比较跨物种的迁徙连通性:考虑采样模式和导致连通性的过程的重要性

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Will Cresswell, Robert Patchett
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引用次数: 0

摘要

衡量迁徙连通性的程度——不同物种种群在其年周期内迁徙时混合的数量和地点——很重要,因为它可以了解迁徙的演变,种群将如何受到栖息地和气候变化的影响,以及哪些区域应优先保护。但现有的连通性测量可能很难进行比较,因为它们测量的是不同的东西,并且被抽样偏差所混淆。在这里,我们使用截至2019年7月所有可用的已公布陆鸟轨迹的标记数据(在全球三条主要航线上追踪到224个种群、86个物种和1524个个体)来确定强有力的措施,以比较不同物种之间的迁徙连通性。我们考虑了两种广泛使用的描述性指标:(1)非繁殖地上繁殖种群重叠的程度;(2)曼特尔相关性,它测试繁殖个体和非繁殖个体之间的空间自相关程度;以及导致连接模式的主要过程的一个原因测量:来自同一繁殖种群的个体在非繁殖区的迁徙传播。我们研究了这三种测量方法对采样种群繁殖地点之间的距离(繁殖距离)及其样本量的敏感性。我们还考虑了迁移距离的混杂效应,因为较长的迁移减少了重叠,增加了曼特尔相关性和迁移扩散。我们发现,非繁殖地上繁殖种群之间的重叠程度随着繁殖距离的增加而降低,并随着样本量的增加而增加。曼特尔相关系数也随着繁殖距离的增加而显著增加;样本量不影响准确度,但在超过约15人的样本量时,准确度大大提高。然而,迁徙传播与繁殖距离无关;样本量对准确性和精密度的影响很小,当每个群体中包括四个以上的个体时,没有显著影响。此外,迁徙扩散与最大非繁殖范围高度正相关。重叠和曼特尔相关性因空间模式和采样量而高度混淆,而迁徙传播相对不一致,甚至因迁徙距离而不一致。尽管任何描述性的迁徙连通性测量都可以通过确定非繁殖地的当前保护区域来帮助确定优先事项,但导致这些模式的迁徙传播需要更少的数据,具有可比性,并提供了关于进化灵活性的信息,从而提供了应对栖息地和气候变化的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comparing migratory connectivity across species: The importance of considering the pattern of sampling and the processes that lead to connectivity

Comparing migratory connectivity across species: The importance of considering the pattern of sampling and the processes that lead to connectivity

Measuring the degree of migratory connectivity – how much and where different populations of species mix as they migrate over their annual cycle – is important because it informs the understanding of the evolution of migration, how populations will be affected by both habitat and climate change, and which areas to prioritize for conservation. But existing measures of connectivity may be difficult to compare because they measure different things and are confounded by sampling bias. Here we use tagging data from all available published landbird tracks up to July 2019 (224 populations, 86 species and 1524 individuals tracked in the three main global flyways) to identify robust measures to compare migratory connectivity across species. We consider two widely used descriptive measures: (1) degree of breeding population overlap on the non-breeding grounds and (2) Mantel correlation, which tests the degree of spatial autocorrelation between the breeding and non-breeding individuals; as well as one causative measure of the main process that leads to connectivity patterns: migratory spread of individuals from the same breeding population across the non-breeding area. We investigated the sensitivity of these three measures to the distance between breeding locations of sampled populations (breeding distance) and their sample size. We also considered the confounding effects of migration distance because longer migrations decreased overlap and increased Mantel correlations and migratory spread. We found that the degree of overlap between breeding populations on the non-breeding grounds decreased with increasing breeding distance and increased with increasing sample size. Mantel correlation coefficients also increased significantly with increasing breeding distance; sample size did not affect accuracy, but precision was greatly improved above a sample size of about 15 individuals. Migratory spread, however, was independent of breeding distance; sample size had only small effects on accuracy and precision, with no significant effects when more than four individuals per population were included. Furthermore, migratory spread was highly positively correlated with the maximum non-breeding range. Overlap and Mantel correlations were highly confounded by the spatial pattern and amount of sampling, whereas migratory spread was relatively unconfounded, even by migratory distance. Although any descriptive migratory connectivity measure can help set priorities by determining current areas for conservation on the non-breeding grounds, migratory spread, which leads to these patterns, needs fewer data, is comparable, and gives information on evolutionary flexibility and so ability to deal with changing habitat and climate.

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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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