Seasonal variability of dry matter content and its relationship with shoot growth and nonstructural carbohydrates

TitleSeasonal variability of dry matter content and its relationship with shoot growth and nonstructural carbohydrates
Publication TypeJournal Article
Year of Publication2008
AuthorsPalacio, S., Milla R., Albuixech J., Pérez-Rontomé C., Camarero J. Julio, Maestro M., & Montserrat-Martí G.
JournalNew Phytologist
Volume180
Issue1
Pagination133 - 142
Date Published2008///
KeywordsCarbohydrate Metabolism, functional classifications, leaf dry matter content (LDMC), leaf traits, leaf water status, Mediterranean, Phenology, Plant Development, Plant Leaves, Plant Leaves: growth & development, Plant Leaves: metabolism, Plant Shoots, Plant Shoots: growth & development, Plant Shoots: metabolism, Plant Stems, Plant Stems: growth & development, Plant Stems: metabolism, Plants, Plants: metabolism, Seasons, shoot growth, Species Specificity
Abstract

* • This study assesses how different phases of shoot growth underlie seasonal change in leaf and stem dry matter content (LDMC and SDMC, respectively) of 12 woody Mediterranean species. The relationship between LDMC and nonstructural carbohydrate (NSC) concentrations is also explored and the seasonal vs interspecies variability of LDMC compared. * • LDMC, SDMC and shoot elongation rate (SER) were measured on a monthly basis for a minimum of 12 months. Bud growth rate (BGR) and NSC concentrations were also assessed in several of the study species. * • LDMC and SDMC decreased during shoot elongation in spring and increased in summer, showing a significant negative correlation with SER, but were unrelated to BGR. Half of the species analysed showed a positive relationship between LDMC and NSC. Seasonal fluctuations of LDMC within species were higher than interspecies differences, and species ranking was significantly affected by the month of sampling, except during winter months. * • Seasonal changes in LDMC and SDMC are mainly related to shoot elongation phenology, and NSC sink–source relationships between old and growing organs can explain this relationship in some species. Owing to the high seasonal variability in LDMC, it is recommended that samples for comparative purposes should be collected as close to the winter as possible.

URLhttp://www.ncbi.nlm.nih.gov/pubmed/18643937http://dx.doi.org/10.1111/j.1469-8137.2008.02569.x