Adaptive Responses to Progressive Drought Stress in Two Populus cathayana Populations

稿件作者:肖向文
通讯作者:肖向文
刊物名称:SILVA FENNICA
发表年份:2008
卷:42
期:5
页码:705-719
影响因子:0.918
文章摘要:
The young, vegetatively propagated cuttings of Populus cathayana Rehder were exposed to a
progressive drought stress for 12 weeks in a greenhouse to characterize the physiological and
biochemical basis of drought adaptation in woody plants. Two contrasting populations were
employed in our study, which were from the wet and dry climate regions in western China,
respectively. The results showed that the adaptive responses of P. cathayana to drought were
affected by drought intensity and poplar genotype (population). The progressive drought stress
significantly inhibited plant growth, increased carotenoid contents and, at the same time,
accumulated soluble sugars and free proline in the plants of both populations tested. On the
other hand, the gradually increasing drought also induced antioxidative systems including
the increase of the activities of superoxide dismutase (SOD) and guaiacol peroxidase (POD).
Moreover, there were different responses to progressive drought stress between the two contrasting
populations. Compared with the wet climate population, the dry climate population had lower shoot height and growth rate, higher free proline content, and more efficient photoprotective system (such as higher carotenoid content and Car/Chl) and antioxidant system(such as higher POD activity), as a result of drought stress. These results suggest that the dry climate population possesses better drought tolerance than the wet climate population.The differences in drought tolerance may be closely related with efficient photoprotective system, accumulation of the osmoprotectant proline as well as the increased capacity of the antioxidative system to scavenge reactive oxygen species, and the consequent suppressed level of lipid peroxidation under drought conditions.
全文链接: