The relationship between leaf water repellency and leaf traits in three distinct biogeographical regions

摘要

Leaf water repellency (LWR) is the degree to which water droplets repel from a leaf surface. LWR has been suggested as an adaptation to maximize gas exchange during photosynthesis and as a mechanism to increase hydrological inputs beneath the canopy. This article examined the relationships between LWR and leaf traits in 33 species across three distinct biogeographical regions (tropical montane cloud forests in Guatemala; tropical dry forests in Guatemala; and foothills-grassland vegetation in the U.S.). The objectives of this study were to determine if leaf area, leaf thickness, leaf biomass, specific leaf area, leaf toughness, stomatal density, and the presence of epiphylls explained variation in LWR in the 33 species. LWR was greatest in the dry foothills-grassland ecotone in Colorado and lowest in humid cloud forest of the Sierra de las Minas. Most possible pairs of species were significantly different from each other at each study area. Significant variation in all leaf traits was found among species and sites. LWR was not explained by leaf area, leaf thickness, leaf biomass, and specific leaf area. The presence of epiphylls influenced LWR on the abaxial leaf surfaces of species of the Sierra de las Minas. The article concludes that leaf traits related to size and mass do not influence LWR; however, the variation in LWR in species between distinct biogeographical regions remains an important research area in ecohydrology.