Do freshwater plants have adaptive responses to typhoon-impacted regimes?

In tropical regimes, cyclones exert great influence on the local aquatic habitats. The objective of our study was to investigate if aquatic plants have an adaptive response to typhoon influence. Population traits of six aquatic species in different life-forms (emergent species: Scirpus triangulatus, Eleocharis plantagineiformis, Rotala rotundifolia, Eriocaulon buergerianum; submerged: Blyxa echinosperma; floating-leaved: Nymphoides indica) were investigated to compare intraspecific variations in high and low typhoon-impacted regions on Hainan Island in southern China. In the high typhoon-impacted region, there was greater belowground biomass allocation in both emergent and floating-leaved species. The ratio of belowground to total biomass of each emergent was 41% (P = 0.028), 38% (P = 0.034), 27% (P = 0.040), 19% (P = 0.043) greater respectively, and floating-leaved N. indica was 40% (P = 0.014) greater than in the low typhoon region. The stem height of relatively tall emergent species (S. triangulatus and E. plantagineiformis) was 35% (P = 0.033), 42% (P = 0.046) lower, and floating-leaved species N. indica had decreased leaf area (49%, P < 0.001) and number (30%, P < 0.001) on water surface in the high typhoon-impacted region than in the low. These adaptations of the plants will reduce their risk of mechanical damage from strong winds or wind-induced currents. Submerged species in the study showed no variation in traits between the high and low typhoon-impacted regions.