Effect of Water Deficit on Growth and Leaf Gas Exchange of Pepper Plants (Capsicum Annuum L)
The effect of different treatments of soil moisture on leaf gas exchange, growth and several metabolic parameters was investigated in three cuItivars of chilli pepper plants Capsicum annuum L. The study was done in potted plants under protective environment agriculture. The alteration in tissue w...
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| 主要作者: | |
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| 格式: | Thesis |
| 語言: | English English |
| 出版: |
2001
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| 主題: | |
| 在線閱讀: | http://psasir.upm.edu.my/id/eprint/10554/1/FP_2001_12.pdf |
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| 總結: | The effect of different treatments of soil moisture on leaf gas exchange,
growth and several metabolic parameters was investigated in three cuItivars of chilli
pepper plants Capsicum annuum L. The study was done in potted plants under
protective environment agriculture. The alteration in tissue water relations of leaves
at different water deficit regimes was studied by pressure chamber techniques.
Results revealed that the rate of photosynthesis decreased as leaf water status
declined, and was more closely related to leaf water potential. Leaf conductance and
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net photosynthesis were significantly correlated to leaf water potential in severe
water deficit. The close relationship between leaf conductance and net
photosynthesis found at different level of water deficit showed that stomatal
regulation effectively controlled the water balance (low transpiration rates) of the
leaf at the expense of lower rate of photosynthesis. Re-watering stressed plants
brings all leaf gas exchange parameters near to that of control plants. Stomatal
conductance of chili pepper plants is more sensitive to soil drying and start to close before any appreciable reduction in leaf water potential, suggesting that there is
signal coming from the root system trigger stomatal closure.
Exposure to soil drying progressively reduce leaf soluble protein content and
increase the level of accumulated proline. Measuring peroxidase activity level and
xylem sap pH revealed that both parameters increase during soil drying and leaf
expansion rates fall. This suggests that there is a role for both parameters in
controlling leaf expansion rate.
In another experiment, plants were subjected to partial root drying and the
roots in contact with the drying soil were removed. The results revealed that leaf gas
exchange parameters and leaf elongation rates declined, the removal of roots in
contact with drying soil trigger the increment of leaf gas exchange parameters and
leaf growth rates. This suggests that there is a positive signal coming from the root
system controlling shoot processes which could be used in agriculture to minimize
plants water requirements and to regulate growth. |
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