Pro-inflammatory immune response is linked to wintering habitat in a migratory shorebird

The Auk Pub Date : 2020-07-24 DOI:10.1093/auk/ukaa046
J. M. Abad-Gómez, A. Villegas, Jorge S. Gutiérrez, Manuel Parejo, J. G. Navedo, J. M. Sánchez-Guzmán, Afonso D. Rocha, J. Masero
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引用次数: 1

Abstract

ABSTRACT Migratory shorebirds (Charadrii) show a strong dichotomy in their breeding and wintering strategies: Arctic-breeding species typically spend the wintering season in marine habitats, while more southerly breeding species tend to do so in freshwater habitats where pathogens and parasites, particularly vector-borne blood parasites, are generally more abundant. Thus, it has been hypothesized that the former group may reduce their investment in immunity, but experimental data supporting this hypothesis are lacking. Moreover, whether this contrasting habitat selection can shape investments in immunocompetence among populations within a species is uncertain. We experimentally tested the hypothesis that there is a significant association between habitat occupancy and the strength of a pro-inflammatory immune response in the Dunlin (Calidris alpina), a widely distributed long-distance migratory shorebird that breeds in (sub-)arctic areas and winters mainly, but not exclusively, in coastal habitats. Overwintering Dunlins occupying inland freshwater and marine habitats at a similar latitude were captured and acclimated under identical conditions in outdoor aviaries. After an acclimation period, they were challenged with phytohemagglutinin to assess the pro-inflammatory immune response and its associated energetic costs, measured by basal metabolic rate (BMR) and body mass changes. We found that freshwater Dunlins exhibited a higher (63%) pro-inflammatory immune response than marine Dunlins. Although this difference did not involve significant BMR changes, the time course of body mass response differed between freshwater and marine individuals. Our findings point to the existence of different pro-inflammatory immune responses and body mass adjustments associated with the wintering habitat. These intraspecific differences are likely due to population adaptation rather than phenotypic plasticity, where not only disease risk but also physiological adaptations to different salinity levels could play an important role. Lay summary • Shorebird species wintering in marine habitats may experience a decreased risk of parasite infection and thus invest less in immunity than freshwater-wintering ones. • We performed an experiment with Dunlins from marine and freshwater habitats to test this prediction at the population level. • After a month in captivity under the same freshwater regime, birds from the marine population showed a lower immune response than those from the freshwater population. • Such within-species differences in immunity are likely due to population adaptation to habitats posing different disease risks and osmoregulatory demands.
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促炎免疫反应与候鸟的越冬栖息地有关
迁徙滨鸟(Charadrii)在繁殖和越冬策略上表现出强烈的两分法:北极繁殖的物种通常在海洋栖息地过冬,而南方繁殖的物种往往在淡水栖息地过冬,而淡水栖息地的病原体和寄生虫,特别是媒介传播的血液寄生虫通常更丰富。因此,人们假设前者可能会减少对免疫力的投资,但缺乏支持这一假设的实验数据。此外,这种不同的栖息地选择是否会影响一个物种内种群间免疫能力的投资还不确定。我们通过实验验证了这样一种假设,即在栖息地占据和促炎免疫反应强度之间存在显著关联。Dunlin (Calidris alpina)是一种广泛分布的长途迁徙滨鸟,在(亚)北极地区和冬季主要(但不完全)在沿海栖息地繁殖。在相同的条件下,在室外的鸟舍中捕获并适应了在相似纬度的内陆淡水和海洋栖息地越冬的Dunlins。经过一段适应期后,他们接受植物血凝素挑战,以评估促炎免疫反应及其相关的能量消耗,通过基础代谢率(BMR)和体重变化来测量。我们发现淡水Dunlins比海洋Dunlins表现出更高的促炎免疫反应(63%)。尽管这种差异不涉及显著的BMR变化,但淡水个体和海洋个体的体重反应时间过程存在差异。我们的研究结果表明,不同的促炎免疫反应和体重调整与越冬栖息地有关。这些种内差异可能是由于种群适应而不是表型可塑性,其中不仅疾病风险,而且对不同盐度水平的生理适应可能起重要作用。•在海洋栖息地越冬的滨鸟物种感染寄生虫的风险较低,因此在免疫力方面的投入比在淡水越冬的滨鸟要少。•我们对来自海洋和淡水栖息地的Dunlins进行了一项实验,以在种群水平上验证这一预测。•在相同的淡水环境下圈养一个月后,海洋种群的鸟类表现出的免疫反应低于淡水种群的鸟类。•这种物种内免疫差异可能是由于种群对具有不同疾病风险和渗透调节需求的生境的适应。
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