Distinctive and highly variable bird migration system revealed in Eastern Australia.

IF 8.1 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Current Biology Pub Date : 2024-11-18 Epub Date: 2024-10-22 DOI:10.1016/j.cub.2024.09.056
Xu Shi, Joshua Soderholm, Jason W Chapman, Jessica Meade, Andrew Farnsworth, Adriaan M Dokter, Richard A Fuller
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Abstract

Our understanding of bird migration is heavily biased toward long-distance movements in the Northern Hemisphere,1,2,3 with only fragmented knowledge from the Southern Hemisphere.4,5 In Australia, while some species migrate,4,6,7,8 the timing and direction of large-scale, multi-species seasonal movements remain critically understudied due to the complexity of movement in this region and a lack of research personnel and infrastructure.7,9 It is still unclear whether there are pronounced and structured mass movements resembling those in the Northern Hemisphere.10,11,12 Here, we analyze data from a latitudinal transect of weather radars spanning the entire coastline of Eastern Australia to determine the magnitude, directions, timing, and variability of bird migration compared to that of Northern Hemisphere migration systems. Bird movements exhibited sequential seasonal peaks along a latitudinal gradient with seasonally contrasting flight directions, confirming that a structured bird migration system exists. Three features were distinct from Northern Hemisphere migrations. First, distinct movements occurred around sunrise with comparable magnitudes to nocturnal migration, likely representing a strong diurnal component to the bird movements. Second, migration intensity averaged 0.06 million birds km-1 in autumn, much lower than Northern Hemisphere migrations.11,12,13 Finally, flight directions were more dispersed, and the timing and amount of migration were highly variable between years compared to Northern Hemisphere migration systems, perhaps in response to variable climate.7 This first quantification of continental-scale movements in Australia revealed a distinctive migration system, and it suggests that much remains to be discovered about the ecological and evolutionary factors shaping animal migrations in the Southern Hemisphere.

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揭示了澳大利亚东部独特而多变的鸟类迁徙系统。
我们对鸟类迁徙的了解主要偏重于北半球的长距离迁徙1,2,3 ,而对南半球的鸟类迁徙了解甚少4,5 。在澳大利亚,虽然有些物种会迁徙4,6,7,8 ,但由于该地区鸟类迁徙的复杂性以及研究人员和基础设施的缺乏,对大规模、多物种季节性迁徙的时间和方向的研究仍然严重不足7,9 。10,11,12在此,我们分析了横跨澳大利亚东部整个海岸线的气象雷达纬向横断面的数据,以确定与北半球迁徙系统相比,鸟类迁徙的规模、方向、时间和可变性。鸟类迁徙沿纬度梯度呈现出连续的季节性高峰,飞行方向也随季节变化而变化,这证实了鸟类迁徙系统的结构性存在。鸟类迁徙有三个不同于北半球迁徙的特点。首先,鸟类在日出前后出现明显的迁徙,其幅度与夜间迁徙相当,这可能代表了鸟类迁徙中强烈的昼间因素。11,12,13 最后,与北半球的迁徙系统相比,澳大利亚鸟类的飞行方向更加分散,迁徙的时间和数量在不同年份之间变化很大,这可能是对多变气候的反应。7 澳大利亚大陆尺度迁徙的首次量化研究揭示了一个独特的迁徙系统,它表明,关于南半球动物迁徙的生态和进化因素还有很多有待发现。
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
Current Biology
Current Biology 生物-生化与分子生物学
CiteScore
11.80
自引率
2.20%
发文量
869
审稿时长
46 days
期刊介绍: Current Biology is a comprehensive journal that showcases original research in various disciplines of biology. It provides a platform for scientists to disseminate their groundbreaking findings and promotes interdisciplinary communication. The journal publishes articles of general interest, encompassing diverse fields of biology. Moreover, it offers accessible editorial pieces that are specifically designed to enlighten non-specialist readers.
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