Leaf optical properties of an alpine perennial herbSelinum vaginatum clarke grown at two altitudes

Abstract

The absorptivity of the leaves at all the wavelengths decreased whereas the reflectivity and transmissivity increased when an alpine perennial herb, Selinum vaginatum was grown at lower (550 m) elevation. The lower elevation climate modified leaves to absorb comparatively less near-infrared radiation as compared to that under natural habitat. The lower altitude habitat had a positive effect on infinite reflectance and a negative effect on absorption and scattering coefficients of the leaves. Based on the scattering and absorption coefficients for upper and lower leaf surfaces, the ‘sieve’ and ‘detour’ effect factors were estimated. These factors indicate that while ‘sieve-effect’ increases the ‘detour-effect’ decreases when this plant is grown at lower elevation. This explains lower light absorption (PAR) in this plant when grown at lower elevation. For survival under the habitat with high thermal load the leaves of this alpine herb could maintain lower temperature by way of reduced absorption in near-infrared radiation region which probably is accomplished by lower water contents and thickness of leaves at lower elevation.