Abstract

QuestionNiche differentiation results in functionally diverse communities that are often composed of dominant species with contrasting trait values. However, many predictive trait-based models that emphasize environmental filtering have implicitly assumed that traits exhibit unimodal distributions among individuals within communities centred on an optimal trait value. Does accounting for more complex, multimodal trait distributions among individuals in a community improve predictions of species abundances and functional diversity along environmental gradients?LocationFranz Josef soil chronosequence, central Westland, New Zealand.MethodsLeaf nitrogen (N) and phosphorus (P) concentrations from 23 woody plant species were modelled as functions of soil total N and P from eight sites of declining soil P. We compared predictions to observations of species abundances and functional diversity along the soil chronosequence using two modelling approaches: (i) the standard application of the hierarchical Bayesian Traitspace model that assumes unimodally distributed traits at each point along the gradient, and (ii) a modified application of the model that accounts for multimodal trait distributions within each community.ResultsSoil P was the strongest predictor of traits and species abundances. The strength of the environmental filter of leaf traits changed along this gradient, as evidenced by highly constrained variances and low modality of the trait distribution at low soil P, and high variance and multimodality at high soil P. Both modelling approaches predicted species abundances that were significantly correlated with observations, but the multimodal approach significantly improved predictions of species abundances and functional diversity.ConclusionsOur results indicate that predictive models that emphasize environmental filtering over niche differentiation by assuming unimodal trait distributions can be more parsimonious than more complex approaches, especially when predicting species abundances along strong environmental gradients. However, models need to account for trait multimodality if they are to accurately replicate spatial patterns in functional diversity. This is important since functional diversity may be a key predictor of ecosystem function and resilience to global change.

Keywords

Environmental filtering; Functional diversity; Gaussian mixture model; Hierarchical Bayesian model; Intraspecific trait variation; Leaf economics spectrum; Limiting similarity; Niche differentiation; Nitrogen limitation; Phosphorus limitation; Soil chronosequence; Species distribution modelling; Trait convergence; Trait divergence; Traitspace

Published in

Journal of Vegetation Science
2015, Volume: 26, number: 1, pages: 46-57
Publisher: WILEY-BLACKWELL

SLU Authors

• Wardle, David

  • Department of Forest Ecology and Management, Swedish University of Agricultural Sciences
    

UKÄ Subject classification

Forest Science


Publication identifier

DOI: https://doi.org/10.1111/jvs.12219

Permanent link to this page (URI)

https://res.slu.se/id/publ/63575