Clusia uvitana Pittíer (Clusiacea) is a tropical hemiepiphyte that has been shown to display a high plasticity in the expression of CAM in response to the environment. When water is available CO2 is taken up mostly during the- day. This study of the water relations and hydraulic architecture has revealed that leaf water potentials, £ ranged from 0-7 to -0.9 MPa and changed very little with time or water availability. The absolute hydraulic conductivity of stem segments (K,) and the specific conductivity (K1) were comparable to many other temperate and tropical species, but the leaf specificity conductivity (K1) was 1/3 to 1/30 that of many other species. So stems supported high leaf areas per unit of hydraulic conductivity. C uvitana was very vulnerable to cavitation, reaching 50 % loss of hydraulic conductivity at stem £=1.3 MPa. The species survives in spite of low K1 and high xylem vulnerability, because the CAM physiology insures low transpiration rates and high ability to evade dehydration.
If you can't find a tool you're looking for, please click the link at the top of the page to "Go to old article view". Alternatively, view our Knowledge Base articles for additional help. Your feedback is important to us, so please let us know if you have comments or ideas for improvement.
- AL & AW
leaf area and sapwood area, respectively (m2)
wod diameter (mm)
pressure potential gradient in xylem
evaporative flux density
hydraulic conductivity of stem segments (kg s−1 m MPa−1)
leaf sepcific conductivity of stem segments (kg s−1 m−1 MPa−1)
- Km & Ki
maximum and initial Kh, respectively
specific conductivity of stem segments (kg s−1 m−1 MPa−1)
percent loss hydraulic conductivity
water potential (MPa)
turgor pressure potential (MPa)
xylem pressure potential (MPa)
osmotic potential (MPa).