Revealing migratory path, important stopovers and non-breeding areas of a boreal songbird in steep decline

Q2 Agricultural and Biological Sciences

Animal Migration Pub Date : 2021-01-01 DOI:10.1515/ami-2020-0116

J. Hagelin, M. Hallworth, Christopher P. Barger, J. A. Johnson, Kristin A. DuBour, Grey W. Pendelton, L. Decicco, Laura A. McDuffie, Steven M. Matsuoka, Marian A. Snively, P. Marra, Audrey Taylor

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引用次数: 1

Abstract

Abstract The Olive-sided Flycatcher (Contopus cooperi) is a steeply declining aerial insectivore with one of the longest migrations of any North American passerine. We deployed light-level geolocators and archival GPS tags on breeders in boreal Alaska to determine migratory routes, important stopovers and non-breeding locations. Data from 16 individuals revealed a median 23,555 km annual journey (range: 19,387, 27,292 km) over 95 days (range: 83, 139 days) with wintering occurring in three regions of South America (NW Colombia/Ecuador, central Peru and W Brazil/S Peru). We developed a new method to identify “Important Stopovers” by quantifying intensity of use (a function of bird numbers and stop durations) along migratory routes. We identified 13 Important Stopovers that accounted for ~66% of the annual migratory period, suggestive of refueling activities. Some sites coincided with key areas previously identified for other Neotropical-Nearctic migrants. Percent land “protected” at Important Stopovers, as defined by IUCN, ranged from 3.8% to 49.3% (mean [95% CI]: 17.3% [9.6, 25.0]). Total migration speed did not differ by season (median: 255 km day-1, range: 182, 295km day-1), despite greater spring travel distances. Birds with longer non-breeding periods, however, migrated north faster. Climate-driven mismatches in migratory timing may be less of a concern for western than for eastern flycatcher populations, given recent con-generic analyses (C. sordidulus, C. virens). However, accelerated high-latitude changes, may nonetheless impact boreal breeders.

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揭示北方鸣禽急剧下降的迁徙路径、重要中途停留地和非繁殖区

摘要橄榄侧捕蝇草（Contopus cooperi）是一种急剧下降的空中食虫动物，是北美雀形目中迁徙时间最长的动物之一。我们在阿拉斯加北部的繁殖者身上部署了光水平地理定位器和档案GPS标签，以确定迁徙路线、重要的中途停留点和非繁殖地点。来自16个个体的数据显示，在95天（范围：83139天）内，年平均行程为23555公里（范围：1938727292公里），在南美洲的三个地区（哥伦比亚西北部/厄瓜多尔、秘鲁中部和巴西西部/秘鲁南部）越冬。我们开发了一种新方法，通过量化迁徙路线上的使用强度（鸟类数量和停留时间的函数）来识别“重要停留”。我们确定了13个重要的中途停留点，约占年度迁徙期的66%，这表明有加油活动。一些地点与之前为其他新热带近北移民确定的关键地区重合。国际自然保护联盟（IUCN）定义的重要中途站“受保护”的土地百分比在3.8%至49.3%之间（平均[95%CI]：17.3%[9.625.0]）。尽管春季迁徙距离较大，但总迁徙速度没有因季节而异（中位数：255 km day-1，范围：182295 km day-1）。然而，非繁殖期较长的鸟类向北迁移的速度更快。考虑到最近的通用分析（C.sordidulus，C.virens），气候驱动的迁徙时间不匹配可能不是西部地区的问题，而是东部地区的问题。然而，高纬度的加速变化可能会影响北方的繁殖者。

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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