Carbon and nitrogen winter storage and remobilisation during seasonal flush growth in two-year-old cork oak (Quercus suber L.) saplings

TitleCarbon and nitrogen winter storage and remobilisation during seasonal flush growth in two-year-old cork oak (Quercus suber L.) saplings
Publication TypeJournal Article
Year of Publication2004
AuthorsCerasoli, S., Maillard P., Scartazza A., Brugnoli E., Chaves M. Manuela, Pereira J. Santos, Erasolia S. C., Aillardc P. M., Cartazzad A. S., Rugnolid E. B., Havesa M. Manuela C., & Ereiraa J. Santos P.
JournalAnn. For. Sci.
Volume61
Issue7
Pagination721 - 729
Date Published2004///
Keywords13C labeling, 15N labeling, carbohydrates, Quercus suber, remobilisation
Abstract

A dual long-term 13C and 15N labeling was used to assess the contribution of winter assimilated carbon (C) and nitrogen (N) for the spring growth flush of two-year-old cork oak plants. Changes in concentrations and partitioning of winter assimilated C and N, total C and N, and total-non-structural carbohydrates were followed from January to August in the various plant parts (first year and second year leaves, stem, branches, coarse and fine roots). No loss of winter C and N was observed with time suggesting that winter assimilates are retained within the plant and contribute to storage. A strong mobilisation of C and N was demonstrated from first year leaves and fine roots during the spring growth flush. Leaves from the second year and, to lesser extent, branches acted as sinks for winter C and N. At the beginning of the new leaf growth, a significant decrease in starch concentration occurred in first year leaves. In August, before leaf fall we observed also a mobilisation from first year to second year leaves, of N assimilated after labeling. We conclude that under these experimental conditions, both winter and current C and N were used for the spring growth flush of the cork oak plants. The foliage grown during the previous year was a source of winter and recently assimilated N and a source of C from recent assimilates for the new growth in the spring.

URLhttp://dx.doi.org/10.1051/forest:2004058http://www.afs-journal.org/articles/forest/abs/2004/07/F4037/F4037.html