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远洋海鸟繁殖早期的行为可塑性——以来自两个大洋的细纹凤头鹱为例

Behavioural plasticity in the early breeding season of pelagic seabirds - a case study of thin-billed prions from two oceans.

作者信息

Quillfeldt Petra, Weimerskirch Henri, Masello Juan F, Delord Karine, McGill Rona A R, Furness Robert W, Cherel Yves

机构信息

1Department of Animal Ecology and Systematics, Justus Liebig University Giessen, Heinrich-Buff-Ring 26, 35392 Giessen, Germany.

2UMR 7372 du CNRS et de l'Université de La Rochelle, Centre d'Etudes Biologiques de Chizé, 79360 Villiers-en-Bois, France.

出版信息

Mov Ecol. 2019 Jan 22;7:1. doi: 10.1186/s40462-019-0147-7. eCollection 2019.

DOI:10.1186/s40462-019-0147-7
PMID:30693085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6341530/
Abstract

BACKGROUND

In long-lived seabirds that migrate large distances independently of each other, the early part of the breeding season is crucially important for a successful reproductive attempt. During this phase, pair bonds are re-established and partners coordinate their breeding duties. We studied the early breeding season in Thin-billed prions breeding in the Atlantic Ocean (Falkland/Malvinas Islands) and Indian Ocean (Kerguelen). Despite overlap in the wintering areas, these two populations exhibit differences in their timing and direction of migration. We hypothesised that these differences would influence behaviour during the early breeding season.

RESULTS

In line with our hypothesis, we found very strong differences in colony attendance patterns. Thin-billed prions of the Falkland population spent the late winter period over shelf waters close to the colony, first arrived back at the colony in September, and attended the nests interruptedly for one month, before departing on a pre-laying exodus. In contrast, Kerguelen birds remained in the non-breeding areas until mid-October and spent much less time attending the burrow before their pre-laying exodus. Despite this asynchronous arrival to the two colonies, the subsequent patterns resulted in remarkably synchronous incubation in both populations, with males taking on the first long incubation shift in late November, whereas females returned to sea soon after egg laying. During the pre-laying exodus and incubation, Thin-billed prions from the Falklands spread north over the Patagonian Shelf, while prions from Kerguelen travelled much further, reaching southern oceanic waters and moved at faster speeds (> 400 km per day). Although prions from Kerguelen moved much further, their isotopic niches were considerably narrower, suggesting a stronger dependence on Antarctic waters.

CONCLUSIONS

The study thus suggests that Thin-billed prions show a high intraspecific plasticity in their use of either neritic or oceanic waters during the early breeding season. Breeding birds from the Falkland Islands can exploit an extensive shelf area, while Kerguelen birds have adapted to the need to forage in distant southern open waters. This difference in foraging ecology may thus have shaped the phenology of the early breeding phase.

摘要

背景

在彼此独立进行远距离迁徙的长寿海鸟中,繁殖季节的早期阶段对于成功的繁殖尝试至关重要。在此阶段,配偶关系得以重新建立,配偶双方会协调它们的繁殖职责。我们研究了在大西洋(福克兰/马尔维纳斯群岛)和印度洋(凯尔盖朗群岛)繁殖的细纹凤头燕鸥的繁殖早期。尽管这两个种群在越冬区域有重叠,但它们在迁徙时间和方向上存在差异。我们假设这些差异会影响繁殖早期的行为。

结果

与我们的假设一致,我们发现群体出勤模式存在非常显著的差异。福克兰种群的细纹凤头燕鸥在冬季后期在靠近繁殖地的陆架水域度过,9月首次回到繁殖地,并断断续续地照料巢穴一个月,然后在产卵前离开。相比之下,凯尔盖朗群岛的鸟类一直留在非繁殖区域直到10月中旬,在产卵前离开之前照料洞穴的时间要少得多。尽管这两个繁殖地的到达时间不同步,但随后的模式导致两个种群的孵化时间非常同步,雄性在11月下旬开始第一次长时间的孵化轮值,而雌性在产卵后不久就返回大海。在产卵前离开和孵化期间,来自福克兰群岛的细纹凤头燕鸥向北扩散到巴塔哥尼亚陆架,而来自凯尔盖朗群岛的凤头燕鸥迁徙得更远,到达南大洋水域,且移动速度更快(每天超过400公里)。尽管来自凯尔盖朗群岛的凤头燕鸥迁徙得更远,但它们的同位素生态位要窄得多,这表明它们对南极水域的依赖性更强。

结论

因此,该研究表明细纹凤头燕鸥在繁殖早期对浅海或大洋水域的利用表现出高度的种内可塑性。来自福克兰群岛的繁殖鸟类可以利用广阔的陆架区域,而凯尔盖朗群岛的鸟类则适应了在遥远的南大洋开阔水域觅食的需求。因此,觅食生态的这种差异可能塑造了繁殖早期的物候。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6243/6341530/a4b8cafea1bc/40462_2019_147_Fig7_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6243/6341530/a4b8cafea1bc/40462_2019_147_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6243/6341530/acd600ded76a/40462_2019_147_Fig1_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6243/6341530/801c39eb2c17/40462_2019_147_Fig4_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6243/6341530/97d7c10733d0/40462_2019_147_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6243/6341530/a4b8cafea1bc/40462_2019_147_Fig7_HTML.jpg

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