Volatiles of symbiotic bacterial origin explain ectoparasitism and fledging success of hoopoes.

IF 4.9 Q1 MICROBIOLOGY
Mónica Mazorra-Alonso, Juan Manuel Peralta-Sánchez, Manuel Martín-Vivaldi, Manuel Martínez-Bueno, Rafael Núñez Gómez, Juan José Soler
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引用次数: 0

Abstract

Background: Some parasites use olfactory cues to detect their hosts and, since bacterial symbionts are partially responsible for animal odours, they could influence host parasitism. By autoclaving nest materials of hoopoe (Upupa epops) nests before reproduction started, we explored the hypothetical links between host-associated bacteria, volatiles and parasitism. During the nestling stage, we (i) estimated the level of ectoparasitism by chewing lice (Suborder Mallophaga) in adult hoopoe females and by Carnus haemapterus flies in nestlings, and (ii) characterized microbial communities and volatile profiles of nest environments (nest material and nest cavity, respectively) and uropygial secretions.

Results: Experimental nests had less diverse bacterial communities and more diverse volatile profiles than control nests, while occupants experienced lower intensity of parasitism in experimental than in control nests. The experiment also affected beta diversity of the microbial communities of nest material and of the volatiles of the nestling uropygial secretions. Moreover, microbial communities of uropygial secretions and of nest materials covaried with their volatile profiles, while the volatile profile of the bird secretions explained nest volatile profile. Finally, a subset of the volatiles and bacteria detected in the nest material and uropygial secretions were associated with the ectoparasitism intensity of both adult females and nestlings, and with fledging success.

Conclusions: These results show that a component of animal odours is linked with the microbial communities of the host and its reproductive environment, and emphasize that the associations between bacteria, ectoparasitism and reproductive success are partially mediated by volatiles of bacterial origin. Future work should focus on mechanisms underlying the detected patterns.

源于共生细菌的挥发性物质解释了胡蜂的外寄生性和羽化成功率。
背景:一些寄生虫利用嗅觉线索来探测宿主,由于细菌共生体是动物气味的部分来源,它们可能会影响宿主的寄生性。通过在繁殖开始前对鵖(Upupa epops)巢穴材料进行高压灭菌,我们探索了宿主相关细菌、挥发性物质和寄生之间的假设联系。在雏鸟阶段,我们(i)估计了成年雌环斑鸠体内咀嚼虱(Mallophaga亚目)和雏鸟体内Carnus haemapterus苍蝇的体外寄生水平,(ii)描述了巢环境(分别是巢材料和巢腔)和尿囊分泌物的微生物群落和挥发性特征:结果:与对照巢相比,实验巢中细菌群落的多样性较低,挥发性特征的多样性较高。实验还影响了巢材料微生物群落和雏鸟尿道分泌物挥发物的贝塔多样性。此外,尿道分泌物和鸟巢材料的微生物群落与它们的挥发性特征相关,而鸟类分泌物的挥发性特征则解释了鸟巢的挥发性特征。最后,在鸟巢材料和尿囊分泌物中检测到的部分挥发性物质和细菌与成年雌鸟和雏鸟的体外寄生强度以及羽化成功率有关:这些结果表明,动物气味的一个组成部分与宿主及其繁殖环境的微生物群落有关,并强调细菌、外寄生和繁殖成功率之间的联系部分是由细菌挥发物介导的。今后的工作应侧重于研究所发现模式的内在机制。
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
7.20
自引率
0.00%
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审稿时长
13 weeks
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