Abstract
Here, we tested hypothesized relationships among leaf and fine root traits of grass, forb, legume, and woody plant species of a savannah community. CO2 exchange rates, structural traits, chemistry, and longevity were measured in tissues of 39 species grown in long-term monocultures. Across species, respiration rates of leaves and fine roots exhibited a common regression relationship with tissue nitrogen (N) concentration, although legumes had lower rates at comparable N concentrations. Respiration rates and N concentration declined with increasing longevity of leaves and roots. Species rankings of leaf and fine-root N and longevity were correlated, but not specific leaf area and specific root length. The C3 and C4 grasses had lower N concentrations than forbs and legumes, but higher photosynthesis rates across a similar range of leaf N. Despite contrasting photosynthetic pathways and N2-fixing ability among these species, concordance in above- and below-ground traits was evident in comparable rankings in leaf and root longevity, N and respiration rates, which is evidence of a common leaf and root trait syndrome linking traits to effects on plant and ecosystem processes.
Original language | English |
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Pages (from-to) | 493-508 |
Number of pages | 16 |
Journal | New Phytologist |
Volume | 167 |
Issue number | 2 |
DOIs | |
Publication status | Published - 2005 |
Open Access - Access Right Statement
© New Phytologist (2005)Keywords
- functional groups
- leaf lifespan
- nitrogen-use efficiency
- photosynthesis
- respiration
- root turnover