Journal
TREES-STRUCTURE AND FUNCTION
Volume 25, Issue 2, Pages 301-310Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s00468-010-0506-x
Keywords
Leaf traits; Carbon use efficiency; Greenhouse; Functional groups; Global
Categories
Funding
- National Science Foundation of China [30970281]
- Research Fund for the Doctoral Program of Higher Education [J20060157]
- Y.C. Tang Disciplinary Development Fund
- Natural Science and Engineering Research Council of Canada (NSERC)
- Canada Research Chair program
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Thirty-nine plant species including woody and herbaceous species grown in wet and warm subtropical regions were collected and classified into woody and herb functional groups. Net photosynthesis (P (n)) and dark respiration (R) were measured at constant 25A degrees C under neither water nor nitrogen limited condition to assess whether the R/P (n) ratio was constant across different species and functional groups. Our results suggest that P (n) and R were highly skewed among the 39 species, ranging from 5 to 25 and 1 to 5 mu mol m(-2) s(-1), respectively, while R/P (n) ratio was normally distributed at 0.1-0.3. Mean R/P (n) ratio was 0.19 for 39 species, and 0.20 and 0.18 for woody and herbs, respectively, showing no significant difference between the two groups. Leaf P (n), R, and R/P (n) ratios exhibited large variations across 39 species while R/P (n) ratio in our subtropical species was considerably higher than other studies. Our results also indicated that the difference within each group was even larger than between the two groups. Based on the pooled data set at global scale, and considering R/P (n) ratios performance under a combination of wet and warm conditions, the mean R/P (n) ratio of 0.19 fell between the R/P (n) ratio of 0.23 under dry and warm conditions and the R/P (n) ratio of 0.07 under cold regardless of the precipitation conditions. The comparison with published data sets indicated significant effects of long-term precipitation and temperature on leaf R/P (n) ratios at global scale, and we found that the plants adapting to warm and wet climates including our thirty-nine species tend to have a lower R/P (n) ratio.
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