Nest microclimate and heat stress in African Penguins Spheniscus demersus breeding on Bird Island, South Africa

IF 1.5 4区 环境科学与生态学 Q3 BIODIVERSITY CONSERVATION Bird Conservation International Pub Date : 2022-10-03 DOI:10.1017/S0959270922000351
S. Welman, L. Pichegru
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引用次数: 1

Abstract

Summary Low-latitude penguins naturally breed in burrows dug in guano. This affords them a buffered environment that remains cool and humid, reducing the risk of hyperthermia while on land. As a conservation strategy, several versions of artificial housing units have been trialled at various breeding sites of African Penguins (Spheniscus demersus) around South Africa, where former guano exploitation forced many penguins to breed in exposed surface nests. While some units yielded a positive effect on breeding success by providing protection against predation, none of them have effectively mitigated the risk of heat stress in penguins or their eggs. Here, we investigated the microclimate of a recent double-layered design of ceramic artificial nests and compared that to natural burrows, exposed surface nests, and commonly used cement pipe nests, in austral summer 2021 on Bird Island, South Africa. We also recorded penguin behaviour during the hottest period at each of these nest types using remote camera traps to determine the onset of heat stress (panting). Double-layered ceramic nests out-performed all other nest types, including natural burrows, by remaining cooler throughout the day, with temperatures never exceeding 36.7°C. By contrast, all other nest types had multiple episodes where temperatures exceeded 40°C. Double-layered ceramic nests also maintained constant levels of high humidity (relative humidity [RH] >70%) throughout our study, whereas low humidity levels were observed in surface nests (RH ≈ 60%) and cement nests (RH <50%) during midday heat. We observed penguins panting at temperatures of 25°C in nest boxes, and at 22°C in exposed surface nests. This suggests that heat stress in African Penguins may occur much sooner than anticipated and that they are particularly vulnerable to hyperthermia as climate change-related global warming progresses. Fortunately, we are encouraged by the capacity of double-layered ceramic nest boxes to buffer environmental extremes and maintain suitable breeding conditions.
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南非鸟岛繁殖的非洲企鹅斯芬克斯的巢小气候和热应激
摘要低纬度企鹅在鸟粪中挖掘的洞穴中自然繁殖。这为他们提供了一个保持凉爽潮湿的缓冲环境,降低了在陆地上体温过高的风险。作为一种保护策略,在南非各地的非洲企鹅(Spheniscus demersus)的各个繁殖地,已经试验了几种类型的人工住房,在那里,以前的鸟粪开采迫使许多企鹅在暴露的地表巢穴中繁殖。虽然一些单位通过提供防止捕食的保护对繁殖成功产生了积极影响,但没有一个单位有效地减轻了企鹅或其蛋的热应激风险。在这里,我们调查了最近双层设计的陶瓷人工巢穴的小气候,并将其与2021年南夏季在南非鸟岛的天然洞穴、裸露的表面巢穴和常用的水泥管巢穴进行了比较。我们还使用远程相机捕捉器记录了企鹅在每种巢穴最热时期的行为,以确定热应激(喘息)的开始。双层陶瓷巢穴的温度从不超过36.7°C,全天保持凉爽,比包括天然洞穴在内的所有其他巢穴类型都好。相比之下,所有其他巢穴都有多次温度超过40°C的情况。在整个研究过程中,双层陶瓷巢也保持了恒定的高湿度水平(相对湿度[RH]>70%),而在正午高温期间,在表面巢(RH≈60%)和水泥巢(RH<50%)中观察到了低湿度水平。我们观察到企鹅在25°C的温度下在巢箱中喘息,在22°C的暴露表面的巢中喘息。这表明,非洲企鹅的热应激可能比预期的要早得多,而且随着气候变化相关的全球变暖的进展,它们特别容易受到高温的影响。幸运的是,双层陶瓷巢箱能够缓冲极端环境并保持合适的繁殖条件,这让我们深受鼓舞。
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
CiteScore
3.40
自引率
6.20%
发文量
50
审稿时长
>12 weeks
期刊介绍: Bird Conservation International is a quarterly peer-reviewed journal that seeks to promote worldwide research and action for the conservation of birds and the habitats upon which they depend. The official journal of BirdLife International, it provides stimulating, international and up-to-date coverage of a broad range of conservation topics, using birds to illuminate wider issues of biodiversity, conservation and sustainable resource use. It publishes original papers and reviews, including targeted articles and recommendations by leading experts.
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