Reflections on the absence of stomata on the gametophyte generation of extant land plants: a focus on poikilohydry

IF 2.3 2区 生物学 Q2 PLANT SCIENCES
Jeffrey G Duckett, Karen S Renzaglia, Silvia Pressel
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引用次数: 0

Abstract

The recent realization that bryophyte sporophytes are homoiohydric enabled the present analysis of morphological features specifically associated with poikilohydry. The only morphological feature absolutely diagnostic of poikilohydry is schizolytic intercellular spaces. In vascular plants these are gas-filled from the outset, but in bryophytes are liquid-filled initially. They remain in this condition in liverwort gametophytes but become gas-filled following stomatal opening in hornworts and mosses. These have fixed apertures and are completely unresponsive to environmental cues. Stomata in Devonian fossils may have had similarly fixed apertures. Unistratose lamellae, characteristic of moss and liverwort leaves and pteridophyte gametophytes, are optimal structures for reversible cell shrinkage and recovery accompanying de- and rehydration. In 1 M sucrose, gametophytic tissues and filmy fern leaves undergo shrinkage, whereas sporophyte cells plasmolyse. Under extreme desiccation, hydroids are the only bryophyte cells to undergo cavitation. Like bryophytes, desiccation-tolerant streptophyte algae undergo reversible cell shrinkages. Mucilage secretion is unimportant in bryophyte desiccation biology and developmental differences rule out homology between the mucilage clefts and stomata in hornworts and Blasiales. Elaborate placental walls in basal liverwort lineages and a stomatal toolkit in the capsule walls of Haplomitrium suggest that liverworts’ ancestors may have had more complex sporophytes than those in extant taxa.
对现存陆生植物配子体生成过程中气孔缺失问题的思考:重点关注诗歌水文学
最近,人们认识到叶绿体孢子体是同水生的,因此能够对与水生形态相关的形态特征进行分析。唯一能绝对诊断出水生现象的形态特征是分裂的细胞间隙。在维管植物中,细胞间隙从一开始就是充满气体的,但在红叶植物中,细胞间隙最初是充满液体的。肝草配子体的细胞间隙保持这种状态,但角草和苔藓的细胞间隙在气孔打开后会变成充满气体。这些气孔孔径固定,对环境线索完全没有反应。泥盆纪化石中的气孔可能也有类似的固定孔径。苔藓和肝草叶片以及翼叶植物配子体所特有的单丝状薄片是细胞在脱水和再水化过程中可逆收缩和恢复的最佳结构。在 1 M 蔗糖中,配子体组织和丝状蕨类叶片会发生收缩,而孢子体细胞则会溶解。在极度干燥的情况下,水螅是唯一会发生空洞化的叶绿体细胞。与红叶植物一样,耐干燥的链格藻也会发生可逆的细胞收缩。粘液分泌在红叶植物的干燥生物学中并不重要,而且发育上的差异也排除了角叉菜和褐藻的粘液裂隙与气孔之间存在同源性的可能性。肝草基系中复杂的胎盘壁和 Haplomitrium 的蒴果壁中的气孔工具包表明,肝草的祖先可能拥有比现生类群更复杂的孢子体。
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来源期刊
CiteScore
5.70
自引率
8.30%
发文量
54
审稿时长
3.5 months
期刊介绍: The Botanical Journal of the Linnean Society publishes original papers on systematic and evolutionary botany and comparative studies of both living and fossil plants. Review papers are also welcomed which integrate fields such as cytology, morphogenesis, palynology and phytochemistry into a taxonomic framework. The Journal will only publish new taxa in exceptional circumstances or as part of larger monographic or phylogenetic revisions.
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