Do beluga whales truly migrate? Testing a key trait of the classical migration syndrome.

IF 3.4 1区生物学 Q2 ECOLOGY

Movement Ecology Pub Date : 2023-08-30 DOI:10.1186/s40462-023-00416-y

Luke Storrie, Lisa L Loseto, Emma L Sutherland, Shannon A MacPhee, Greg O'Corry-Crowe, Nigel E Hussey

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Abstract

Background: Migration enables organisms to access resources in separate regions that have predictable but asynchronous spatiotemporal variability in habitat quality. The classical migration syndrome is defined by key traits including directionally persistent long-distance movements during which maintenance activities are suppressed. But recently, seasonal round-trip movements have frequently been considered to constitute migration irrespective of the traits required to meet this movement type, conflating common outcomes with common traits required for a mechanistic understanding of long-distance movements. We aimed to test whether a cetacean ceases foraging during so-called migratory movements, conforming to a trait that defines classical migration.

Methods: We used location and dive data collected by satellite tags deployed on beluga whales (Delphinapterus leucas) from the Eastern Beaufort Sea population, which undertake long-distance directed movements between summer and winter areas. To identify phases of directionally persistent travel, behavioural states (area-restricted search, ARS; or Transit) were decoded using a hidden-Markov model, based on step length and turning angle. Established dive profiles were then used as a proxy for foraging, to test the hypothesis that belugas cease foraging during these long-distance transiting movements, i.e., they suppress maintenance activities.

Results: Belugas principally made directed horizontal movements when moving between summer and winter residency areas, remaining in a Transit state for an average of 75.4% (range = 58.5-87.2%) of the time. All individuals, however, exhibited persistent foraging during Transit movements (75.8% of hours decoded as the Transit state had ≥ 1 foraging dive). These data indicate that belugas actively search for and/or respond to resources during these long-distance movements that are typically called a migration.

Conclusions: The long-distance movements of belugas do not conform to the traits defining the classical migration syndrome, but instead have characteristics of both migratory and nomadic behaviour, which may prove adaptive in the face of unpredictable environmental change. Such patterns are likely present in other cetaceans that have been labeled as migratory. Examination of not only horizontal movement state, but also the vertical behaviour of aquatic animals during directed movements is essential for identifying whether a species exhibits traits of the classical migration syndrome or another long-distance movement strategy, enabling improved ecological inference.

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白鲸真的会迁徙吗?测试经典迁移综合征的一个关键特征。

背景:迁移使生物能够在栖息地质量具有可预测但非同步时空变异性的不同区域获取资源。典型的迁移综合征是由一些关键特征来定义的，包括定向持续的长距离移动，在此期间维持活动被抑制。但最近，季节性的往返迁徙经常被认为是构成迁徙，而不考虑满足这种迁徙类型所需的特征，将共同结果与对长途迁徙的机械理解所需的共同特征混为一谈。我们的目的是测试鲸类动物是否在所谓的迁徙运动中停止觅食，这符合定义经典迁徙的特征。方法:我们使用卫星标签收集的位置和潜水数据，这些卫星标签部署在东波弗特海种群的白鲸(Delphinapterus leucas)身上，白鲸在夏季和冬季之间进行长距离定向运动。确定定向持续旅行的阶段，行为状态(区域限制搜索，ARS;使用基于步长和转弯角度的隐马尔可夫模型进行解码。然后用已建立的潜水剖面作为觅食的代表，来验证白鲸在长途迁徙过程中停止觅食的假设，即它们抑制了维持活动。结果:白鲸在夏季和冬季栖息地之间移动时主要进行定向水平移动，平均75.4%(范围= 58.5-87.2%)的时间保持在过境状态。然而，所有个体在过境运动期间都表现出持续的觅食行为(75.8%的过境状态小时解码为≥1次觅食潜水)。这些数据表明，白鲸在这些通常被称为迁徙的长距离运动中积极寻找和/或对资源做出反应。结论:白鲸的长距离迁徙并不符合经典迁徙综合症的特征，而是具有迁徙和游牧行为的特征，这可能证明了它们在面对不可预测的环境变化时的适应性。这种模式可能也存在于其他被标记为迁徙的鲸类动物身上。研究水生动物在定向运动中的水平运动状态和垂直行为，对于确定一个物种是否表现出经典迁移综合征的特征或另一种长距离运动策略至关重要，从而改进生态推断。

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

Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

6.60

自引率

4.90%

发文量

审稿时长

23 weeks

期刊介绍： Movement Ecology is an open-access interdisciplinary journal publishing novel insights from empirical and theoretical approaches into the ecology of movement of the whole organism - either animals, plants or microorganisms - as the central theme. We welcome manuscripts on any taxa and any movement phenomena (e.g. foraging, dispersal and seasonal migration) addressing important research questions on the patterns, mechanisms, causes and consequences of organismal movement. Manuscripts will be rigorously peer-reviewed to ensure novelty and high quality.