Experimental manipulation of nest temperature and relative humidity reduces ectoparasites and affects body condition of Blue Tits (Cyanistes caeruleus)

IF 1.8 3区 生物学 Q1 ORNITHOLOGY
Ibis Pub Date : 2024-07-10 DOI:10.1111/ibi.13346
Marina García-del Río, Alejandro Cantarero, Francisco Castaño-Vázquez, Yago Merino, Javier García-Velasco, Santiago Merino
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Abstract

Many models predict changes in the distribution and incidence of diseases associated with climate change. However, studies exploring the effect of microclimatic changes on host–parasite relationships are scarce. In this study, we increased temperature or humidity in Eurasian Blue Tit Cyanistes caeruleus nestboxes during the breeding season, to analyse the effect of each variable on the abundance of ectoparasites and, also, on the body condition of the hosts. Temperature and humidity were experimentally increased on average by about 2°C and 15%, respectively. The abundance of blowfly Protocalliphora azurea pupae was significantly reduced in nests with increased temperature compared with control nests and those with increased humidity, and was also significantly reduced in nests with increased humidity compared with control nests. The abundance of mites Dermanyssus spp. was significantly reduced in nests with increased humidity. However, there was no significant effect of the experiment on the abundance of flea Ceratophyllus gallinae larvae, biting midges (Culicoides spp.) and blackflies (Simuliidae). The body condition of nestlings was lower in nests with increased humidity and slightly lower in heated nests. However, the body condition of adults was not significantly affected by the experiment. In addition, blowfly pupae and biting midge abundance were negatively related to the body condition of the nestlings, and biting midge abundance was also negatively related to the body condition of the adults. Overall, an increase in temperature and humidity reduces the abundance of ectoparasites, which suggests that these parasites are sensitive to sudden changes in the microclimate in which they develop. Moreover, these fluctuations negatively affect the body condition of Blue Tit nestlings despite the concurrent decrease of parasites in nests. In other words, the expected benefit to the nestlings from the reduction in parasites does not occur because the microclimate also adversely affects nestlings, probably affecting their heat exchange with the nest environment.

Abstract Image

通过实验控制巢穴温度和相对湿度减少外寄生虫并影响蓝山雀的身体状况
许多模型预测,气候变化会导致疾病的分布和发病率发生变化。然而,探讨微气候变化对寄主-寄生虫关系影响的研究却很少。在这项研究中,我们在欧亚蓝山雀(Cyanistes caeruleus)繁殖季节提高了巢箱的温度或湿度,以分析每个变量对体外寄生虫数量的影响,以及对宿主身体状况的影响。实验中,温度和湿度平均分别提高了约2°C和15%。与对照巢和湿度增加的巢相比,温度增加的巢中蚜蝇蛹的数量明显减少;与对照巢相比,湿度增加的巢中蚜蝇蛹的数量也明显减少。湿度增加的巢中,螨类 Dermanyssus 的数量明显减少。然而,实验对跳蚤幼虫、咬蠓(Culicoides spp.)和黑蝇(Simuliidae)的数量没有明显影响。在湿度增加的巢中,雏鸟的身体状况较差,而在加热的巢中,雏鸟的身体状况稍差。然而,实验对成虫的身体状况影响不大。此外,吹蝇蛹和咬蠓的数量与雏鸟的身体状况呈负相关,而咬蠓的数量也与成鸟的身体状况呈负相关。总体而言,温度和湿度的升高会降低体外寄生虫的数量,这表明这些寄生虫对其生长的小气候的突然变化很敏感。此外,尽管巢中的寄生虫同时减少,但这些波动对蓝山雀雏鸟的身体状况产生了负面影响。换句话说,寄生虫的减少并没有给雏鸟带来预期的好处,因为小气候也对雏鸟产生了不利影响,可能影响了它们与巢穴环境的热交换。
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来源期刊
Ibis
Ibis 生物-鸟类学
CiteScore
4.60
自引率
9.50%
发文量
118
审稿时长
6-12 weeks
期刊介绍: IBIS publishes original papers, reviews, short communications and forum articles reflecting the forefront of international research activity in ornithological science, with special emphasis on the behaviour, ecology, evolution and conservation of birds. IBIS aims to publish as rapidly as is consistent with the requirements of peer-review and normal publishing constraints.
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