Feather isotopes (δ2Hf) and morphometrics reveal population-specific migration patterns of the Blackpoll Warbler (Setophaga striata)

IF 1.4 4区环境科学与生态学 Q3 BIODIVERSITY CONSERVATION

Avian Conservation and Ecology Pub Date : 2023-11-01 DOI:10.5751/ace-02539-180216

Erica H. Dunn, Kevin J. Kardynal, Kristen M. Covino, Sara R. Morris, Rebecca L. Holberton, Keith A. Hobson

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引用次数: 0

Abstract

Blackpoll Warblers (Setophaga striata) have declined precipitously according to the North American Breeding Bird Survey, but that survey’s coverage of the boreal breeding range is limited. Migration monitoring offers an attractive tool for additional assessment because migrants from inaccessible portions of the breeding range are included in counts. However, for site-specific trends to be combined into regional or range-wide population trends, the breeding ground origin of the migrants counted at each site must be known. Blackpolls have a loop migration pattern in which spring and fall migrants follow different paths, but very little is known about population-specific routes within North America. We used stable hydrogen isotope assays of tail feathers (δ²H_f, 4th rectrix) and wing-length measurements from migration monitoring sites across Canada and the northeastern United States to broadly delineate breeding/natal origins of blackpolls captured at those sites. Blackpolls captured on spring migration in southern Ontario and western Quebec had characteristics expected of birds from breeding range west of the Great Lakes. These birds travel northward from the eastern Gulf of Mexico to Canada east of the Great Lakes before turning westward to reach their final destination between northwestern Ontario and eastern portions of the Northwest Territories. Many birds sampled at Great Lakes sites prior to 2010, but not thereafter, had δ²H_f and wing-length characteristics expected of breeding range in eastern Canada, suggesting differential rates of population change among regions. Estimates of migratory connectivity indicated considerable mixing of populations from different portions of the breeding range during migration. Our results both corroborate and refine the known clockwise loop migration pattern, provide new insight into spring migration routes across North America, and provide a foundation for incorporating breeding ground origins into estimations of range-wide population trends based on standardized migration counts.

The post Feather isotopes (δ²H_f) and morphometrics reveal population-specific migration patterns of the Blackpoll Warbler (Setophaga striata) first appeared on Avian Conservation and Ecology.

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羽毛同位素(δ2Hf)和形态计量学揭示了黑尾莺的种群迁徙模式

根据北美繁殖鸟类调查，黑尾莺(Setophaga striata)的数量急剧下降，但该调查对北方繁殖范围的覆盖范围有限。迁徙监测提供了一种有吸引力的额外评估工具，因为来自难以到达的繁殖范围部分的迁徙者被包括在计数中。然而，为了将特定地点的趋势结合到区域或范围范围的人口趋势中，必须知道每个地点统计的移徙者的繁殖地来源。黑民调有一个循环的迁徙模式，春季和秋季的迁徙者遵循不同的路径，但在北美，人们对特定种群的迁徙路线知之甚少。我们利用加拿大和美国东北部迁徙监测点的尾羽稳定氢同位素测定(δ2Hf, 4 rectrix)和翼长测量，大致描绘了在这些地点捕获的黑鹭的繁殖/出生起源。在安大略省南部和魁北克省西部的春季迁徙中捕捉到的黑鸟具有五大湖西部繁殖区鸟类的特征。这些鸟从墨西哥湾东部向北迁徙到五大湖以东的加拿大，然后向西迁徙，到达安大略省西北部和西北地区东部之间的最终目的地。在2010年之前，在五大湖地区取样的许多鸟类具有δ2Hf和翼长特征，这些特征与加拿大东部的繁殖范围一致，但之后就没有了，这表明不同地区的种群变化速度不同。对迁徙连通性的估计表明，在迁徙期间，来自不同繁殖范围的种群有相当大的混合。我们的研究结果证实并完善了已知的顺时针循环迁移模式，为北美春季迁移路线提供了新的见解，并为将繁殖地起源纳入基于标准化迁移计数的范围内种群趋势估计提供了基础。羽后同位素(δ2Hf)和形态计量学揭示了黑尾莺(Setophaga striata)的种群特异性迁徙模式，该模式首次出现在《鸟类保护与生态学》上。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Avian Conservation and Ecology BIODIVERSITY CONSERVATION-ORNITHOLOGY

CiteScore

2.20

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： Avian Conservation and Ecology is an open-access, fully electronic scientific journal, sponsored by the Society of Canadian Ornithologists and Birds Canada. We publish papers that are scientifically rigorous and relevant to the bird conservation community in a cost-effective electronic approach that makes them freely available to scientists and the public in real-time. ACE is a fully indexed ISSN journal that welcomes contributions from scientists all over the world. While the name of the journal implies a publication niche of conservation AND ecology, we think the theme of conservation THROUGH ecology provides a better sense of our purpose. As such, we are particularly interested in contributions that use a scientifically sound and rigorous approach to the achievement of avian conservation as revealed through insights into ecological principles and processes. Papers are expected to fall along a continuum of pure conservation and management at one end to more pure ecology at the other but our emphasis will be on those contributions with direct relevance to conservation objectives.