| Abstract: | Aims Adaptive plasticity of biomass allocation to different environmental stressors enables plants to maintain functional relationships among reproductive structures. In freshwater systems, water depth and nutrient content of sediments can have a major effect on biomass allocation in aquatic macrophytes. However, the relative importance of these two stressors is unknown as it is the temporal variation of biomass allocation to the stressors during the growing period. This information may be critical for understanding the tolerance of a plant to environmental conditions.Methods Here, we used four levels of environmental stressors generated by deep and shallow water and high or low sediment nutrient content in a factorial experiment to investigate the biomass allocation responses of a floating macrophyte, Trapella sinensis, during the growing period.Important findings The results showed that the lower sediment nutrient content inhibited biomass increase, whereas the lower water depth increased the sexual reproduction of the plants. The lower sediment content also led to a delay in flowering and compensated trade-offs among sexual reproduction and elongation and clonal reproduction during the growing period. These results indicated that water depth affected the ratio of biomass allocation, whereas the sediment nutrient content affected biomass accumulation when the plants faced these two environmental factors simultaneously. The temporal changes in allocation under lower sediment nutrient content underscored the importance of collecting data at different stages of growth when trying to interpret resource allocation, especially in resource-limited environments. |
