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首次迁徙的鸟类知道它们要去哪里吗:当今的生物钟与导航概念。

Do first-time avian migrants know where they are going: the clock-and-compass concept today.

作者信息

Chernetsov Nikita, Utvenko Gleb

机构信息

Ornithology Lab, Zoological Institute of the Russian Academy of Sciences, St. Petersburg, Russia.

Department of Vertebrate Zoology, St. Petersburg State University, St. Petersburg, Russia.

出版信息

Front Physiol. 2025 Apr 15;16:1562569. doi: 10.3389/fphys.2025.1562569. eCollection 2025.

DOI:10.3389/fphys.2025.1562569
PMID:40303593
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12037376/
Abstract

What if your life depended on finding a place you've never been-without a GPS device, a guide, or any way of knowing where to go? For young songbirds, this is the reality of their first migration. While this once puzzled researchers studying bird migration, advances in the field have since uncovered that many songbirds rely on an inherited genetic program to guide their remarkable solo journeys. Today, the most widely accepted theory explaining how young birds of species that migrate solitary and do not follow experienced conspecifics find their way to wintering grounds is the 'clock-and-compass' concept. According to this concept, naïve migrants follow a certain compass direction for a pre-defined period. In the simplest case, when the program runs out, they find themselves in their species-specific non-breeding range. However, recent research suggests that this process might be significantly more complex. New data indicate that first-time migrants may not have a complete map but rather a system of beacons. This system could be based, for example, on geomagnetic cues or other cues that help first-year birds navigate their location along the migration route. To date, a significant body of evidence has been gathered to revise the classic 'clock and compass' program. It is likely that first-time migrants of many species (although perhaps not all) are capable of varying degrees of location control based on innate information. The question of what data sources they use and how precise their control remains open for further investigation.

摘要

要是你的生命取决于找到一个你从未去过的地方,却没有全球定位系统设备、向导,也没有任何知道该往何处去的办法,会怎样呢?对于幼龄鸣禽来说,这就是它们首次迁徙的现实情况。虽然这曾让研究鸟类迁徙的人员感到困惑,但该领域后来的进展发现,许多鸣禽依靠一种遗传程序来指引它们非凡的独自旅程。如今,关于那些独自迁徙且不跟随经验丰富的同类的幼龄鸟类如何找到前往越冬地的路,最广为接受的理论是“时钟与罗盘”概念。根据这一概念,毫无经验的迁徙者在一段预先确定的时间内沿着特定的罗盘方向飞行。在最简单的情况下,当程序结束时,它们就会发现自己身处其特定物种的非繁殖区域。然而,最近的研究表明,这个过程可能要复杂得多。新数据表明,首次迁徙的鸟类可能没有完整的地图,而是有一个信标系统。例如,这个系统可能基于地磁线索或其他有助于一岁鸟类在迁徙路线上确定自身位置的线索。迄今为止,已经收集了大量证据来修正经典的“时钟与罗盘”程序。许多物种(尽管可能不是所有物种)的首次迁徙者很可能能够基于先天信息进行不同程度的位置控制。它们使用哪些数据源以及控制的精确程度如何,这个问题仍有待进一步研究。

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Origin stories: how does learned migratory behaviour arise in populations?起源故事:种群中习得的迁徙行为是如何产生的?
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Revisiting Perdeck's massive avian migration experiments debunks alternative social interpretations.
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Biol Lett. 2024 Jun;20(7):20240217. doi: 10.1098/rsbl.2024.0217. Epub 2024 Jul 3.
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