Junzhou Liu, Marc Carriquí, Dongliang Xiong, Shaozhong Kang
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引用次数: 0
摘要
木质部的可塑性及其相关的水力特性在植物适应环境变化中起着至关重要的作用,其中血管直径(Dv)是功能最突出的性状。虽然外部环境因素对木质部形成和Dv的影响还不完全清楚,但已知内源激素吲哚-3-乙酸(IAA)和脱落酸(ABA)在胁迫条件下发挥着重要的信号作用。本研究探讨了这些激素在各种环境变化下如何影响 Dv。实验对玉米植株进行了干旱、土壤盐渍化和高二氧化碳浓度处理。我们发现,干旱和土壤盐分会显著降低同一茎节间的Dv,而二氧化碳浓度升高则能缓解Dv的降低。值得注意的是,在不同的处理中,Dv 与 IAA 和 ABA 的含量呈明显的负相关。此外,在水分充足和受胁迫的植株上叶面适当施用 IAA 或 ABA 会导致 Dv 下降,而施用相应的抑制剂则会导致 Dv 上升。这一发现强调了Dv与IAA和ABA水平之间的因果关系,为操纵木质部血管大小提供了一种可行的方法。
Influence of IAA and ABA on maize stem vessel diameter and stress resistance in variable environments.
The plasticity of the xylem and its associated hydraulic properties play crucial roles in plant acclimation to environmental changes, with vessel diameter (Dv) being the most functionally prominent trait. While the effects of external environmental factors on xylem formation and Dv are not fully understood, the endogenous hormones indole-3-acetic acid (IAA) and abscisic acid (ABA) are known to play significant signalling roles under stress conditions. This study investigates how these hormones impact Dv under various environmental changes. Experiments were conducted in maize plants subjected to drought, soil salinity, and high CO2 concentration treatments. We found that drought and soil salinity significantly reduced Dv at the same stem internode, while an elevated CO2 concentration can mitigate this decrease in Dv. Remarkably, significant negative correlations were observed between Dv and the contents of IAA and ABA when considering the different treatments. Moreover, appropriate foliar application of either IAA or ABA on well-watered and stressed plants led to a decrease in Dv, while the application of corresponding inhibitors resulted in an increase in Dv. This finding underscores the causal relationship between Dv and the levels of both IAA and ABA, offering a promising approach to manipulating xylem vessel size.
期刊介绍:
Physiologia Plantarum is an international journal committed to publishing the best full-length original research papers that advance our understanding of primary mechanisms of plant development, growth and productivity as well as plant interactions with the biotic and abiotic environment. All organisational levels of experimental plant biology – from molecular and cell biology, biochemistry and biophysics to ecophysiology and global change biology – fall within the scope of the journal. The content is distributed between 5 main subject areas supervised by Subject Editors specialised in the respective domain: (1) biochemistry and metabolism, (2) ecophysiology, stress and adaptation, (3) uptake, transport and assimilation, (4) development, growth and differentiation, (5) photobiology and photosynthesis.
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