Microbial community changes correlate with impaired host fitness of Aurelia aurita after environmental challenge.

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2023-09-21 DOI:10.1186/s42523-023-00266-4
Nicole Pinnow, Cynthia M Chibani, Simon Güllert, Nancy Weiland-Bräuer
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Abstract

Climate change globally endangers certain marine species, but at the same time, such changes may promote species that can tolerate and adapt to varying environmental conditions. Such acclimatization can be accompanied or possibly even be enabled by a host's microbiome; however, few studies have so far directly addressed this process. Here we show that acute, individual rises in seawater temperature and salinity to sub-lethal levels diminished host fitness of the benthic Aurelia aurita polyp, demonstrated by up to 34% reduced survival rate, shrinking of the animals, and almost halted asexual reproduction. Changes in the fitness of the polyps to environmental stressors coincided with microbiome changes, mainly within the phyla Proteobacteria and Bacteroidota. The absence of bacteria amplified these effects, pointing to the benefit of a balanced microbiota to cope with a changing environment. In a future ocean scenario, mimicked by a combined but milder rise of temperature and salinity, the fitness of polyps was severely less impaired, together with condition-specific changes in the microbiome composition. Our results show that the effects on host fitness correlate with the strength of environmental stress, while salt-conveyed thermotolerance might be involved. Further, a specific, balanced microbiome of A. aurita polyps supports the host's acclimatization. Microbiomes may provide a means for acclimatization, and microbiome flexibility can be a fundamental strategy for marine animals to adapt to future ocean scenarios and maintain biodiversity and ecosystem functioning.

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微生物群落的变化与Aurelia aurita在环境挑战后宿主适应性受损有关。
气候变化在全球范围内危及某些海洋物种,但与此同时,这种变化可能会促进能够容忍和适应不同环境条件的物种。这种驯化可以伴随宿主的微生物组,甚至可能由宿主的微生物群实现;然而,迄今为止,很少有研究直接涉及这一过程。在这里,我们发现,海水温度和盐度的急性、个体上升到亚致死水平,降低了海底金黄色珊瑚虫的宿主适应性,存活率降低了34%,动物数量减少,无性繁殖几乎停止。息肉适应环境压力的变化与微生物组的变化相吻合,主要发生在变形菌门和拟杆菌门内。细菌的缺乏放大了这些影响,表明平衡的微生物群有利于应对不断变化的环境。在未来的海洋场景中,模拟温度和盐度的共同但温和的上升,息肉的适应性受到的损害严重减轻,同时微生物组组成也发生了特定条件的变化。我们的研究结果表明,对寄主适应性的影响与环境胁迫的强度有关,而盐传递的耐热性可能参与其中。此外,耳鼻息肉的一个特定的、平衡的微生物组支持宿主的适应。微生物组可以提供一种适应的手段,微生物组的灵活性可以成为海洋动物适应未来海洋情景、维持生物多样性和生态系统功能的基本策略。
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CiteScore
7.20
自引率
0.00%
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0
审稿时长
13 weeks
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