Environmental and genetic variation in an asexual plant

IF 1.9 4区生物学 Q2 MARINE & FRESHWATER BIOLOGY

Aquatic Botany Pub Date : 2023-09-01 DOI:10.1016/j.aquabot.2023.103675

Mark Davidson Jewell , Graham Bell

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引用次数: 0

Abstract

Species may respond to variation in environmental conditions by modifying their phenotype to match local levels of resource availability. This phenotypic response can be driven by plastic physiological change, or by adaptive genetic change. Here we use Lemna minor (lesser duckweed), a small aquatic macrophyte that is increasingly used as a model in ecology and evolution, to investigate the source and maintenance of phenotypic variation in natural environments. We found substantial phenotypic variation in L. minor in the field, with its frond area and root length changing predictably over natural environmental gradients of resource availability. Separating environmental and genetic variation in these traits in a common garden, we attribute the majority of phenotypic variation we observed in the field to phenotypic plasticity. Despite this, there was substantial within-site genetic variation. We found evidence of strong purifying selection in the field, that is necessarily balanced by mutation and migration. Using measures of environmental and genetic variation in phenotype and fitness, we estimate the rates of dispersal and evolution of fitness necessary to sustain the observed levels of genetic variation.

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无性植物的环境和遗传变异

物种可能通过改变其表型以适应当地资源可用性水平来应对环境条件的变化。这种表型反应可以由可塑性生理变化或适应性遗传变化驱动。在这里，我们使用小浮萍，一种小型水生大型植物，越来越多地被用作生态学和进化的模型，来研究自然环境中表型变异的来源和维持。结果表明，田间小草的叶面积和根长随资源可利用性的自然环境梯度呈可预测的变化。将这些性状的环境和遗传变异分离开来，我们将田间观察到的大部分表型变异归因于表型可塑性。尽管如此，位点内存在大量的遗传变异。我们在田间发现了强烈的净化选择的证据，这必然是通过突变和迁移来平衡的。利用表型和适应度的环境和遗传变异测量，我们估计了维持所观察到的遗传变异水平所需的扩散和进化速率。

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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来源期刊

Aquatic Botany 生物-海洋与淡水生物学

CiteScore

3.80

自引率

5.60%

发文量

审稿时长

6 months

期刊介绍： Aquatic Botany offers a platform for papers relevant to a broad international readership on fundamental and applied aspects of marine and freshwater macroscopic plants in a context of ecology or environmental biology. This includes molecular, biochemical and physiological aspects of macroscopic aquatic plants as well as the classification, structure, function, dynamics and ecological interactions in plant-dominated aquatic communities and ecosystems. It is an outlet for papers dealing with research on the consequences of disturbance and stressors (e.g. environmental fluctuations and climate change, pollution, grazing and pathogens), use and management of aquatic plants (plant production and decomposition, commercial harvest, plant control) and the conservation of aquatic plant communities (breeding, transplantation and restoration). Specialized publications on certain rare taxa or papers on aquatic macroscopic plants from under-represented regions in the world can also find their place, subject to editor evaluation. Studies on fungi or microalgae will remain outside the scope of Aquatic Botany.