Intraspecific body size variation across distributional moments reveals trait filtering processes.

IF 3.5 1区 环境科学与生态学 Q1 ECOLOGY
Jacquelyn L Fitzgerald, Jane E Ogilvie, Paul J CaraDonna
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Abstract

Natural populations are composed of individuals that vary in their morphological traits, timing and interactions. The distribution of a trait can be described by several dimensions, or mathematical moments-mean, variance, skew and kurtosis. Shifts in the distribution of a trait across these moments in response to environmental variation can help to reveal which trait values are gained or lost, and consequently how trait filtering processes are altering populations. To examine the role and drivers of intraspecific variation within a trait filtering framework, we investigate variation in body size among five wild bumblebee species in the Colorado Rocky Mountains. First, we examine the relationships between environmental factors (climate and floral food resources) and body size distributions across bumblebee social castes to identify demographic responses to environmental variation. Next, we examine changes in the moments of trait distributions to reveal potential mechanisms behind intraspecific shifts in body size. Finally, we examine how intraspecific body size variation is related to diet breadth and phenology. We found that climate conditions have a strong effect on observed body size variation across all distributional moments, but the filtering mechanism varies by social caste. For example, with earlier spring snowmelt queens declined in mean size and became negatively skewed and more kurtotic. This suggests a skewed filter admitting a greater frequency of small individuals. With greater availability of floral food resources, queens increased in mean size, but workers and males decreased in size. Observed shifts in body size variation also correspond with variation in diet breadth and phenology. Populations with larger average body size were associated with more generalized foraging in workers of short-tongued species and increased specialization in longer-tongued workers. Altered phenological timing was associated with species- and caste-specific shifts in skew. Across an assemblage of wild bumblebees, we find complex patterns of trait variation that may not have been captured if we had simply considered mean and variance. The four-moment approach we employ here provides holistic insight into intraspecific trait variation, which may otherwise be overlooked and reveals potential underlying filtering processes driving such variation within populations.

跨分布矩的种内体型变化揭示了性状筛选过程。
自然种群由形态特征、时间和相互作用各不相同的个体组成。性状的分布可以用几个维度或数学矩来描述--均值、方差、偏斜和峰度。一个性状在这些矩上的分布随环境变化而变化,有助于揭示哪些性状值增加或减少,从而揭示性状筛选过程是如何改变种群的。为了在性状过滤框架内研究种内变异的作用和驱动因素,我们调查了科罗拉多落基山脉五个野生熊蜂物种的体型变异。首先,我们研究了环境因素(气候和花食物资源)与大黄蜂不同社会等级的体型分布之间的关系,以确定对环境变化的人口学响应。接着,我们研究了性状分布矩的变化,以揭示种内体型变化背后的潜在机制。最后,我们研究了种内体型变化与食性广度和物候的关系。我们发现,气候条件对观察到的所有分布时刻的体型变化都有很大影响,但过滤机制因社会等级而异。例如,随着春季融雪期的提前,蚁后的平均体型下降,并变得负偏斜和更有峰度。这表明,偏斜的过滤机制接纳了更多的小个体。随着花食物资源的增加,蜂王的平均体型增大,但工蜂和雄蜂的体型减小。观察到的体型变化也与食性和物候的变化相一致。平均体型较大的种群与短舌种类的工蜂更普遍地觅食和长舌工蜂更专业化有关。物候时间的改变与物种和种姓特有的偏斜变化有关。在整个野生熊蜂群体中,我们发现了复杂的性状变异模式,如果我们仅仅考虑平均值和方差,可能无法捕捉到这些模式。我们在此采用的四时刻方法提供了对种内性状变异的整体洞察,否则这些变异可能会被忽视,并揭示了种群内驱动这种变异的潜在过滤过程。
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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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