地中海洋葱草(Asphodelus fisstlosus)成功入侵的生殖特征

IF 1.1 4区 生物学 Q3 PLANT SCIENCES
Oscar Sandino Guerrero-Eloisa, J. Golubov, M. Mandujano, P. L. Valverde
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引用次数: 0

摘要

背景和目的-了解导致外来入侵物种(IAS)入侵潜力的特征为其管理提供了见解。IAS的生殖特性帮助我们了解其入侵潜力的机制,以及向新范围的殖民化。Asphodelus fisstlosus是一种地中海本地物种,通常入侵澳大利亚、东南亚、南非和北美。材料与方法:对奇瓦瓦沙漠两个居群的繁殖物候进行了监测。对访花者及其行为进行了描述,并在对照授粉实验中通过花的形态特征和交配系统对其繁殖系统进行了评价。主要结果-繁殖物候显示全年持续繁殖。花形态显示为兼性自交繁殖系统,但交配系统与自主自交混合。花期1 d,花期11 h。访花昆虫种类多样,包括鞘翅目、膜翅目和鳞翅目,以外来蜜蜂访花频率最高。结论-在入侵范围内,棘球绦虫的生殖特性为进一步入侵提供了生物学潜力。生殖结构的持续产生吸引了许多不同的传粉媒介,而自主自花传粉意味着单个植物具有发展新种群的潜力,这使得控制这种IAS成为一个全球性的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The reproductive traits that contribute to the invasive success of Mediterranean onionweed (Asphodelus fistulosus)
Background and aims – Understanding the traits that lead to the invasion potential of invasive alien species (IAS) provides insight for their management. The reproductive traits of IAS help us understand the mechanisms that allow for their invasive potential, and colonization into new ranges. Asphodelus fistulosus is a native Mediterranean species commonly found invading Australia, South-East Asia, South Africa, and North America. Materials and methods – Two populations of A. fistulosus in the Chihuahuan Desert were monitored for reproductive phenology. Floral visitors and their behaviour were described, and we assessed the breeding system through floral morphological characters and the mating system in controlled pollination experiments. Key results – Reproductive phenology showed continuous reproduction throughout the year. Floral morphology suggested a facultative autogamous breeding system, but the mating system was mixed with autonomous selfing. Flowers lasted one day, with anthesis lasting 11 h. Floral visitors of A. fistulosus consisted of a variety of taxa including species of Coleoptera, Hymenoptera, and Lepidoptera, the exotic Apis mellifera being the most frequent visitor. Conclusions – The reproductive traits of A. fistulosus in the invaded range provide the biological potential for further invasion. The continuous production of reproductive structures attracts many diverse pollinators, and the autonomous self-pollination implies that a single plant has the potential to develop a new population, which makes the control of this IAS a global challenge.
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来源期刊
Plant Ecology and Evolution
Plant Ecology and Evolution PLANT SCIENCES-
CiteScore
2.20
自引率
9.10%
发文量
27
审稿时长
>12 weeks
期刊介绍: Plant Ecology and Evolution is an international peer-reviewed journal devoted to ecology, phylogenetics and systematics of all ‘plant’ groups in the traditional sense (including algae, cyanobacteria, fungi, myxomycetes), also covering related fields. The journal is published by Meise Botanic Garden and the Royal Botanical Society of Belgium.
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