Succession patterns, environmental connections, and assembly mechanisms of gut microbiota in the giant freshwater prawn (Macrobrachium rosenbergii) across lifespan

IF 3.9 1区农林科学 Q1 FISHERIES

Aquaculture Pub Date : 2025-07-02 DOI:10.1016/j.aquaculture.2025.742927

Songbao Zou , Yao Zheng , Julin Yuan , Meng Ni , Mei Liu , Dan Zhou , Qiang Gao , Mingfeng Deng , Ruichen Wang , Xin Zhang

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引用次数: 0

Abstract

The ecological succession patterns and assembly mechanisms governing gut microbiome dynamics during aquatic host ontogeny remain underexplored, particularly regarding environmental connectivity and habitat transitions. Using the giant freshwater prawn (Macrobrachium rosenbergii) as a model, we surveyed gut microbiota dynamics from egg to adult across 16 developmental stages through brackish-to-freshwater transition over 140 days, using 16S RNA gene amplicon sequencing. Results revealed distinct alpha diversity patterns characterized by U-shaped during larviculture and unimodal during pond culture. Random forest identified 11 life-stage-associated microbial biomarkers (e.g., Chthoniobacteraceae enriched in juveniles) functionally linked to nutrient acquisition. SourceTracker analysis demonstrated limited acquisition from environmental sources (water: 0.1–18.6 %; sediment: 0.1–3.2 %) when incorporating prior-stage gut microbiota as the internal source. Gut microbial colonization exhibited pulsed-attenuation dynamics with four distinct bacterioplankton recruitment pulses (Zoea I, VI, XI, juvenile) followed by gradual attenuation, highlighting critical windows for probiotic intervention. Community assembly processes transitioned from homogenizing dispersal during the early stages (Zoea I-III) to homogeneous selection during the mid-late stages (Zoea VI-XII), with habitat transition significantly influencing successional patterns. These findings provide comprehensive insights into prawn gut microbiota assembly mechanisms by integrating host development, environmental sources, and habitat transitions.

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罗氏沼虾（Macrobrachium rosenbergii）一生中肠道微生物群的演替模式、环境联系和组装机制

水生寄主个体发育过程中控制肠道微生物群动态的生态演替模式和组装机制仍未得到充分探讨，特别是在环境连通性和栖息地转变方面。以罗氏沼虾（Macrobrachium rosenbergii）为研究对象，利用16S RNA基因扩增子测序技术，研究了140天内从咸水到淡水的16个发育阶段，从卵到成虾的肠道微生物群动态。结果表明：α多样性在幼虫养殖期间呈u型分布，在池塘养殖期间呈单峰分布；随机森林鉴定出11个与生命阶段相关的微生物生物标志物（例如，幼鱼中富集的Chthoniobacteraceae）与营养获取功能相关。SourceTracker分析显示，从环境来源获取的数据有限(水：0.1 - 18.6%；沉淀物：0.1 - 3.2%)，当将前期肠道微生物群作为内部来源时。肠道微生物定植呈现出脉冲衰减的动态，四种不同的浮游细菌招募脉冲（Zoea I， VI， XI，幼虫）随后逐渐衰减，突出了益生菌干预的关键窗口。群落聚集过程由早期（Zoea I-III）的均一化扩散过渡到中后期（Zoea VI-XII）的均一化选择，生境转变对演替模式有显著影响。这些发现通过整合宿主发育，环境来源和栖息地转变，为对虾肠道微生物群组装机制提供了全面的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Aquaculture 农林科学-海洋与淡水生物学

CiteScore

8.60

自引率

17.80%

发文量

1246

审稿时长

56 days

期刊介绍： Aquaculture is an international journal for the exploration, improvement and management of all freshwater and marine food resources. It publishes novel and innovative research of world-wide interest on farming of aquatic organisms, which includes finfish, mollusks, crustaceans and aquatic plants for human consumption. Research on ornamentals is not a focus of the Journal. Aquaculture only publishes papers with a clear relevance to improving aquaculture practices or a potential application.