Carbon and nitrogen mobilization in Larix × eurolepis leafy stem cuttings assessed by dual 13C and 15N labeling: relationships with rooting

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Tree Physiology, 20:807–814

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Carbon and nitrogen mobilization in Larix × eurolepis leafy stem cuttings assessed by dual ¹³C and ¹⁵N labeling: relationships with rooting

Virginie Pellicer (1, 2), Jean-Marc Guehl (3), Francois-Alain Daudet (4), Michel Cazet (2), Louis Marie Riviere (1) and Pascale Maillard (3, 5)

1. Station d'Agronomie, INRA Angers, 49071 Beaucouzé, France / 2. Division Ressources Génétiques et Plants Forestiers, Cemagref, 45290 Nogent-sur-Vernisson, France / 3. Unité d'Ecophysiologie Forestière, INRA Nancy, 54280 Champenoux, France / 4. Unité associée PIAF-Bioclimatologie, INRA Clermont-Theix, 63039 Clermont-Ferrand Cedex 02, France / 5. Author to whom correspondence should be addressed (maillard@nancy.inra.fr) / Received May 25, 1999

Summary

Changes in use of both stored and newly synthesized sources of carbon (C) and nitrogen (N) were investigated during rooting of leafy cuttings of Larix × eurolepis A. Henry. We used dual ¹³C and ¹⁵N long-term labeling of reserves of stock plants and followed isotope dilution of the labels in the cuttings to determine the respective proportions of C and N derived from stock plant reserves (Q_C,old, Q_N,old) and from newly synthesized sources (Q_C,new, Q_N,new). We also assessed their partitioning into the growing needles and roots. Because rooting development occurred over several months, destructive harvests were made during three periods (t₀: April 9; t₁: May 15 to June 5; t₂: June 12 to June 26). Total C content (Q_C) of cuttings did not change with time, whereas total N content (Q_N) decreased significantly between t₀ and t₂. In rooted cuttings, unlike unrooted cuttings, total N concentration decreased less markedly in needles and in the lower stem component between t₁ and t₂ than between t₀ and t₂. The lower stem of rooted cuttings contained more Q_N,old than that of unrooted cuttings and showed lower C:N and ¹³C:¹⁵N ratios. The increase in Q_N,new in the lower stem was positively correlated with rooting status. At t₁, new roots appeared and grew mainly at the expense of Q_C,new and Q_N,old. By t₂, root growth was mainly dependent on new assimilates. We conclude that in leafy cuttings the initial amount of N reserves, rather than C reserves, may constitute a limiting factor for rooting.

Keywords: allocation, C:N ratio, isotopic abundance, reserve, vegetative propagation.