<- Schmitt et al. 1989 (Article) CAM, Trichomes, Tillandsia

Gas Exchange and Water Vapor Uptake in the Atmospheric CAM Bromeliad Tillandsia recurvata L.: The Influence of Trichomes

Author(s):D.A.K. Schmitt, C.E. Martin & U.E. Lüttge

Publication:Botanica Acta 102(1): 80-84. (1989) — DOI

Abstract:—Abstract Tillandsia recurvata is an epiphytic atmospheric CAM bromeliad without functional roots. As an adaptation to very exposed and often dry habitats T. recurvata takes up liquid water via trichomes, which cover the plant. Gas exchange measurements also show an absorption of water vapor at the trichomes simultaneously with an increase in relative humidity at the beginning of the dark period. A similar amount of water is lost again when the relative humidity is decreased. Experiments with heat-killed plants show that this was due exclusively to physical equilibration of the hygroscopic walls of the dead trichome cells. This effect would have prevented an accurate calculation of transpiration and conductance, but can be accounted for by substracting water vapor exchange of heat-killed plants from that of the living tissue which yields the true water vapor conductance of the tissue. This is found to be rather low (3.37 mmol H2O kg?1 s?1) in comparison to other plants, and the proportion of total conductance due to trichomes is relatively high (0.53 mmol H2O kg?1 s?1). This explains the slow rates of photosynthesis and growth found in this plant.

Keywords:—CAM, epiphytes, water vapor uptake, Tillandsia recurvata