期刊
TREES-STRUCTURE AND FUNCTION
卷 24, 期 2, 页码 285-296出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s00468-009-0398-9
关键词
Climatic adaptation; Ecuador; Stem respiration; Temperature sensitivity of respiration; Tree species richness
类别
资金
- DFG (German Science Foundation) [402, B6]
- Fundacion Cientifica San Francisco (Nature and Culture International)
It is commonly presumed that plant respiratory CO2 release increases with increasing temperature. However, we report on very contrasting stem CO2 release (R (S))-temperature relationships of trees in a species-rich tropical montane forest of southern Ecuador under dry and wet season conditions. Rates of R (S) were low and completely uncoupled from the dial temperature regime during the humid season. In contrast, during the dry season, R (S) was generally higher and temperature sensitivity of R (S) differed greatly in degree and even in the direction of response, indicating that temperature might not be the only determinant of R (S). In order to explain the heterogeneity of R (S), we related R (S) to vapour pressure deficit, wind speed and solar radiation as important abiotic drivers influencing transpiration and photosynthesis. Stepwise multiple regression analyses with these meteorological predictors either were biased by high collinearity of the independent variables or could not enhance the ability to explain the variability of R (S). We assume maintenance respiration to dominate under humid conditions unfavourable for energy acquisition of the tree, thus explaining the pronounced uncoupling of R (S) from atmospheric parameters. In contrast, the drier and hotter climate of the dry season seems to favour R (S) via enhanced assimilatory substrate delivery and stem respiratory activity as well as elevated xylem sap CO2 imports with increased transpiration. In addition, tree individual differences in the temperature responses of R (S) may mirror diverging climatic adaptations of co-existing moist forest tree species which have their distribution centre either at higher or lower elevations.
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