Xing Linya, Quan Jiaxin, Zhang Shuqi, Liu Xiao, Bai Hua, Yue Ming
Key Laboratory of Resource Biology and Biotechnology in Western China, Ministry of Education, Northwest University, Xi'an, China.
Xi'an Botanical Garden of Shaanxi Province, Institute of Botany of Shaanxi Province, Xi'an, China.
Front Plant Sci. 2024 May 14;15:1358924. doi: 10.3389/fpls.2024.1358924. eCollection 2024.
Touch by neighboring plants is a common but overlooked environmental variable for plants, especially in dense vegetation. In addition, shade is inevitable for understory plants. The growth performance of clonal plant to the interaction between thigmomorphogenesis and shade response, and their impact on light adaptability is still unknown.
At the present study, parental ramets of were exposed to two conditions (neighboring touch and shade), and their offspring ramets were in ambient or shaded environment. The phenotype and growth of parental and offspring ramets were analyzed.
The results showed that neighboring touch of parental ramets regulated the performance of offspring ramets, while the effect depended on the light environment. The parental neighboring touch occurring in ambient environment suppressed the expansion of leaf organ, showed as a shorter petiole and smaller leaf area. Moreover, exhibited both shade avoidance and shade tolerance characters to shaded environment, such as increased leaf area ratio and leaf mass ratio, longer specific petiole length and specific stolon length. It was notable that these characters of shade response could be promoted by parental neighboring touch to some extent. Additionally, parental light environment plays an important role in offspring growth, parent with ambient light always had well-grown offspring whatever the light condition of offspring, but the growth of offspring whose parent in shaded environment was inhibited. Finally, for the offspring with shaded environment, the touch between parental ramets in shade environment showed a disadvantage on their growth, but the influence of the touch between parental ramets in ambient environment was slight.
Overall, the interaction of parental neighboring touch and shade environment complicate the growth of understory plants, the performance of plants is the integrated effect of both. These findings are conducive to an in-depth understanding of the environmental adaptation of plants.
相邻植物的触碰是植物常见但被忽视的环境变量,在茂密植被中尤为如此。此外,林下植物不可避免地会受到遮荫影响。克隆植物对触变形态发生和遮荫反应之间相互作用的生长表现及其对光适应性的影响尚不清楚。
在本研究中,将[植物名称]的亲本分株置于两种条件下(相邻触碰和遮荫),其后代分株处于环境光或遮荫环境中。分析亲本分株和后代分株的表型和生长情况。
结果表明,亲本分株的相邻触碰会调节后代分株的表现,而这种影响取决于光照环境。在环境光环境中发生的亲本分株相邻触碰会抑制叶器官的扩展,表现为叶柄较短和叶面积较小。此外,[植物名称]对遮荫环境表现出避荫和耐荫特性,如叶面积比和叶质量比增加、比叶柄长度和比匍匐茎长度变长。值得注意的是,这些遮荫反应特性在一定程度上可由亲本分株相邻触碰促进。此外,亲本光照环境对后代生长起着重要作用,无论后代光照条件如何,处于环境光下的亲本总是有生长良好的后代,但亲本处于遮荫环境中的后代生长受到抑制。最后,对于处于遮荫环境的后代,遮荫环境中亲本分株之间的触碰对其生长不利,但环境光环境中亲本分株之间触碰的影响较小。
总体而言,亲本分株相邻触碰与遮荫环境相互作用使林下植物的生长变得复杂,植物的表现是两者的综合效应。这些发现有助于深入了解植物的环境适应性。
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