肠道微生物群:理解和保护濒危高原裂腹鱼的新前沿。
Gut microbiota: a new frontier in understanding and protecting endangered plateau schizothorax fish.
作者信息
Pan Hongbo, Liu Haiping, Liu Fei, Xie Jianmei, Zhou Yan, Zheng Qize, Guo Mingxiong
机构信息
College of Ecology and Environment, Tibet University, Lhasa, Xizang, China.
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City, Key Laboratory of Freshwater Fish Reproduction and Development (Ministry of Education), Key Laboratory of Chongqing Municipality for Aquatic Economic Animal Resources Conservation and Germplasm Creation, School of Life Sciences, Southwest University, Chongqing, China.
出版信息
Front Microbiol. 2025 Jun 13;16:1592312. doi: 10.3389/fmicb.2025.1592312. eCollection 2025.
INTRODUCTION
Against the backdrop of global biodiversity decline, the role of gut microbiota in endangered species conservation remains underexplored. Endemic fish species in Xizang are critical to plateau ecosystems, yet many face severe survival threats. This study investigates the association between gut microbiota composition and conservation status in five endemic fish species, including the nationally protected , and .
METHODS
Using 16S rRNA sequencing, we systematically analyzed gut microbiota community structures across the five fish species. We compared microbial diversity, dominant bacterial phyla, and the influence of dietary habits on microbiota composition.
RESULTS
Dominant Bacterial Phyla: Fusobacteria, Proteobacteria, and Verrucomicrobia were common across species, while Tenericutes was uniquely dominant in endangered fish. Diversity Trends: Gut microbiota diversity followed the order: > > > > . Conservation Status Correlation: Species with higher endangerment levels exhibited significantly lower diversity: Least Concern (LC) > Near Threatened (NT) > Vulnerable (VU) > Endangered (EN). Dietary Influence: Phytophagous (PHY) fish had higher microbial diversity than omnivorous (OMN) and sarcophagous (SAR) fish, confirming diet as a key factor shaping gut microbiota.
DISCUSSION
This study provides the first evidence linking gut microbiota composition to the conservation status of endemic Tibetan fish. The reduced microbial diversity in endangered species suggests potential microbiome-related health vulnerabilities. Additionally, dietary differences significantly influence microbiota structure, highlighting the need for habitat and dietary conservation strategies. These findings open new avenues for microbiome-based conservation approaches in endangered species management.
引言
在全球生物多样性下降的背景下,肠道微生物群在濒危物种保护中的作用仍未得到充分探索。西藏的特有鱼类物种对高原生态系统至关重要,但许多物种面临着严峻的生存威胁。本研究调查了包括国家保护的[具体物种1]和[具体物种2]在内的五种特有鱼类的肠道微生物群组成与保护状况之间的关联。
方法
我们使用16S rRNA测序系统地分析了这五种鱼类的肠道微生物群群落结构。我们比较了微生物多样性、优势细菌门以及饮食习惯对微生物群组成的影响。
结果
优势细菌门:梭杆菌门、变形菌门和疣微菌门在各物种中普遍存在,而柔膜菌门在濒危鱼类中独特地占主导地位。多样性趋势:肠道微生物群多样性顺序为:[物种1]>[物种2]>[物种3]>[物种4]>[物种5]。保护状况相关性:濒危程度较高的物种表现出显著较低的多样性:无危(LC)>近危(NT)>易危(VU)>濒危(EN)。饮食影响:植食性(PHY)鱼类的微生物多样性高于杂食性(OMN)和肉食性(SAR)鱼类,证实饮食是塑造肠道微生物群的关键因素。
讨论
本研究提供了首个将肠道微生物群组成与西藏特有鱼类保护状况联系起来的证据。濒危物种中微生物多样性的降低表明潜在的与微生物组相关的健康脆弱性。此外,饮食差异显著影响微生物群结构,凸显了栖息地和饮食保护策略的必要性。这些发现为濒危物种管理中基于微生物组的保护方法开辟了新途径。
Zotero 插件