Effect of Water Regime on Carbon Isotope Composition of Lichens

Adiva Shomer-Ilan¹, Arie Nissenbaum², Margalith Galun¹ and Yoav Waisel¹

Department of Botany, The George S. Wise Faculty of Life Sciences Tel Aviv University, Tel Aviv, Israel, Geoscience Group, Isotope Department, Weizmann Institute of Science, Rehovot, Israel

${delta}$ ¹³C values of the lichens Ramalina duriaei and Teloschistesvillosus collected in their natural habitat were repeatedlymeasured during 2 years. Results show variations in the stablecarbon isotope ratios (¹³C/¹²C). Such variations are correlatedto the seasonal rainfall, i.e. low values of ${delta}$ ¹³C of the lichensduring the winter and high values of ${delta}$ ¹³C during the dry summer.Relatively low ${delta}$ ¹³C values were obtained also in laboratory experimentswith lichens grown under controlled humid conditions and inlichens collected from humid habitats.

The variations in carbon isotopes were associated with quantitativemetabolic changes. Under humid conditions an increase was obtainedin the total amount of the extracted water-soluble fractionof the plant tissues as well as in the relative content of solublecarbohydrates.

Analysis of the possible factors which may cause such variationsindicates that the quantity of precipitation and the exposuretime to high humidity were the main environmental factors causingseasonal variations in the ${delta}$ ¹³C values of the lichens. Such variationsare dependent mainly on enzymic reactions and are probably lessinfluenced by purely physicochemical processes. In view of thedata presented here the balance between carboxylation and decarboxylationreactions seems to be the major factor for the observed seasonaldifferences. Winter accumulation of ¹²C enriched componentscauses an over-all decrease in ${delta}$ ¹³C. During the summer, thosestorage materials are respired with concomitant increase inthe ${delta}$ ¹³C of the residual plant material.

¹ Tel Aviv University.

² Weizmann Institute of Science.