确定水质对黑龙江水体和鱼类内脏微生物群落时空动态的调控作用。

IF 4 2区 生物学 Q2 MICROBIOLOGY
Frontiers in Microbiology Pub Date : 2024-08-21 eCollection Date: 2024-01-01 DOI:10.3389/fmicb.2024.1435360
Hongyu Jin, Lei Li, Wanqiao Lu, Zepeng Zhang, Yue Xing, Di Wu
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引用次数: 0

摘要

黑龙江是寒温带最大的河流之一,拥有丰富的鱼类资源。迄今为止,黑龙江水样和鱼类内脏中的微生物群落仍不清楚。本研究在旱季和雨季采集了黑龙江四个地点的水样和鱼内脏,通过 16s 核糖体 RNA 测序分析了水环境和鱼内脏中微生物群落的时空动态。水质呈现季节性变化,旱季的 pH 值、溶解氧和溶解性总固体普遍较高,而雨季的水温较高。RDA 表明,较高的 pH 值、溶解氧和总溶解固体促进了旱季水样中微生物群落的形成,而较高的水温则积极调节了雨季水样中微生物群落的形成。LEFSe 确定了 5 个在属一级差异最大的生物标志物,其中 TM7a 在旱季水样中上调,SM1A02、Rheinheimera、Gemmatimonas 和 Vogesella 在雨季水样中上调。皮尔逊分析显示,较高的 pH 值和溶解氧对 TM7a 的形成有正向调节作用,对 SM1A02、Rheinheimera、Gemmatimonas 和 Vogesella 的形成有负向调节作用(p < 0.05),而较高的水温对这些生物标志物的形成则有相反的调节作用。即使采集自同一水源,不同种类鱼类内脏微生物群多样性的相对丰度也有很大差异,这表明饮食习惯和鱼类种类可能是影响鱼类内脏微生物群落形成和构建的关键因素。从至少 6 个样本点采集并鉴定的主要鱼类资源有 P. glenii、P. lagowskii、G. cynocephalus 和 L. waleckii。RDA 表明,水环境中的微生物群对 G. cynocephalus 和 L. waleckii 内脏微生物群落的形成具有调节作用,而对 P. glenii 和 P. lagowskii 的调节作用有限。本研究确定了水质对水样和鱼类内脏微生物群落形成的调节作用,为保护黑龙江鱼类资源提供了有价值的证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification of the regulatory roles of water qualities on the spatio-temporal dynamics of microbiota communities in the water and fish guts in the Heilongjiang River.

The Heilongjiang River is one of the largest rivers in the cool temperate zone and has an abundant fish source. To date, the microbiota community in water samples and fish guts from the Heilongjiang River is still unclear. In the present study, water samples and fish guts were collected from four locations of the Heilongjiang River during both the dry season and the wet season to analyze the spatio-temporal dynamics of microbiota communities in the water environment and fish guts through 16s ribosome RNA sequencing. The water qualities showed seasonal changes in which the pH value, dissolved oxygen, and total dissolved solids were generally higher during the dry season, and the water temperature was higher during the wet season. RDA indicated that higher pH values, dissolved oxygen, and total dissolved solids promoted the formation of microbiota communities in the water samples of the dry season, while higher water temperature positively regulated the formation of microbiota communities in the water samples of the wet season. LEFSe identified five biomarkers with the most abundant difference at the genus level, of which TM7a was upregulated in the water samples of the dry season, and SM1A02, Rheinheimera, Gemmatimonas, and Vogesella were upregulated in the water samples of the wet season. Pearson analysis revealed that higher pH values and dissolved oxygen positively regulated the formation of TM7a and negatively regulated the formation of SM1A02, Rheinheimera, Gemmatimonas, and Vogesella (p < 0.05), while higher water temperature had the opposite regulatory roles in the formation of these biomarkers. The relative abundance of microbiota diversity in fish guts varies greatly between different fish species, even if the fishes were collected from the same water source, indicating that dietary habits and fish species may be key factors, affecting the formation and construction of microbiome community in fish gut. P. glenii, P. lagowskii, G. cynocephalus, and L. waleckii were the main fish resources, which were collected and identified from at least six sample points. RDA indicated that the microbiota in the water environment regulated the formation of microbiota community in the guts of G. cynocephalus and L. waleckii and had limited regulated effects on P. glenii and P. lagowskii. The present study identified the regulatory effects of water qualities on the formation of microbiota communities in the water samples and fish guts, providing valuable evidence for the protection of fish resources in the Heilongjiang River.

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来源期刊
CiteScore
7.70
自引率
9.60%
发文量
4837
审稿时长
14 weeks
期刊介绍: Frontiers in Microbiology is a leading journal in its field, publishing rigorously peer-reviewed research across the entire spectrum of microbiology. Field Chief Editor Martin G. Klotz at Washington State University is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
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