Hawkmoth授粉促进花粉远距离分散并减少土地利用变化梯度的隔离1

IF 1.1 3区生物学 Q3 PLANT SCIENCES

Annals of the Missouri Botanical Garden Pub Date : 2019-09-16 DOI:10.3417/2019475

Krissa A. Skogen, R. Overson, Evan T Hilpman, J. Fant

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引用次数: 23

摘要

土地利用变化是全球生物多样性丧失的主要驱动因素之一，影响着物种适宜栖息地的排列和分布。种群水平的影响包括增加隔离，减少种群规模，以及互惠和对抗相互作用的变化。然而，物种受影响的程度取决于包括扩散在内的生活史特征。在植物中，如果花粉和/或种子的传播受到干扰，交配动态可能会发生变化，从而对种群的持久性产生负面影响。远距离传播具有缓冲物种免受土地利用变化负面影响的潜力。远距离传播的生物媒介很少被研究，尽管已知特定的分类群会传播很远的距离。在此，我们描述了一种因土地利用变化而经历栖息地破碎化的嗜鞘物种的种群遗传多样性和结构。& W. M.克莱因(牡丹科)。利用12个核微卫星标记和4个质体微卫星标记，研究结果表明，在土地利用变化和生境破碎化梯度较大的情况下，飞蛾的花粉传播促进了高基因流和低种群分化。通过分离花粉和种子传播对基因流的贡献，我们发现大多数遗传参数是由飞蛾促进的长距离花粉传播驱动的，但小而有效的种群规模经历了更高水平的亲缘性和近交。我们讨论了对这种和其他由远距离传粉者传粉的物种的保护工作的考虑。

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Hawkmoth Pollination Facilitates Long-Distance Pollen Dispersal and Reduces Isolation Across a Gradient of Land-Use Change 1

Abstract Land-use change is among the top drivers of global biodiversity loss, which impacts the arrangement and distribution of suitable habitat for species. Population-level effects include increased isolation, decreased population size, and changes to mutualistic and antagonistic interactions. However, the extent to which species are impacted is determined by life history characteristics including dispersal. In plants, mating dynamics can be changed in ways that can negatively impact population persistence if dispersal of pollen and/or seed is disrupted. Long-distance dispersal has the potential to buffer species from the negative impacts of land-use change. Biotic vectors of long-distance dispersal have been less frequently studied, though specific taxa are known to travel great distances. Here, we describe population genetic diversity and structure in a sphingophilous species that is experiencing habitat fragmentation through land-use change, Oenothera harringtonii W. L. Wagner, Stockh. & W. M. Klein (Onagraceae). We use 12 nuclear and four plastid microsatellite markers and show that pollen dispersal by hawkmoths drives high gene flow and low population differentiation despite a range-wide gradient of land-use change and habitat fragmentation. By separating the contributions of pollen and seed dispersal to gene flow, we show that most of the genetic parameters are driven by hawkmoth-facilitated long-distance pollen dispersal, but populations with small, effective population sizes experience higher levels of relatedness and inbreeding. We discuss considerations for conservation efforts for this and other species that are pollinated by long-distance dispersers.

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来源期刊

Annals of the Missouri Botanical Garden 生物-植物科学

CiteScore

3.60

自引率

0.00%

发文量

期刊介绍： The Annals of the Missouri Botanical Garden is a quarterly international journal primarily devoted to systematic botany and evolutionary biology. We encourage submissions of original papers dealing with significant advances in the taxonomy, phylogeny, biogeography, paleobiology, and evolution of plants, and in conservation genetics and biology, restoration ecology, and ethnobiology, using morphological and/or molecular characters, field observations, and/or database information. We also welcome reviews and papers on conceptual issues and new methodologies in systematics. Important floristic works will also be considered. Symposium proceedings discussing a broader range of topical biological subjects are also published, typically once a year. All manuscripts are peer-reviewed by qualified and independent reviewers.