Influence of soils and topography on Amazonian tree diversity: A landscape-scale study

Susan G.W. Laurance, James Cook University
William F. Laurance, Smithsonian Tropical Research Institute
Ana Andrade, Instituto Nacional de Pesquisas Da Amazonia
Philip M. Fearnside, Instituto Nacional de Pesquisas Da Amazonia
Kyle E. Harms, Louisiana State University
Alberto Vicentini, Instituto Nacional de Pesquisas Da Amazonia
Regina C.C. Luizão, Instituto Nacional de Pesquisas Da Amazonia


Question: How do soils and topography influence Amazonian tree diversity, a region with generally nutrient-starved soils but some of the biologically richest tree communities on Earth? Location: Central Amazonia, near Manaus, Brazil. Methods: We evaluated the influence of 14 soil and topographic features on species diversity of rain forest trees (≥10 cm diameter at breast height), using data from 63 1-ha plots scattered over an area of ~400 km2. Results: An ordination analysis identified three ma- jor edaphic gradients: (1) flatter areas had generally higher nutrient soils (higher clay content, carbon, nitrogen, phosphorus, pH and exchangeable bases, and lower aluminium saturation) than did slopes and gullies; (2) sandier soils had lower water storage (plant available water capacity), phosphorus and nitrogen; and (3) soil pH varied among sites. Gra- dient 2 was the strongest predictor of tree diversity (species richness and Fisher's α values), with diversity increasing with higher soil fertility and water availability. Gradient 2 was also the best predictor of the number of rare (singleton) species, which accounted on average for over half (56%) of all species in each plot. Conclusions: Although our plots invariably supported diverse tree communities (≥ 225 species ha-1), the most species-rich sites (up to 310 species ha-1) were least constrained by soil water and phosphorus availability. Intriguingly, the numbers of rare and common species were not significantly correlated in our plots, and they responded differently to major soil and topographic gradients. For unknown reasons rare species were significantly more frequent in plots with many large trees. © 2009 International Association for Vegetation Science.