Abstract
AbstractFunctional traits play a key role in driving plant community effects on ecosystem function. We examined nine functional traits in various palm (Arecaceae) species and their relationships with moisture, tree-fall gaps, slope, and forest type at 29 transects (500×5 m) in the northeastern region of the Colombian Amazon. Redundancy analysis of mean trait values of species within a plot weighted by their abundance and Pearson correlations were used to evaluate the relationships between traits and environmental factors. The community trait composition was correlated with local environmental factors, which explained 23% of the trait variance. We detected functional dominance of the tallest palms in soils with high moisture and in floodplain forests (p ≤0.05). Palms with relatively long leaves were dominant in the flooded forests. Acaulescent and small palms were dominant on high slopes, and interra firmeforests, long-petioled palms were dominant in forest gaps. The number of seeds per fruit was not correlated with any environmental variable. Thus, hydrology is one of the main drivers of the functional composition of neotropical palm communities at the local scale, segregating tall palms with competitive and evasive strategies from small understory palms, which are mainly stress tolerant.
Highlights
IntroductionTopography, and the spatiotemporal dynamics of canopy gaps are among the main abiotic factors that determine the composition, structure, and richness of palm communities at both local and landscape scales (Eiserhardt et al 2011)
The data collected along the Guaviare River form part of a larger dataset covering 546 transects in palm communities covering the western region of the Amazon
Our results are in agreement with the plant ecology strategy scheme, which states that leaf morphology, stem height, and seed size (LHS) capture the main axes of plant responses to competition, stress, and disturbance (Westoby 1998)
Summary
Topography, and the spatiotemporal dynamics of canopy gaps are among the main abiotic factors that determine the composition, structure, and richness of palm communities at both local and landscape scales (Eiserhardt et al 2011). These factors strongly influence the functional response of the plants (Gratani 2014, Gross et al 2008, Ishii & Asano 2010, Pearcy 2007, Salgado-Negret et al 2015). This has been identified as a functional response of plants to survive in flooded areas
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