard, Kattge, Jens, Van Bodegom, Peter M
Format: Article
Language:English
Subjects:
Adaptation
Differentiation
Ecology
Ecology - methods
Herbivores
kernel density estimation
Models, Biological
Phenotype
plant ecology
plant functional types
Plant Physiological Phenomena
Plant species
plant strategies
plant traits
plants (botany)
Plants - classification
Probability density functions
probability distribution
Probability theory
Species
Taxonomy
trade‐offs
trait variation
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Summary:Plant functional types (PFTs) aggregate the variety of plant species into a small number of functionally different classes. We examined to what extent plant traits, which reflect species’ functional adaptations, can capture functional differences between predefined PFTs and which traits optimally describe these differences. We applied Gaussian kernel density estimation to determine probability density functions for individual PFTs in an n‐dimensional trait space and compared predicted PFTs with observed PFTs. All possible combinations of 1–6 traits from a database with 18 different traits (total of 18 287 species) were tested. A variety of trait sets had approximately similar performance, and 4–5 traits were sufficient to classify up to 85% of the species into PFTs correctly, whereas this was 80% for a bioclimatically defined tree PFT classification. Well‐performing trait sets included combinations of correlated traits that are considered functionally redundant within a single plant strategy. This analysis quantitatively demonstrates how structural differences between PFTs are reflected in functional differences described by particular traits. Differentiation between PFTs is possible despite large overlap in plant strategies and traits, showing that PFTs are differently positioned in multidimensional trait space. This study therefore provides the foundation for important applications for predictive ecology.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.13623