通过触碰叶尖来探测植物邻居,这先于光敏色素信号。
Plant neighbor detection through touching leaf tips precedes phytochrome signals.
机构信息
Plant Ecophysiology, Institute of Environmental Biology, Utrecht University, 3584 CH Utrecht, The Netherlands.
出版信息
Proc Natl Acad Sci U S A. 2012 Sep 4;109(36):14705-10. doi: 10.1073/pnas.1205437109. Epub 2012 Aug 20.
Abstract
Plants in dense vegetation compete for resources, including light, and optimize their growth based on neighbor detection cues. The best studied of such behaviors is the shade-avoidance syndrome that positions leaves in optimally lit zones of a vegetation. Although proximate vegetation is known to be sensed through a reduced ratio between red and far-red light, we show here through computational modeling and manipulative experiments that leaves of the rosette species Arabidopsis thaliana first need to move upward to generate sufficient light reflection potential for subsequent occurrence and perception of a reduced red to far-red ratio. This early hyponastic leaf growth response is not induced by known neighbor detection cues under both climate chamber and natural sunlight conditions, and we identify a unique way for plants to detect future competitors through touching of leaf tips. This signal occurs before light signals and appears to be the earliest means of above-ground plant-plant signaling in horizontally growing rosette plants.
摘要
密集植被中的植物会竞争资源,包括光,并且根据邻居检测线索来优化生长。这种行为中研究得最好的是避荫综合征,它使叶子处于植被中最佳光照区域。尽管已经知道植物通过减少红光与远红光的比值来感知邻近的植被,但我们通过计算建模和操作实验表明,拟南芥这种莲座叶物种的叶子首先需要向上移动,以产生足够的光反射潜力,以便随后发生并感知到减少的红光与远红光比值。在气候室和自然光条件下,这种早期的下弯生长反应都不会被已知的邻居检测线索所诱导,我们确定了一种植物通过触须尖端来探测未来竞争者的独特方式。该信号先于光信号出现,似乎是水平生长的莲座叶植物进行地上植物间信号传递的最早方式。
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