Comparison of leaf gas exchange and stable isotope signature of water‐soluble compounds along canopy gradients of co‐occurring Douglas‐fir and European beech

ABSTRACT Combined δ 13 C and δ 18 O analyses of water‐soluble leaf and twig phloem material were used to determine intrinsic water‐use efficiency (iWUE) and variability of stomatal conductance at different crown positions in adult European beech ( Fagus sylvatica ) and Douglas‐fir ( Pseudotsuga menziesii ) trees. Simultaneous gas exchange measurements allowed evaluation of the differences in calculating iWUE from leaf or phloem water‐soluble compounds, and comparison with a semi‐quantitative dual isotope model to infer variability of net photosynthesis ( A n ) between the investigated crown positions. Estimates of iWUE from δ 13 C of leaf water‐soluble organic matter (WSOM) outperformed the estimates from phloem compounds. In the beech crown, δ 13 C of leaf WSOM coincided clearly with gas exchange measurements. The relationship was not as reliable in the Douglas‐fir. The differences in δ 18 O between leaf and phloem material were found to correlate with stomatal conductance. The semi‐quantitative model approach was applicable for comparisons of daily average A n between different crown positions and trees. Intracanopy gradients were more pronounced in the beech than in the Douglas‐fir, which reached higher values of iWUE at the respective positions, particularly under dry air conditions.