Scott A M McAdam, Anju Manandhar, Cade N Kane, Joel A Mercado-Reyes
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引用次数: 0
摘要
植物激素脱落酸(ABA)在被子植物气孔关闭过程中起着重要作用。然而,最近有报道称,一些被子植物物种具有峰值型 ABA 动态,在极端干旱情况下,ABA 水平会下降到受压前的水平。为了验证这一假设,我们在峰值型物种加州脐橙(Umbellularia californica)中进行了瞬时补水实验,在长期干旱的情况下,ABA 水平会下降到应激前的水平,但气孔仍然关闭。我们发现,在极端干旱期间,当 ABA 水平最低时,加州脐橙的气孔仅受叶片水分状况的影响而被动关闭,而在瞬时补水时,气孔会迅速重新开放,达到最大气体交换速率。这与干旱初期的叶片形成鲜明对比,干旱初期叶片的 ABA 水平最高,气孔不会在瞬间补水时重新打开。该物种在干旱过程中从 ABA 驱动的气孔关闭过渡到被动驱动的气孔关闭,是在极低的水势下发生的,高度抗栓塞的木质部起到了促进作用。这些结果对于理解被子植物干旱期间的气孔控制具有重要意义。
Passive stomatal closure under extreme drought in an angiosperm species.
The phytohormone abscisic acid (ABA) plays a major role in closing the stomata of angiosperms. However, recent reports of some angiosperm species having a peaking-type ABA dynamic, in which under extreme drought ABA levels decline to pre-stressed levels, raises the possibility that passive stomatal closure by leaf water status alone can occur in species from this lineage. To test this hypothesis, we conducted instantaneous rehydration experiments in the peaking-type species Umbellularia californica through a long-term drought, in which ABA levels declined to pre-stress levels, yet stomata remain closed. We found that when ABA levels were lowest during extreme drought, stomata reopen rapidly to maximum rates of gas exchange on instantaneous rehydration, suggesting that the stomata of U. californica were passively closed by leaf water status alone. This contrasts with leaves early in drought, in which ABA levels were highest and stomata did not reopen on instantaneous rehydration. The transition from ABA-driven stomatal closure to passively driven stomatal closure as drought progresses in this species occurs at very low water potentials facilitated by highly embolism-resistant xylem. These results have important implications for understanding stomatal control during drought in angiosperms.
期刊介绍:
The Journal of Experimental Botany publishes high-quality primary research and review papers in the plant sciences. These papers cover a range of disciplines from molecular and cellular physiology and biochemistry through whole plant physiology to community physiology.
Full-length primary papers should contribute to our understanding of how plants develop and function, and should provide new insights into biological processes. The journal will not publish purely descriptive papers or papers that report a well-known process in a species in which the process has not been identified previously. Articles should be concise and generally limited to 10 printed pages.
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