Floristic composition in three different forest types in western Amazonia

Aim: The latitudinal gradient is considered a first-order biogeographical pattern for most taxonomic groups. Yet, latitudinal changes in plant ecological communities are not always consistent, and this could be related to the physical and biological characteristics of different forest types. In this study, we compare latitudinal changes in floristic diversity (alpha diversity), composition (beta diversity), and dominance across different tropical forest types: floodplain, terra firme, and submontane forests. 

Location: Western Amazonia (Ecuador, Peru, and Bolivia).

Taxon: Woody plants. 

Methods: We inventoried 1,978 species and 31,203 individuals of vascular plants with a diameter at breast height ≥ 2.5 cm in 118 0.1-ha plots over a 1,800-km latitudinal gradient in three different forest types. The relationships between alpha diversity, latitude, and forest type were analysed using generalised linear mixed models (GLMMs). Semi-parametric permutational multivariate analysis of variance was used to investigate the effects of latitude and forest type on beta diversity. Dominant species abundances were correlated with non-metric multidimensional scaling ordination axes to reflect their contributions in shaping changes in beta diversity. 

Results: Alpha diversity increased towards equatorial latitudes in terra firme and submontane forests but remained relatively constant in floodplains. Beta diversity of all forest types changed with latitude, although less clearly in floodplains. Overall, the abundances of dominant species decreased towards the Equator, though in floodplains they were more homogeneous along the gradient.

Main conclusions: Alpha diversity, beta diversity and dominance patterns differed across forest types. In floodplain forests, the flooding regime is a strong predictor of floristic composition, which maintains alpha diversity constant along the latitudinal gradient. However, alpha and beta diversity in unflooded forests increase steadily towards equatorial latitudes. Furthermore, we found fewer dominant species contributing to changes beta diversity in floodplain forests. Shifts in abundance of dominant species over gradients can explain how beta diversity is driven differently per forest type.