Temporally varying disruptive selection in the medium ground finch (Geospiza fortis)

Marc-Olivier Beausoleil, L. Frishkoff, L. M’Gonigle, Joost A. M. Raeymaekers, Sarah A. Knutie, Luis F De León, Sarah K. Huber, Jaime A. Chaves, Dale H. Clayton, J. A. Koop, J. Podos, D. Sharpe, Andrew P. Hendry, R. Barrett
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引用次数: 6

Abstract

Disruptive natural selection within populations exploiting different resources is considered to be a major driver of adaptive radiation and the production of biodiversity. Fitness functions, which describe the relationships between trait variation and fitness, can help to illuminate how this disruptive selection leads to population differentiation. However, a single fitness function represents only a particular selection regime over a single specified time period (often a single season or a year), and therefore might not capture longer-term dynamics. Here, we build a series of annual fitness functions that quantify the relationships between phenotype and apparent survival. These functions are based on a 9-year mark–recapture dataset of over 600 medium ground finches (Geospiza fortis) within a population bimodal for beak size. We then relate changes in the shape of these functions to climate variables. We find that disruptive selection between small and large beak morphotypes, as reported previously for 2 years, is present throughout the study period, but that the intensity of this selection varies in association with the harshness of environment. In particular, we find that disruptive selection was strongest when precipitation was high during the dry season of the previous year. Our results shed light on climatic factors associated with disruptive selection in Darwin's finches, and highlight the role of temporally varying fitness functions in modulating the extent of population differentiation.
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中等地雀破坏性选择的时变研究
利用不同资源的种群内部破坏性自然选择被认为是适应性辐射和生物多样性产生的主要驱动力。适应度函数描述了性状变异和适应度之间的关系,可以帮助阐明这种破坏性选择是如何导致种群分化的。然而,单个适应度函数仅表示特定时间段(通常是一个季节或一年)内的特定选择制度,因此可能无法捕获长期动态。在这里,我们建立了一系列年度适应度函数,量化表型和表观存活率之间的关系。这些功能是基于9年的标记再捕获数据集,其中600多只中等地雀(Geospiza fortis)在一个种群的喙大小双峰中。然后,我们将这些函数的形状变化与气候变量联系起来。我们发现,小喙和大喙形态之间的破坏性选择,如之前2年的报道,在整个研究期间都存在,但这种选择的强度随环境的严酷程度而变化。特别是在前一年的旱季降水较高时,破坏性选择最为强烈。我们的研究结果揭示了与达尔文雀破坏性选择相关的气候因素,并强调了时间变化的适应度函数在调节种群分化程度中的作用。
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