What controls fish functional diversity patterns in Colombian Andean streams?

Abstract

AbstractUnderstanding the mechanisms that structure communities have been a major challenge in ecological theory. Functional trait‐based approaches are increasingly used for studying the processes underlying community assembly. However, species‐poor systems of Andean streams these processes are largely unknown. Tropical Andean streams are highly variable in space‐time and characterised by the harsh or stable environment, resulting in a high taxonomic and ecological diversity. In this study, we tested the influence of environmental variables on the fish functional structure. We proposed that in ecosystems with harsh environments, environmental filtering will structure fish assemblages, and in ecosystems with a more stable environment, limiting similarity will prevail, increasing functional diversity. We analysed fish assemblages using functional diversity indices, fourth‐corner RLQ analyses and multiple regression models. Environmental variables such as altitude, stream width, sub‐Andean vegetation and pH influenced functional diversity. For instance, high values of functional redundancy were registered at high elevation streams, reflecting fish assemblages composed of highly dominant species with similar functional traits such as species of the genus Astroblepus. However, we found differences between Astroblepus species in the number and distance of gill rakers which might indicate resource partitioning and coexistence. On the other hand, our results show both stochastic dynamics and environmental filtering are structuring fish assemblages in low and high elevation Andean streams respectively.