群体结构的种内变异是由合作繁殖者在环境介导下的定向扩散引起的。

IF 3.5 1区 环境科学与生态学 Q1 ECOLOGY
Shailee S Shah, Dustin R Rubenstein
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引用次数: 0

摘要

许多合作繁殖的物种生活在结构复杂的群体中--群体规模大、亲缘结构低且多变、多对繁殖。由于这些混合亲缘群体的形成通常是由于除了有限的后代扩散外,还有无亲缘关系的雌雄个体的迁入,因此即使在同一物种或种群中,扩散模式的差异也会导致群体结构的变化。在这里,我们研究了环境介导的扩散模式如何影响复数繁殖的超级椋鸟(Lamprotornis superbus)的群体结构变异,超级椋鸟是一种鸟类合作繁殖者,栖息在时空多变的热带稀树草原环境中,并形成群体规模多变的混合亲缘群体,每个群体有一对以上的繁殖对。利用 4068 个全基因组多态性位点和来自肯尼亚中部近 200 平方公里环境梯度中 22 个群体的精细遥感生态数据,我们发现不仅有证据表明雌雄鸟频繁进行远距离散布(低距离隔离度和弱遗传结构),而且还发现了从低归一化差异植被指数(NDVI)的低质量生境中的小群体向高归一化差异植被指数的高质量生境中的大群体定向散布的情况。此外,我们还发现低质量生境中的群体遗传结构更强,而高质量生境中的群体遗传多样性更高,亲缘关系更低。以前利用同一种群中群体的长期数据进行的研究表明,亲缘关系较低的群体规模更大,繁殖对数更多。因此,在质量较低的栖息地中,为最大限度地提高个体适应性而进行的长距离定向散布会导致较小和较简单的亲属社会群体,而在质量较高的栖息地中,则会导致较大和较复杂的混合亲属群体。这种种群内群体结构的差异,包括社会群体亲属结构的差异,可能会对合作社会形成所依赖的进化机制(即直接与间接的适应益处)的相对重要性产生深远影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intraspecific variation in group structure arises due to environmentally-mediated directional dispersal in a cooperative breeder.

Many cooperatively breeding species live in groups with complex structure-large group sizes, low and variable kin structure, and multiple breeding pairs. Since these mixed-kin groups typically form because of immigration of unrelated individuals of both sexes in addition to limited offspring dispersal, differences in patterns of dispersal can generate variation in group structure, even within the same species or population. Here, we examine how environmentally mediated dispersal patterns influence variation in group structure in the plural breeding superb starling (Lamprotornis superbus), an avian cooperative breeder that inhabits a spatiotemporally variable savanna environment and forms mixed-kin groups with variable group sizes and more than one breeding pair per group. Using 4068 genome-wide polymorphic loci and fine-scale, remotely sensed ecological data from 22 groups sampled across a nearly 200 km2 environmental gradient in central Kenya, we find evidence of not only frequent and long-distance dispersal in both sexes (low isolation-by-distance and weak genetic structure), but also directional dispersal from small groups in lower quality habitat with low normalised difference vegetation index (NDVI) to large groups in higher quality habitat with high NDVI. Additionally, we find stronger genetic structure among groups in lower quality habitat, and higher genetic diversity and lower relatedness of groups in higher quality habitat. Previous work using long-term data from groups in the same population has shown that groups with lower relatedness are larger and have more breeding pairs. Long-distance, directional dispersal to maximise individual fitness can thus lead to smaller and simpler kin-based social groups in lower quality habitat, but larger and more complex mixed-kin groups in higher quality habitat. Such intraspecific, within-population variation in group structure, including variation in kin structure of social groups, could have profound implications for the relative importance of the evolutionary mechanisms (i.e. direct vs. indirect fitness benefits) underlying the formation of cooperative societies.

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来源期刊
Journal of Animal Ecology
Journal of Animal Ecology 环境科学-动物学
CiteScore
9.10
自引率
4.20%
发文量
188
审稿时长
3 months
期刊介绍: Journal of Animal Ecology publishes the best original research on all aspects of animal ecology, ranging from the molecular to the ecosystem level. These may be field, laboratory and theoretical studies utilising terrestrial, freshwater or marine systems.
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