Hankyu Kim, Rodney B. Siegel, Jaime L. Stephens, Joan C. Hagar, Brett J. Furnas, Min-Su Jeong, Brenda C. McComb, Matthew G. Betts
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引用次数: 0
Abstract
Quantifying migratory connectivity and annual movement is key to sound conservation planning for migratory species. Hermit Warblers (Setophaga occidentalis) are an endemic-breeding species in the Pacific Northwest that winters in Mexico and the Central Americas. This species faces threats from mature forest loss and climate change throughout its range, but we know little about its migration ecology. To understand the annual movements and migratory connectivity of Hermit Warblers, we tracked 22 adult male Hermit Warblers from six breeding sites across the species’ breeding range using geolocators to examine migratory connectivity, spatiotemporal patterns, and migration routes. We found a high degree of mixing on the wintering grounds among birds from different breeding locations, indicating low migratory connectivity. However, birds breeding in Yosemite, the southernmost breeding location in our study, wintered farther east and south than birds from more northern breeding locations, providing weak evidence for potential chain migration. All birds showed much shorter and faster movements during spring migration than during fall migration. Birds arrived at breeding grounds from late April to mid-May and left breeding ranges from late June to mid-July. In fall, birds moved slowly from the breeding locations to montane regions in southern Oregon and California, which may indicate post-breeding molt before swiftly migrating to wintering grounds. Low migratory connectivity in this species implies that habitat and climate change across the broad wintering range may affect breeding populations throughout the species’ breeding range. A particularly compressed breeding schedule and departure of birds from the breeding grounds in early July may indicate that breeding is limited by a short window of favorable climatic conditions for breeding, which could signal heightened vulnerability under future climatic scenarios.
The post Annual migratory movement, apparent molt-migration, migration schedule, and diffuse migratory connectivity of Hermit Warblers first appeared on Avian Conservation and Ecology.
对迁徙连通性和年迁徙量进行量化是对迁徙物种进行合理保护规划的关键。隐莺(Setophaga occidentalis)是西北太平洋地区的特有繁殖物种,在墨西哥和中美洲越冬。该物种在整个分布区都面临着成熟森林消失和气候变化的威胁,但我们对其迁徙生态知之甚少。为了了解隐莺的年度活动和迁徙连通性,我们使用地理定位器追踪了该物种繁殖地六个繁殖点的22只成年雄性隐莺,研究了迁徙连通性、时空模式和迁徙路线。我们发现,来自不同繁殖地的鸟类在越冬地的混合程度很高,这表明迁徙连通性很低。然而,在优胜美地(我们研究中最南端的繁殖地)繁殖的鸟类比来自更北部繁殖地的鸟类在更远的东部和南部越冬,这为潜在的连锁迁徙提供了微弱的证据。与秋季迁徙相比,所有鸟类在春季迁徙时的活动时间更短,速度更快。鸟类在四月下旬至五月中旬到达繁殖地,六月下旬至七月中旬离开繁殖地。秋季,鸟类从繁殖地缓慢迁徙到俄勒冈州南部和加利福尼亚州的山地地区,这可能表明鸟类在繁殖后蜕皮,然后迅速迁徙到越冬地。该物种的迁徙连通性很低,这意味着广阔越冬地的栖息地和气候变化可能会影响该物种整个繁殖地的繁殖种群。特别压缩的繁殖时间表和鸟类在七月初离开繁殖地可能表明,繁殖受限于短时间内有利的繁殖气候条件,这可能预示着在未来气候条件下的脆弱性增加。The post Annual migratory movement, apparent molt-migration, migration schedule, and diffuse migratory connectivity of Hermit Warblers first appeared on Avian Conservation and Ecology.文章发表于《鸟类保护与生态学》。
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.