羽毛图案:生态功能、进化起源及量化研究进展

The Auk Pub Date : 2020-09-16 DOI:10.1093/auk/ukaa060
Nicholas A. Mason, R. C. Bowie
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引用次数: 25

摘要

鸟类在羽毛图案上表现出显著的差异,无论是在单个羽毛内还是在羽毛斑块之间。色素和结构色的大小、形状和位置的差异构成了重要的视觉信号,涉及配偶选择、社会信号、伪装和许多其他功能。虽然鸟类学家研究羽毛的模式已经有几个世纪了,但最近在数字图像采集和处理方面的技术进步已经改变了模式量化方法,使以前无法获得的模式表型的全面、详细的数据集成为可能。本文综述了羽毛图案在不同进化和生物尺度上的最新研究和经典研究,并讨论了羽毛图案在鸟类生物学中的各种作用。我们剖析了羽毛斑块作为物种内部和物种之间信号的作用。我们还考虑了羽毛图案的进化史,包括系统发育比较研究和羽毛图案遗传结构的进化发育研究。我们还调查了一个扩展工具箱的新方法,以表征和量化羽毛斑块的大小,形状和分布。最后,我们提供了一个工作实例来说明北美西部角云雀(Eremophila alpestris)亚种之间背羽图案的潜在工作流。迄今为止,鸟类羽毛图案和颜色的研究在鸟类学中占有重要地位,近年来在方法和概念上的进步为鸟类羽毛图案的生态功能和进化起源的研究开辟了新的途径。鸟类有许多不同的羽毛图案,这些图案源于羽毛内部的颜色图案以及身体区域之间的颜色差异。羽毛图案在鸟类生物学中扮演着多种角色。它们涉及配偶选择和领土,社会互动,伪装捕食者和许多其他功能。羽毛纹样的详细研究历史悠久,本文对其进行了回顾和综合。摄影和图像处理算法的最新进展为羽毛图案的研究开辟了新的途径。这些开源方法支持高效、可重复和可扩展的分析管道。我们以美国西部角云雀(Eremophila alpestris)种群背部羽毛模式的地理变异为例,说明了一种可能的管道。展望未来,数码摄影分析能力的增强和可扩展性将揭示有关鸟类羽毛图案的生态学和进化的新发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plumage patterns: Ecological functions, evolutionary origins, and advances in quantification
ABSTRACT Birds exhibit remarkable variation in plumage patterns, both within individual feathers and among plumage patches. Differences in the size, shape, and location of pigments and structural colors comprise important visual signals involved in mate choice, social signaling, camouflage, and many other functions. While ornithologists have studied plumage patterns for centuries, recent technological advances in digital image acquisition and processing have transformed pattern quantification methods, enabling comprehensive, detailed datasets of pattern phenotypes that were heretofore inaccessible. In this review, we synthesize recent and classic studies of plumage patterns at different evolutionary and organismal scales and discuss the various roles that plumage patterns play in avian biology. We dissect the role of plumage patches as signals within and among species. We also consider the evolutionary history of plumage patterns, including phylogenetic comparative studies and evolutionary developmental research of the genetic architecture underlying plumage patterns. We also survey an expanding toolbox of new methods that characterize and quantify the size, shape, and distribution of plumage patches. Finally, we provide a worked example to illustrate a potential workflow with dorsal plumage patterns among subspecies of the Horned Lark (Eremophila alpestris) in western North America. Studies of plumage patterning and coloration have played a prominent role in ornithology thus far, and recent methodological and conceptual advances have opened new avenues of research on the ecological functions and evolutionary origins of plumage patterns in birds. LAY SUMMARY Birds have many different plumage patterns that arise from coloration motifs within feathers as well as differences in color among body regions. Plumage patterns play various roles in bird biology. They are involved in mate choice and territoriality, social interactions, camouflage from predators, and many other functions. There is a rich history of detailed study on plumage patterns, which we review and synthesize in this manuscript. Recent advances in photography and image processing algorithms have opened new avenues of research on plumage patterns. These open-source methods enable efficient, repeatable, and scalable analytical pipelines. We illustrate one possible pipeline with a worked example of geographic variation in dorsal plumage patterns among populations of Horned Lark (Eremophila alpestris) in the western United States. Looking ahead, enhanced capacity and scalability for digital photography analyses will reveal new discoveries regarding the ecology and evolution of avian plumage patterns.
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