Mazzoleni S, Dickmann D I
Department of Forestry, Michigan State University, East Lansing, MI 48824-1222, USA.
Tree Physiol. 1988 Mar;4(1):61-70. doi: 10.1093/treephys/4.1.61.
Hardwood cuttings of Populus clones Tristis #1 and Eugenei were grown in pots in a controlled environment chamber to observe early patterns of growth and water relations in response to changing conditions of water stress. Height and dry weight growth, dry matter partitioning, leaf area production, stomatal conductance and leaf water potential were measured periodically during the 73-day experiment. The two clones reacted in a similar way to an initial period of stress, showing reduced growth, stomatal conductance and leaf water potential. However, when stress was interrupted by ample watering and then reimposed, substantial differences between the clones were evident. Growth of Eugenei fully recovered after stress was relieved, especially leaf growth, but when water deficiency was reimposed, the plants wilted and some leaves died. Tristis #1, in contrast, showed a greater adaptation to changing stress conditions; it grew less than Eugenei after drought was interrupted, but showed little adverse effect of renewed water deficits. These responses were partially explained by the higher root/leaf weight ratios of Tristis #1 which enabled it to maintain a more favorable plant water status than Eugenei.
将胡杨无性系Tristis #1和Eugenei的硬枝插条种植在可控环境室的花盆中,以观察其在水分胁迫条件变化时的早期生长模式和水分关系。在为期73天的实验中,定期测量株高、干重增长、干物质分配、叶面积生成、气孔导度和叶片水势。这两个无性系对初始胁迫期的反应相似,表现为生长、气孔导度和叶片水势降低。然而,当胁迫因充分浇水而中断,然后再次施加时,两个无性系之间的显著差异就显现出来了。Eugenei的生长在胁迫解除后完全恢复,尤其是叶片生长,但当再次缺水时,植株枯萎,一些叶片死亡。相比之下,Tristis #1对变化的胁迫条件表现出更强的适应性;干旱中断后,它的生长比Eugenei慢,但再次缺水时几乎没有不良影响。Tristis #1较高的根/叶重量比部分解释了这些反应,这使其能够保持比Eugenei更有利的植物水分状况。