The Poisoned Chalice of Evolution in Water: Physiological Novelty Versus Morphological Simplification in Marsileaceae

Pub Date : 2022-11-07 DOI:10.1640/0002-8444-112.4.320

Anna S. Westbrook, S. McAdam

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引用次数: 1

Abstract

Abstract. The Marsileaceae is a small family of semi-aquatic ferns displaying numerous traits commonly observed in angiosperms, including heterospory, sophisticated hydraulic architecture, and high rates of atmospheric gas exchange. Despite these similar traits, Marsileaceae is comparatively ecologically limited. Most species are found in Marsilea which is sister to Regnellidium and Pilularia, together these two genera include only seven species. Here we studied the anatomy and physiology of Marsileaceae to better understand the potential constraints on ecological and species diversity in this family. We focused on epidermal anatomy and stomatal responses to changes in light and water availability, which are unique amongst ferns. We found two evolutionary strategies in Marsileaceae, one of morphological simplification, physiological inflexibility, and aquatic specialization in Pilularia; which contrasts with a strategy of maximizing photosynthetic carbon gain at the expense of high rates of water loss in Marsilea and Regnellidium. We conclude that aquatic environments provide evolutionary opportunities for physiological innovation with regard to stomatal function, as well as selective pressures that drive the canalized evolution of highly specialized aquatic forms.

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水中进化的毒杯:马氏科植物的生理新颖性与形态简化性

摘要Marsileaceae是半水生蕨类植物的一个小科，具有在被子植物中常见的许多特征，包括异孢子、复杂的水力结构和高的大气气体交换率。尽管有这些相似的特征，但马氏科在生态上相对有限。大多数种类是在Marsilea中发现的，它是Regnellidium和Pilularia的姐妹，这两个属加起来只有7种。为了更好地了解该科的生态和物种多样性的潜在制约因素，我们对Marsileaceae的解剖学和生理学进行了研究。我们关注的是表皮解剖和气孔对光和水分可用性变化的反应，这在蕨类植物中是独一无二的。结果表明，毛蕊属植物有两种进化策略:形态简化、生理僵化和水生特化;这与Marsilea和Regnellidium以高失水率为代价最大化光合作用碳增益的策略形成对比。我们得出的结论是，水生环境为气孔功能的生理创新提供了进化机会，以及驱动高度专业化水生形态渠化进化的选择压力。

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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