Migratory Connectivity and Non-Breeding Habitat Segregation Across Biogeographical Scales in Closely Related Seabird Taxa

IF 4.6 2区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION

Diversity and Distributions Pub Date : 2025-03-19 DOI:10.1111/ddi.70013

Virginia Morera-Pujol, Paulo Catry, Maria Magalhães, Clara Péron, José Manuel Reyes-González, José Pedro Granadeiro, Teresa Militão, Maria P. Dias, Daniel Oro, José Manuel Igual, Giacomo Dell'Omo, Martina Müller, Vitor H. Paiva, Benjamin Metzger, Verónica Neves, Joan Navarro, Georgios Karris, Stavros Xirouchakis, Jacopo G. Cecere, José Manuel Zamora-Marín, Manuela G. Forero, Isabel Afán, Ridha Ouni, Mohamed Salah Romdhane, Fernanda De Felipe, Zuzana Zajková, Marta Cruz-Flores, David Grémillet, Jacob González-Solís, Raül Ramos

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引用次数: 0

Abstract

Aim

In highly mobile species, Migratory Connectivity (MC) has relevant consequences in population dynamics, genetic mixing, conservation and management. Additionally, in colonially breeding species, the maintenance of the breeding geographical structure during the non-breeding period, that is, a strong MC, can promote isolation and population divergence, which ultimately can affect the process of lineage sorting. In geographically structured populations, studying the MC and differences in environmental preferences among colonies, populations, or taxa can improve our understanding of the ecological divergence among them.

Location

Atlantic Ocean and Mediterranean Sea.

Methods

We investigated the MC and non-breeding ecological niche of three seabird taxa from the genus Calonectris (n = 805 individuals). Using 1346 year-round trips from 34 different breeding colonies, we assess the level (from taxa to colony) at which MC and non-breeding spatial and environmental segregation emerge.

Results

At a taxon level, we found a clear difference in the non-breeding distributions between Cory's (C. borealis) and Scopoli's (C. diomedea) shearwaters, and a clear ecological divergence between Cory's and Cape Verde (C. edwardsii) shearwaters. At an intermediate aggregation level, we found that birds breeding in proximity had similar non-breeding habitat preferences, while birds breeding in very distant colonies (and therefore classified in different populations) had different non-breeding habitat preferences. Furthermore, within each taxon, we found more structure (i.e. stronger MC) and non-breeding divergence at an intermediate aggregation level than at the colony scale, where MC was weak.

Main Conclusions

These results suggest that conspecifics from nearby colonies mix in common non-breeding areas, but not with birds from more distant colonies or different taxa. These results support the need for management and conservation strategies that take into account this structure when dealing with migratory species with high connectivity.

Abstract Image

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近缘海鸟类群跨生物地理尺度的迁徙连通性和非繁殖地分离

目的在高流动性物种中，迁徙连通性在种群动态、遗传混合、保护和管理等方面具有重要意义。此外，在群体繁殖物种中，在非繁殖期维持繁殖地理结构，即强MC，可以促进隔离和种群分化，最终影响谱系分选过程。在地理结构的种群中，研究群体间、种群间或类群间的MC和环境偏好差异可以提高我们对种群间生态分化的认识。地理位置：大西洋和地中海。方法对3个海鸟类群（805只）的MC和非繁殖生态位进行了调查。利用来自34个不同繁殖群体的1346次全年旅行，我们评估了MC和非繁殖空间和环境隔离出现的水平（从类群到群体）。结果在分类群水平上，Cory's （C. borealis）和Scopoli's （C. diomedea）剪切水域的非繁殖分布存在明显差异，Cory's和佛得角剪切水域（C. edwardsii）之间存在明显的生态差异。在中间聚集水平上，我们发现近距离繁殖的鸟类具有相似的非繁殖栖息地偏好，而在非常遥远的种群中繁殖的鸟类（因此被划分为不同的种群）具有不同的非繁殖栖息地偏好。此外，在每个分类单元内，在中间聚集水平上发现了更多的结构（即更强的MC）和非育种差异，而在群体尺度上则发现了较弱的MC。结论来自近群的同种鸟在非繁殖区混种，但不会与远群或不同类群的同种鸟混种。这些结果支持在处理具有高连通性的迁徙物种时考虑到这种结构的管理和保护策略的必要性。

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来源期刊

Diversity and Distributions 环境科学-生态学

CiteScore

8.90

自引率

4.30%

发文量

195

审稿时长

8-16 weeks

期刊介绍： Diversity and Distributions is a journal of conservation biogeography. We publish papers that deal with the application of biogeographical principles, theories, and analyses (being those concerned with the distributional dynamics of taxa and assemblages) to problems concerning the conservation of biodiversity. We no longer consider papers the sole aim of which is to describe or analyze patterns of biodiversity or to elucidate processes that generate biodiversity.