Evaluation of breeding distribution and chronology of North American scoters

IF 1.7 3区 生物学 Q3 ECOLOGY Wildlife Biology Pub Date : 2023-10-14 DOI:10.1002/wlb3.01099
Kristin Bianchini, Scott G. Gilliland, Alicia M. Berlin, Timothy D. Bowman, W. Sean Boyd, Susan E. W. De La Cruz, Daniel Esler, Joseph R. Evenson, Paul L. Flint, Christine Lepage, Scott R. McWilliams, Dustin E. Meattey, Jason E. Osenkowski, Matthew C. Perry, Jean‐François Poulin, Eric T. Reed, Christian Roy, Jean‐Pierre L. Savard, Lucas Savoy, Jason L. Schamber, Caleb S. Spiegel, John Takekawa, David H. Ward, Mark L. Mallory
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Abstract

North America's scoter species are poorly monitored relative to other waterfowl. Black Melanitta americana , surf M. perspicillata , and white‐winged M. deglandi scoter abundance and trend estimates are thus uncertain in many parts of these species' ranges. The most extensive source of waterfowl abundance and distribution data in North America is the Waterfowl breeding population and habitat survey (WBPHS). Although the WBPHS effectively monitors most species, both its timing and geographic coverage may preclude accurate scoter monitoring. Therefore, our goal was to better define when and where scoters breed to help interpret survey results and optimize potential supplemental survey efforts for scoters. We integrated satellite telemetry tracking data from scoters marked at multiple molting, staging, breeding, and wintering areas along the Atlantic and Pacific coasts to quantify continent‐wide breeding chronology and distribution. We also examined possible drivers of variation in timing of arrival, length of stay, and departure at nesting locations. We documented a northwest to southeast distribution of estimated breeding sites across Alaska and Canada. On average, scoters arrived at nest sites on 1 June. Surf scoters and Pacific black scoters arrived earliest and departed earliest. Pacific‐wintering black and white‐winged scoters began breeding earlier than Atlantic‐wintering birds. Additionally, birds arrived at nesting locations earlier in years with earlier snowmelt, and later snowmelt reduced lengths of stay for males. Breeding chronology also varied by age group, with adults arriving earlier than subadults. Our study is the first to comprehensively describe spatial variation in timing of breeding of both Atlantic and Pacific populations of all three scoter species across North America. Our results increase our understanding of how current surveys enumerate scoters and will inform possible supplemental efforts to improve continental monitoring of scoter populations.
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北美牧蹄鼠的繁殖分布及年代学评价
与其他水禽相比,北美的鹬类缺乏监测。因此,在这些物种分布范围的许多地方,黑美兰尼塔(Black Melanitta americana)、冲浪木兰尼塔(surf M. perspicillata)和白翅木兰尼塔(M. deglandi scoter)的丰度和趋势估计都是不确定的。北美水禽丰度和分布数据最广泛的来源是水禽繁殖种群和栖息地调查(WBPHS)。虽然野生生物保护区有效地监测了大多数物种,但其时间和地理覆盖范围可能妨碍准确的监测。因此,我们的目标是更好地定义滑板车的繁殖时间和地点,以帮助解释调查结果并优化滑板车潜在的补充调查工作。我们整合了卫星遥测跟踪数据,这些数据来自大西洋和太平洋沿岸多个换羽、分期、繁殖区和越冬区标记的scoters,以量化整个大陆的繁殖年代史和分布。我们还检查了在筑巢地点到达时间、停留时间和离开的可能驱动因素。我们记录了阿拉斯加和加拿大估计的繁殖地点从西北到东南的分布。平均而言,小羚羊在6月1日到达筑巢地点。冲浪滑板车和太平洋黑人滑板车最早到达,也最早离开。太平洋越冬的黑翅和白翅小翅鹬比大西洋越冬的鸟类更早开始繁殖。此外,鸟类到达筑巢地点的时间早于融雪时间,融雪时间晚缩短了雄性的停留时间。繁殖时间也因年龄组而异,成虫比亚成虫早到达。我们的研究首次全面描述了北美所有三种跨大西洋和太平洋种群在繁殖时间上的空间变化。我们的结果增加了我们对当前调查如何枚举滑板车的理解,并将告知可能的补充努力,以改善滑板车种群的大陆监测。
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来源期刊
Wildlife Biology
Wildlife Biology 生物-动物学
CiteScore
4.30
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: WILDLIFE BIOLOGY is a high-quality scientific forum directing concise and up-to-date information to scientists, administrators, wildlife managers and conservationists. The journal encourages and welcomes original papers, short communications and reviews written in English from throughout the world. The journal accepts theoretical, empirical, and practical articles of high standard from all areas of wildlife science with the primary task of creating the scientific basis for the enhancement of wildlife management practices. Our concept of ''wildlife'' mainly includes mammal and bird species, but studies on other species or phenomena relevant to wildlife management are also of great interest. We adopt a broad concept of wildlife management, including all structures and actions with the purpose of conservation, sustainable use, and/or control of wildlife and its habitats, in order to safeguard sustainable relationships between wildlife and other human interests.
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