在一个自然种群中，气孔模式的改变伴随着一种毛状体二态性。

Altered stomatal patterning accompanies a trichome dimorphism in a natural population of .

作者信息

Simon Noriane M L, Sugisaka Jiro, Honjo Mie N, Tunstad Sverre Aarseth, Tunna George, Kudoh Hiroshi, Dodd Antony N

机构信息

School of Biological Sciences University of Bristol Bristol UK.

Center for Ecological Research Kyoto University Otsu Shiga Japan.

出版信息

Plant Direct. 2020 Sep 3;4(9):e00262. doi: 10.1002/pld3.262. eCollection 2020 Sep.

DOI:10.1002/pld3.262

PMID:32995701

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7507053/

Abstract

Trichomes are large epidermal cells on the surface of leaves that are thought to deter herbivores, yet the presence of trichomes can also negatively impact plant growth and reproduction. Stomatal guard cells and trichomes have shared developmental origins, and experimental manipulation of trichome formation can lead to changes in stomatal density. The influence of trichome formation upon stomatal development in natural populations of plants is currently unknown. Here, we show that a natural population of that includes hairy (trichome-bearing) and glabrous (no trichomes) morphs has differences in stomatal density that are associated with this trichome dimorphism. We found that glabrous morphs had significantly greater stomatal density and stomatal index than hairy morphs. One interpretation is that this arises from a trade-off between the proportions of cells that have trichome and guard cell fates during leaf development. The differences in stomatal density between the two morphs might have impacts upon environmental adaptation, in addition to herbivory deterrence caused by trichome development.

摘要

表皮毛是叶片表面的大型表皮细胞，被认为可以阻止食草动物，然而表皮毛的存在也会对植物的生长和繁殖产生负面影响。气孔保卫细胞和表皮毛有着共同的发育起源，对表皮毛形成的实验操作会导致气孔密度发生变化。目前尚不清楚表皮毛形成对植物自然种群中气孔发育的影响。在这里，我们表明，一个包含有毛（有表皮毛）和无毛（无表皮毛）形态的自然种群在气孔密度上存在差异，且这种差异与这种表皮毛二态性有关。我们发现无毛形态的气孔密度和气孔指数显著高于有毛形态。一种解释是，这是由于在叶片发育过程中具有表皮毛和保卫细胞命运的细胞比例之间的权衡所致。除了表皮毛发育导致的食草动物威慑作用外，这两种形态之间气孔密度的差异可能还会对环境适应性产生影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3b2b/7507053/cba1e4a70fae/PLD3-4-e00262-g001.jpg

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在一个自然种群中，气孔模式的改变伴随着一种毛状体二态性。

Altered stomatal patterning accompanies a trichome dimorphism in a natural population of .

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