Abstract
Community functioning may be affected by functional diversity, which measures the extent of complementarity in resource use. We tested whether there was a relationship between functional diversity of woody species and community functioning on a fine scale, using FD as a measure of functional diversity and litter decomposition rate as a surrogate for community functioning. We measured eight functional traits from a woodland cerrado community in southeastern Brazil. Then, we tested the correlation between FD and the decomposition rate taking into account differences in soil features and between decomposition rate and each trait separately. The decomposition rate was related to the aluminium and phosphorus concentration in soil, but not to FD, pointing out that functional diversity was not a good predictor of community functioning. There was a non-significant relationship between FD and the decomposition rate even when we considered each trait separately. Most studies in the relationships between biodiversity and community functioning on fine scales were carried out by experimental manipulation of diversity and in temperate regions. We carried out this fine scale study as a mensurative experiment and in a tropical savanna. Our findings indicated that the relationship between biodiversity and community functioning is not as straightforward as usually assumed.
Highlights
Biological diversity may affect community functioning by the role of each species in a given community (Díaz and Cabido, 2001)
We addressed the following questions: (1) is the FD related to the decomposition rate taking soil features into account? (2) when analysing functional traits separately, are they related to the decomposition rate?
FD was not a good predictor of community functioning on a fine scale
Summary
Biological diversity may affect community functioning by the role of each species in a given community (Díaz and Cabido, 2001). Studies concerning the relationship between diversity and community functioning used species richness as a measure of diversity (Naeen et al, 1994). This measure implicitly assumes that all species are different and, the addition of any species to a community should increase the functioning by one unit (Petchey et al, 2004). Community functioning must be determined by the value and range of species functional traits, that is, characteristics that affect the organism fitness through direct or indirect effects on growth, reproduction, and survival (Díaz and Cabido, 2001; Hooper et al, 2005; Petchey and Gaston, 2002). Since an increase in functional diversity should be related to an increase in the intensity of the processes in community functioning, functional diversity is expected to be a good predictor of functioning (Petchey and Gaston, 2002)
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