飞行模式影响鸟类迁徙范围的异速生长。

Flight mode affects allometry of migration range in birds.

机构信息

National Institute of Polar Research, 10-3, Midori-cho, Tachikawa, Tokyo, 190-8518, Japan.

Department of Polar Science, SOKENDAI (The Graduate University for Advanced Studies), 10-3, Midori-cho, Tachikawa, Tokyo, 190-8518, Japan.

出版信息

Ecol Lett. 2016 Aug;19(8):907-14. doi: 10.1111/ele.12627. Epub 2016 Jun 16.

DOI:10.1111/ele.12627

PMID:27305867

Abstract

Billions of birds migrate to exploit seasonally available resources. The ranges of migration vary greatly among species, but the underlying mechanisms are poorly understood. I hypothesise that flight mode (flapping or soaring) and body mass affect migration range through their influence on flight energetics. Here, I compiled the tracks of migratory birds (196 species, weighing 12-10 350 g) recorded by electronic tags in the last few decades. In flapping birds, migration ranges decreased with body mass, as predicted from rapidly increasing flight cost with increasing body mass. The species with higher aspect ratio and lower wing loading had larger migration ranges. In soaring birds, migration ranges were mass-independent and larger than those of flapping birds, reflecting their low flight costs irrespective of body mass. This study demonstrates that many animal-tracking studies are now available to explore the general patterns and the underlying mechanisms of animal migration.

摘要

数十亿只鸟类迁徙以利用季节性可用资源。不同物种的迁徙范围差异很大，但潜在的机制却知之甚少。我假设飞行模式（拍打或翱翔）和体重通过影响飞行能量学来影响迁徙范围。在这里，我收集了过去几十年中通过电子标签记录的候鸟（196 种，体重 12-10350g）的轨迹。在拍打飞行的鸟类中，迁徙范围随着体重的增加而减少，这与随着体重的增加飞行成本迅速增加的预测相符。具有更高展弦比和更低翼载的物种具有更大的迁徙范围。在翱翔鸟类中，迁徙范围与体重无关，并且大于拍打鸟类的迁徙范围，这反映了它们的飞行成本不因体重而异。本研究表明，现在有许多动物追踪研究可用于探索动物迁徙的一般模式和潜在机制。

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飞行模式影响鸟类迁徙范围的异速生长。

Flight mode affects allometry of migration range in birds.

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