Exploring the relationships between aquatic macrophyte functional traits and anthropogenic pressures in freshwater lakes.

Modern water resource management requires biomonitoring of the structure and functioning of freshwater ecosystems, which may be better illuminated by functional trait distribution patterns and responses across human-induced pressure gradients. In this study, we applied the RLQ, the fourth-corner and their novel combination methods, in order to assess the relationship between the distribution of 30 aquatic macrophyte functional traits and 14 indicators of anthropogenic pressures across 16 freshwater lakes. Our findings showed that there is a statistically significant relationship between the distribution of specific functional traits and anthropogenic pressures. Eutrophication was the dominant pressure and the shift from a submerged-macrophyte dominated vegetation community to an emergent one was the most important functional response. Aerial reproduction and dispersal traits were found to replace water-related ones under higher nutrient concentrations. Trophic and light preferences of macrophytic species increased, while their leaf morphology was found to change from tubular/capillary leaf types with low leaf area values to entire leaf types with greater leaf area. These results provide hints on the changes in ecosystem functioning occurring as a response to human-induced drivers. Therefore, this assessment approach could provide important support to the tasks of biomonitoring, conservation and management planning in freshwater ecosystems. Image 1 • RLQ and fourth-corner combined were applied to assess traits-environment relations. • Strong correlation found between aquatic plant traits and anthropogenic pressures. • Emergent life forms replace submerged ones in increased eutrophication levels. • Reproduction, dispersal, trophic, light, and leaf traits respond to eutrophication. • Trait assessment approaches can support conservation and restoration management. [ABSTRACT FROM AUTHOR]