Abstract
The carbon isotopic composition of plant tissues is a diagnostic feature of a number of physiological and ecological processes. The most important of which is the type of photosynthesis. In epiphytes, two peaks of δ(13)C values are known to correspond to C3 and CAM photosynthesis and some variants of transitional forms between them. But the diagnosis of δ(13)C may not be limited to the type of photosynthesis. This makes it necessary to study trends in the distribution of δ(13)C in a broader ecological context. In this study, we present trends in the distribution of δ(13)C epiphytes and other structurally dependent plants and their relationship with other isotopic and elemental parameters (δ(15)N, C%, N%, and C/N) and with life forms of epiphytes, taxonomic or vertical groups in crowns (synusia), and the parameters of the trees themselves. In all communities except for the moss forest, δ(13)C in epiphyte leaves was significantly higher (less negative) than in phorophyte leaves. In general, δ(13)C in epiphytes in mountain communities (pine forest and moss forest) was more negative than in other communities due to the absence of succulents with CAM. δ(13)C in the leaves of all epiphytes was negatively related to the percentage of carbon and δ(15)N in the leaves of the phorophyte. When considering the Gaussian distributions of δ(13)C with the method of modeling mixtures, we observe the unimodal, bimodal, and trimodal nature of the distribution.