Abstract
Tree age has an important effect on the form and function of fine roots. Previous studies have focused on the variations in root morphological and chemical traits among tree ages, while less attention has been given to the physiological traits, impeding a full understanding of the relationship between root resource acquisition strategy and tree age. Here, we measured root morphological (diameter, specific root length, specific root area and tissue density), chemical (nitrogen concentration) and physiological (respiration and exudation rate) traits of young, middle-aged and mature trees of Fraxinus mandshurica in a temperate secondary forest in northeastern China. Our overall aim was to determine how root traits and related resource acquisition strategy change with tree age. The results showed that from young to mature trees, root diameter gradually increased, but specific root length, specific root area, root nitrogen concentration, respiration and exudation rates all decreased, and the significant differences were mainly found between young and mature trees. Pearson’s correlation analysis revealed that the relationships of root respiration and exudation rates to root morphological and chemical traits depended on tree age and the specific traits examined, but these correlations were all significant except for root tissue density when the data were pooled across all tree age classes. Principal component analysis (PCA) showed that the conservative traits represented by root diameter, and the acquisitive traits such as root respiration and exudation rates and related morphological and chemical traits, occupied two ends of the first axis, respectively, while root tissue density occupied one end of the second axis, partially confirming the conceptual framework of “root economics space”. Standardized major axis (SMA) analysis of root exudation and respiration rates showed that young trees allocated more root carbon flux to the formation of root exudation, compared to middle-aged and mature trees. Our findings suggest that root resource acquisition strategy in F. mandshurica appears to shift from an absorptive to conservative strategy associated with increasing tree age, which may have substantial consequences for individual growth and interspecific competition, as well as belowground carbon allocation in ecosystems.
Highlights
Fine roots in trees are the main organ for absorbing soil resources; their functional traits have profound impacts on individual performance and ecological processes [1,2,3]
specific root length (SRL) and specific root area (SRA) decreased and root tissue density (RTD) remained stable, but root diameter (RD) in F. mandshurica increased with increasing tree age (Figure 1)
RD as a conservative trait was much greater in middle-aged and mature trees. These results suggest that the change in root resource acquisition strategy from acquisitive to conservative was associated with increasing tree age in F. mandshurica, confirming that the “root economics spectrum” shown among species [48] still exists within a species that is induced by individual development
Summary
Fine roots (diameter ≤ 2 mm) in trees are the main organ for absorbing soil resources; their functional traits have profound impacts on individual performance and ecological processes [1,2,3]. According to the variations in fine root traits, the strategy of root resource acquisition can be subdivided into two categories: acquisitive (or competitive) and conservative [4,5] The former usually characterizes thinner root diameter (RD), larger specific root length (SRL), specific root area (SRA), respiration rate (RR) and exudation rate (RE), which may be beneficial for exploiting soil resources efficiently [4,5,6]. By contrast, the latter exhibits thicker RD and smaller SRL, RR and RE. Previous studies mostly focused on the variations in root morphology and chemistry among the stand or tree ages [9]; less is known about root physiological traits, such as root respiration and exudation [4]
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