The impact of florfenicol treatment on the microbial populations present in the gill, intestine, and skin of channel catfish (Ictalurus punctatus).

IF 4.9 Q1 MICROBIOLOGY

Animal microbiome Pub Date : 2025-06-20 DOI:10.1186/s42523-025-00433-9

Hongye Wang, Lina Sheng, Zeinab Yazdi, Xiran Li, Zhuosheng Liu, Sushumna Canakapalli, Yi Zhou, Chao Liao, Shiva Emami, Anita M Kelly, Luke A Roy, Esteban Soto, Luxin Wang

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Abstract

Background: Florfenicol is a broad-spectrum antimicrobial approved in many countries for treating bacterial infections in production animals. Although florfenicol has been widely used in the US catfish industry, its impact on the native microbiota within catfish tissues remains largely unknown. Florfenicol treatment is followed by a mandatory withdrawal period to ensure drug residues fall below regulatory limits before harvest. This interval also allows for the potential recovery of the native microbiota. In particular, the skin and gill microbiota have often been overlooked in aquaculture microbiome research. Moreover, the dynamics of microbial communities and resistome profiles following drug withdrawal are still poorly understood, despite their ecological significance.

Results: A significant increase in intestinal microbial diversity was observed at the end of the withdrawal period. The highest alpha diversity (Shannon index) was observed in catfish intestines. This increase indicated the restoration of the normal microbiota in catfish intestine. The predominant bacterial phyla shared among catfish gill, intestine, and skin are Proteobacteria (62%), Bacteroidetes (18%), Actinobacteriota (12%), Firmicutes (3%), Patescibacteria (2%), and Verrucomicrobiota (1%). Florfenicol application can have lasting effects through the withdrawal period, particularly altering the intestinal microbial community.

Conclusion: The result of this study underscores the impact of florfenicol treatment on the bacterial landscape and antibiotic resistance in catfish, highlighting significant changes in microbial composition in the catfish intestine and at the end of the withdrawal period. These findings address the need for monitoring and managing antibiotic resistance in fish farming environments.

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氟苯尼考对海峡鲶鱼（Ictalurus punctatus）鳃、肠和皮肤微生物种群的影响。

背景：氟苯尼考是许多国家批准用于治疗生产动物细菌感染的广谱抗菌药物。尽管氟苯尼考在美国鲶鱼产业中被广泛使用，但它对鲶鱼组织中原生微生物群的影响在很大程度上仍然未知。氟苯尼考治疗之后是强制停药期，以确保药物残留在收获前低于监管限制。这个时间间隔也允许原生微生物群的潜在恢复。特别是在水产养殖微生物群研究中，皮肤和鳃微生物群往往被忽视。此外，尽管它们具有生态意义，但停药后微生物群落和抵抗组的动态变化仍然知之甚少。结果：在停药期结束时观察到肠道微生物多样性显著增加。α多样性（Shannon指数）在鲶鱼肠道中最高。这种增加表明鲶鱼肠道中正常微生物群的恢复。鲶鱼鳃、肠道和皮肤共有的主要细菌门是变形菌门（62%）、拟杆菌门（18%）、放线菌门（12%）、厚壁菌门（3%）、Patescibacteria（2%）和Verrucomicrobiota（1%）。氟苯尼考的应用可以在停药期间产生持久的影响，特别是改变肠道微生物群落。结论：本研究结果强调了氟苯尼考对鲶鱼细菌景观和抗生素耐药性的影响，突出了停药期结束时鲶鱼肠道微生物组成的显著变化。这些发现说明了在养鱼环境中监测和管理抗生素耐药性的必要性。

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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