Phylosymbiosis shapes skin bacterial communities and pathogen-protective function in Appalachian salamanders.

IF 10.8 1区 环境科学与生态学 Q1 ECOLOGY ISME Journal Pub Date : 2024-01-08 DOI:10.1093/ismejo/wrae104
Owen G Osborne, Randall R Jiménez, Allison Q Byrne, Brian Gratwicke, Amy Ellison, Carly R Muletz-Wolz
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Abstract

Phylosymbiosis is an association between host-associated microbiome composition and host phylogeny. This pattern can arise via the evolution of host traits, habitat preferences, diets, and the co-diversification of hosts and microbes. Understanding the drivers of phylosymbiosis is vital for modelling disease-microbiome interactions and manipulating microbiomes in multi-host systems. This study quantifies phylosymbiosis in Appalachian salamander skin in the context of infection by the fungal pathogen Batrachochytrium dendrobatidis (Bd), while accounting for environmental microbiome exposure. We sampled ten salamander species representing >150M years of divergence, assessed their Bd infection status, and analysed their skin and environmental microbiomes. Our results reveal a significant signal of phylosymbiosis, whereas the local environmental pool of microbes, climate, geography, and Bd infection load had a smaller impact. Host-microbe co-speciation was not evident, indicating that the effect stems from the evolution of host traits influencing microbiome assembly. Bd infection is correlated with host phylogeny and the abundance of Bd-inhibitory bacterial strains, suggesting that the long-term evolutionary dynamics between salamander hosts and their skin microbiomes affect the present-day distribution of the pathogen, along with habitat-linked exposure risk. Five Bd-inhibitory bacterial strains showed unusual generalism: occurring in most host species and habitats. These generalist strains may enhance the likelihood of probiotic manipulations colonising and persisting on hosts. Our results underscore the substantial influence of host-microbiome eco-evolutionary dynamics on environmental health and disease outcomes.

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系统共生塑造了阿巴拉契亚蝾螈的皮肤细菌群落和病原体保护功能。
系统共生是指宿主相关微生物组组成与宿主系统发育之间的联系。这种模式可通过宿主性状、栖息地偏好、饮食以及宿主和微生物共同多样化的进化而产生。了解系统共生的驱动因素对于模拟疾病与微生物组之间的相互作用以及操纵多宿主系统中的微生物组至关重要。本研究量化了阿巴拉契亚蝾螈皮肤在真菌病原体Batrachochytrium dendrobatidis(Bd)感染背景下的系统共生关系,同时考虑了环境微生物组暴露。我们采集了 10 个蝾螈物种的样本,这些物种的物种间差异大于 150 兆年,评估了它们的 Bd 感染状况,并分析了它们的皮肤和环境微生物组。我们的结果揭示了系统共生的重要信号,而当地环境微生物库、气候、地理和Bd感染负荷的影响较小。宿主与微生物的同种化并不明显,这表明其影响源于影响微生物组组合的宿主特征的进化。Bd感染与宿主系统发育和Bd抑制细菌菌株的丰度相关,表明大鲵宿主及其皮肤微生物组之间的长期进化动态影响了病原体的现今分布,以及与栖息地相关的暴露风险。五种Bd抑制细菌菌株表现出不同寻常的通性:出现在大多数宿主物种和栖息地上。这些通性菌株可能会提高益生菌在宿主身上定殖和持续存在的可能性。我们的研究结果强调了宿主-微生物组生态进化动态对环境健康和疾病结果的重大影响。
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来源期刊
ISME Journal
ISME Journal 环境科学-生态学
CiteScore
22.10
自引率
2.70%
发文量
171
审稿时长
2.6 months
期刊介绍: The ISME Journal covers the diverse and integrated areas of microbial ecology. We encourage contributions that represent major advances for the study of microbial ecosystems, communities, and interactions of microorganisms in the environment. Articles in The ISME Journal describe pioneering discoveries of wide appeal that enhance our understanding of functional and mechanistic relationships among microorganisms, their communities, and their habitats.
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