Structure, function and evolution of stomata from a bryological perspective

Bryophyte diversity and evolution Pub Date : 2017-07-24 DOI:10.11646/BDE.39.1.4

Amelia Merced, K. Renzaglia

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引用次数: 28

Abstract

Stomata are key innovations for the diversification of land plants. They consist of two differentiated epidermal cells or guard cells and a pore between that leads to an internal cavity. Mosses and hornworts are the earliest among extant land plants to have stomata, but unlike those in all other plants, bryophyte stomata are located exclusively on the sporangium of the sporophyte. Liverworts are the only group of plants that are entirely devoid of stomata. Stomata on leaves and stems of tracheophytes are involved in gas exchange and water transport. The function of stomata in bryophytes is highly debated and differs from that in tracheophytes in that they have been implicated in drying and dehiscence of the sporangium. Over the past decade, anatomical, physiological, developmental, and molecular studies have provided new insights on the function of stomata in bryophytes. In this review, we synthesize the contributions of these studies and provide new data on bryophyte stomata. We evaluate the potential role of stomata in moss and hornwort life histories and we identify areas that will provide valuable data in ascertaining the evolutionary history and function of stomata across land plants.

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从苔藓学角度看气孔的结构、功能和演化

气孔是陆地植物多样化的关键创新。它们由两个分化的表皮细胞或保护细胞组成，它们之间有一个通向内腔的孔。苔藓和角叶植物是现存陆地植物中最早有气孔的，但与所有其他植物不同的是，苔藓植物的气孔仅位于孢子体的孢子囊上。苔草是唯一一组完全没有气孔的植物。管生植物叶片和茎上的气孔参与气体交换和水分输送。苔藓植物中气孔的功能备受争议，与管生植物不同的是，气孔与孢子囊的干燥和开裂有关。在过去的十年里，解剖、生理、发育和分子研究为苔藓植物的气孔功能提供了新的见解。在这篇综述中，我们综合了这些研究的贡献，并提供了苔藓植物气孔的新数据。我们评估了气孔在苔藓和角草生活史中的潜在作用，并确定了将为确定陆地植物气孔的进化史和功能提供有价值数据的区域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bryophyte diversity and evolution

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