We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Effects of environmental parameters, leaf physiological properties and leaf water relations on leaf water δ<sup>18</sup>O enrichment in different Eucalyptus species.
- Authors
KAHMEN, ANSGAR; SIMONIN, KEVIN; TU, KEVIN P.; MERCHANT, ANDREW; CALLISTER, ANDREW; SIEGWOLF, ROLF; DAWSON, TODD E.; ARNDT, STEFAN K.
- Abstract
Stable oxygen isotope ratios ( δ18O) have become a valuable tool in the plant and ecosystem sciences. The interpretation of δ18O values in plant material is, however, still complicated owing to the complex interactions among factors that influence leaf water enrichment. This study investigated the interplay among environmental parameters, leaf physiological properties and leaf water relations as drivers of the isotopic enrichment of leaf water across 17 Eucalyptus species growing in a common garden. We observed large differences in maximum daily leaf water δ18O across the 17 species. By fitting different leaf water models to these empirical data, we determined that differences in leaf water δ18O across species are largely explained by variation in the Péclet effect across species. Our analyses also revealed that species-specific differences in transpiration do not explain the observed differences in δ18O while the unconstrained fitting parameter ‘effective path length’ ( L) was highly correlated with δ18O. None of the leaf morphological or leaf water related parameters we quantified in this study correlated with the L values we determined even though L was typically interpreted as a leaf morphological/anatomical property. A sensitivity analysis supported the importance of L for explaining the variability in leaf water δ18O across different species. Our investigation highlighted the importance of future studies to quantify the leaf properties that influence L. Obtaining such information will significantly improve our understanding of what ultimately determines the δ18O values of leaf water across different plant species.
- Subjects
PHOTOSYNTHETIC oxygen evolution; PLANT classification; PLANT species; PLANT photomorphogenesis; PLANT physiology; RESPIRATION in plants; PLANT mechanics; PLANT development; DEVELOPMENTAL biology
- Publication
Plant, Cell & Environment, 2008, Vol 31, Issue 6, p738
- ISSN
0140-7791
- Publication type
Article
- DOI
10.1111/j.1365-3040.2008.01784.x