Carbon isotope composition of current-year shoots from Fagus sylvatica in relation to growth, respiration and use of reserves
2003
Damesin, C. | Lelarge, C.
Temporal variations in the stable carbon isotope composition (delta ¹³C) of leaves and current-year stems were examined in beech trees over one year. The delta¹³C of both tissues were equal in the bud stage and started to diverge during growth, with values decreasing by 2.5 and 4.5 ppt for stems and leaves, respectively. The dynamics of the delta¹³C and content of non-structural sugars were also assessed. The beginning of the growth period was characterized by a decrease in starch content and high starch delta¹³C values. Later in the season, the delta¹³C of leaf soluble sugars progressively decreased from the end of May and the delta¹³C of stem sucrose was at least 1.5 ppt higher than that of leaves. The delta¹³C of CO₂ respired by stem tissue increased during stem growth and exhibited large seasonal variations (from -22.1 to 26.3 ppt). These values generally fell between those of starch and total organic matter. The results of the study showed that the delta¹³C of stems is altered by two apparent fractionation steps: one during sugar transfer from leaves to stems and one during stem respiration. These results may have implications for analysis of isotopic signals in tree rings and forest ecosystems.
Afficher plus [+] Moins [-]Mots clés AGROVOC
Informations bibliographiques
Cette notice bibliographique a été fournie par National Agricultural Library
Découvrez la collection de ce fournisseur de données dans AGRIS