网络分析揭示了佐治亚海岸四种共生鳍鳃亚目物种微生物群落的物种特异性组织结构

IF 2.1 3区 农林科学 Q2 FISHERIES Fishes Pub Date : 2024-01-15 DOI:10.3390/fishes9010034
Kady Lyons, C N Bedore, Aaron B. Carlisle, Lauren Moniz, Timothy L. Odom, Rokeya Ahmed, S. Greiman, Ryan M. Freedman
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引用次数: 0

摘要

对共生物种进行比较,可以深入了解生态学方面如何对微生物群落产生影响。在 2019 年佐治亚沿海商业拖网捕虾季节,对三种双尾目动物(蝴蝶魟、钝吻魟和大西洋魟)和一种鲨鱼(大西洋尖吻鲨)采集了皮肤、鳃、泄殖腔和肠道拭子,对细菌 16S rRNA 基因 V4 区域进行了高通量测序。对白肌肉进行了稳定同位素(δ13C 和 δ15N)分析,以评估这四种同域间食肉动物潜在的生态位重叠。不同物种的δ13C和δ15N特征均存在显著差异,表明存在一定程度的资源分配。在对组织类型进行研究时,宿主物种对泄殖腔和皮肤的β多样性影响较弱,而对鳃和肠道样本则没有发现差异。然而,网络分析指标显示了更强的物种特异性影响,鲨鱼和双尾目动物之间明显存在不同的微生物群落关系,前者在内部和外部影响组织(分别为肠道/泄殖腔和皮肤/鳃)中都有更紧密的网络。尽管对栖息地的利用存在重叠,但物种的微生物群落在组织结构上存在差异,这与稳定同位素结果的差异相吻合,表明物种特有的生态学对细菌微生物群落起着中介作用。
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Network Analysis Reveals Species-Specific Organization of Microbial Communities in Four Co-Occurring Elasmobranch Species along the Georgia Coast
Comparing co-occurring species may provide insights into how aspects of ecology may play a role in influencing their microbial communities. During the 2019 commercial shrimp trawl season off coastal Georgia, swabs of skin, gills, cloaca, and gut were taken for three species of batoids (Butterfly Ray, Bluntnose Stingray, and Atlantic Stingray) and one shark species (Atlantic Sharpnose) for high-throughput sequencing of the V4 region of the bacterial 16S rRNA gene. White muscle was analyzed for stable isotopes (δ13C and δ15N) to evaluate potential niche overlap in these four sympatric mesopredators. Significant differences were found in both δ13C and δ15N signatures across species, suggesting a degree of resource partitioning. When examined within tissue type, the host species had a weak effect on β-diversity for cloaca and skin, with no differences found for gill and gut samples. However, network analysis metrics demonstrated a stronger species-specific effect and distinct microbial community relationships were apparent between the shark and batoids, with the former having tighter networks for both internally- and externally-influenced tissues (gut/cloaca and skin/gills, respectively). Despite overlapping habitat use, species’ microbiomes differed in their organizational structuring that paralleled differences in stable isotope results, suggesting a mediating role of species-specific ecology on bacterial microbiomes.
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Fishes
Fishes Multiple-
CiteScore
1.90
自引率
8.70%
发文量
311
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